libMesh
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Discontinuous Hierarchic finite elements. More...
#include <fe.h>
Public Types | |
typedef FEGenericBase< typename FEOutputType< T >::type >::OutputShape | OutputShape |
typedef TensorTools::IncrementRank< OutputShape >::type | OutputGradient |
typedef TensorTools::IncrementRank< OutputGradient >::type | OutputTensor |
typedef TensorTools::DecrementRank< OutputShape >::type | OutputDivergence |
typedef TensorTools::MakeNumber< OutputShape >::type | OutputNumber |
typedef TensorTools::IncrementRank< OutputNumber >::type | OutputNumberGradient |
typedef TensorTools::IncrementRank< OutputNumberGradient >::type | OutputNumberTensor |
typedef TensorTools::DecrementRank< OutputNumber >::type | OutputNumberDivergence |
Public Member Functions | |
FEL2Hierarchic (const FEType &fet) | |
Constructor. More... | |
Real | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
Subdivision finite elements. More... | |
Real | shape (const Elem *, const Order, const unsigned int libmesh_dbg_var(i), const Point &, const bool) |
Real | shape (const FEType, const Elem *, const unsigned int libmesh_dbg_var(i), const Point &, const bool) |
Real | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const ElemType, const Order, const unsigned int, const Point &) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const ElemType, const Order, const unsigned int, const Point &) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const Elem *, const Order, const unsigned int libmesh_dbg_var(i), const Point &, const bool) |
Real | shape (const FEType, const Elem *, const unsigned int libmesh_dbg_var(i), const Point &, const bool) |
Real | shape (const ElemType, const Order, const unsigned int, const Point &) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const ElemType, const Order, const unsigned int, const Point &) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const Elem *libmesh_dbg_var(elem), const Order, const unsigned int, const Point &, const bool) |
Real | shape (const FEType, const Elem *libmesh_dbg_var(elem), const unsigned int, const Point &, const bool) |
Real | shape (const Elem *, const Order, const unsigned int libmesh_dbg_var(i), const Point &, const bool) |
Real | shape (const FEType, const Elem *, const unsigned int libmesh_dbg_var(i), const Point &, const bool) |
Real | shape (const Elem *elem, const Order libmesh_dbg_var(order), const unsigned int i, const Point &p, const bool libmesh_dbg_var(add_p_level)) |
Real | shape (const ElemType, const Order, const unsigned int, const Point &) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const ElemType, const Order, const unsigned int, const Point &) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const ElemType, const Order, const unsigned int, const Point &) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const ElemType, const Order, const unsigned int libmesh_dbg_var(i), const Point &) |
Real | shape (const ElemType, const Order, const unsigned int, const Point &) |
Real | shape (const Elem *, const Order, const unsigned int libmesh_dbg_var(i), const Point &, const bool) |
Real | shape (const Elem *, const Order, const unsigned int libmesh_dbg_var(i), const Point &, const bool) |
Real | shape (const Elem *, const Order, const unsigned int, const Point &, const bool) |
Real | shape (const FEType, const Elem *, const unsigned int libmesh_dbg_var(i), const Point &, const bool) |
Real | shape (const FEType, const Elem *, const unsigned int libmesh_dbg_var(i), const Point &, const bool) |
Real | shape (const FEType, const Elem *, const unsigned int, const Point &, const bool) |
Real | shape (const ElemType elem_type, const Order order, const unsigned int i, const Point &p) |
Real | shape (const ElemType, const Order, const unsigned int i, const Point &p) |
Real | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const Elem *, const Order, const unsigned int i, const Point &p, const bool) |
Real | shape (const FEType, const Elem *, const unsigned int i, const Point &p, const bool) |
Real | shape (const ElemType, const Order, const unsigned int, const Point &) |
Real | shape (const ElemType, const Order, const unsigned int, const Point &) |
Real | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const ElemType, const Order, const unsigned int, const Point &) |
Real | shape (const ElemType, const Order, const unsigned int, const Point &) |
Real | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const ElemType type, const Order order, const unsigned int i, const Point &p) |
RealGradient | shape (const ElemType type, const Order order, const unsigned int i, const Point &p) |
RealGradient | shape (const ElemType type, const Order order, const unsigned int i, const Point &p) |
RealGradient | shape (const ElemType type, const Order order, const unsigned int i, const Point &p) |
RealGradient | shape (const ElemType type, const Order order, const unsigned int i, const Point &p) |
RealGradient | shape (const ElemType type, const Order order, const unsigned int i, const Point &p) |
RealGradient | shape (const ElemType type, const Order order, const unsigned int i, const Point &p) |
RealGradient | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const ElemType, const Order, const unsigned int libmesh_dbg_var(i), const Point &) |
Real | shape (const Elem *, const Order, const unsigned int libmesh_dbg_var(i), const Point &, const bool) |
Real | shape (const Elem *, const Order, const unsigned int libmesh_dbg_var(i), const Point &, const bool) |
Real | shape (const FEType, const Elem *, const unsigned int libmesh_dbg_var(i), const Point &, const bool) |
Real | shape (const FEType, const Elem *, const unsigned int libmesh_dbg_var(i), const Point &, const bool) |
Real | shape (const ElemType, const Order order, const unsigned int i, const Point &p) |
Real | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const ElemType type, const Order order, const unsigned int i, const Point &p) |
Real | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const ElemType type, const Order order, const unsigned int i, const Point &p) |
Real | shape (const ElemType type, const Order order, const unsigned int i, const Point &p) |
Real | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const ElemType type, const Order order, const unsigned int i, const Point &p) |
RealGradient | shape (const ElemType type, const Order order, const unsigned int i, const Point &p) |
RealGradient | shape (const ElemType type, const Order order, const unsigned int i, const Point &p) |
RealGradient | shape (const ElemType type, const Order order, const unsigned int i, const Point &p) |
RealGradient | shape (const ElemType type, const Order order, const unsigned int i, const Point &p) |
RealGradient | shape (const ElemType type, const Order order, const unsigned int i, const Point &p) |
RealGradient | shape (const ElemType type, const Order order, const unsigned int i, const Point &p) |
RealGradient | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const Elem *, const Order, const unsigned int libmesh_dbg_var(i), const Point &, const bool) |
Real | shape (const FEType, const Elem *, const unsigned int libmesh_dbg_var(i), const Point &, const bool) |
Real | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
RealVectorValue | shape (const ElemType type, const Order order, const unsigned int i, const Point &p) |
RealVectorValue | shape (const ElemType type, const Order order, const unsigned int i, const Point &p) |
RealVectorValue | shape (const ElemType type, const Order order, const unsigned int i, const Point &p) |
RealVectorValue | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
RealVectorValue | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
RealVectorValue | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
RealVectorValue | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const ElemType, const Order, const unsigned int, const Point &) |
RealGradient | shape (const Elem *, const Order, const unsigned int, const Point &, const bool) |
RealGradient | shape (const ElemType, const Order, const unsigned int, const Point &) |
RealGradient | shape (const Elem *, const Order, const unsigned int, const Point &, const bool) |
RealGradient | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const ElemType, const Order, const unsigned int, const Point &) |
RealGradient | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const ElemType, const Order, const unsigned int, const Point &) |
RealGradient | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const Elem *, const Order, const unsigned int libmesh_dbg_var(i), const Point &, const bool) |
Real | shape (const FEType, const Elem *, const unsigned int libmesh_dbg_var(i), const Point &, const bool) |
Real | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const ElemType, const Order, const unsigned int, const Point &) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const ElemType, const Order, const unsigned int, const Point &) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const ElemType, const Order, const unsigned int, const Point &) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const ElemType, const Order, const unsigned int, const Point &) |
RealGradient | shape (const Elem *, const Order, const unsigned int, const Point &, const bool) |
RealGradient | shape (const ElemType, const Order, const unsigned int, const Point &) |
RealGradient | shape (const Elem *, const Order, const unsigned int, const Point &, const bool) |
RealGradient | shape (const ElemType, const Order, const unsigned int, const Point &) |
RealGradient | shape (const Elem *, const Order, const unsigned int, const Point &, const bool) |
RealGradient | shape (const ElemType, const Order, const unsigned int, const Point &) |
RealGradient | shape (const Elem *, const Order, const unsigned int, const Point &, const bool) |
RealGradient | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const ElemType, const Order, const unsigned int, const Point &) |
RealGradient | shape (const ElemType, const Order, const unsigned int, const Point &) |
RealGradient | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const ElemType, const Order, const unsigned int, const Point &) |
RealGradient | shape (const ElemType, const Order, const unsigned int, const Point &) |
RealGradient | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
RealGradient | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const Elem *, const Order, const unsigned int, const Point &, const bool) |
Real | shape (const FEType, const Elem *, const unsigned int, const Point &, const bool) |
Real | shape (const Elem *, const Order, const unsigned int, const Point &, const bool) |
Real | shape (const FEType, const Elem *, const unsigned int, const Point &, const bool) |
Real | shape (const Elem *, const Order, const unsigned int, const Point &, const bool) |
Real | shape (const FEType, const Elem *, const unsigned int, const Point &, const bool) |
Real | shape (const Elem *, const Order, const unsigned int, const Point &, const bool) |
Real | shape (const FEType, const Elem *, const unsigned int, const Point &, const bool) |
Real | shape (const ElemType type, const Order order, const unsigned int i, const Point &p) |
Real | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const Elem *, const Order, const unsigned int libmesh_dbg_var(i), const Point &, const bool) |
Real | shape (const FEType, const Elem *, const unsigned int libmesh_dbg_var(i), const Point &, const bool) |
Real | shape (const Elem *elem, const Order order, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const ElemType, const Order, const unsigned int, const Point &) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const Elem *, const Order, const unsigned int, const Point &, const bool) |
Real | shape (const FEType, const Elem *, const unsigned int, const Point &, const bool) |
Real | shape (const Elem *, const Order, const unsigned int libmesh_dbg_var(i), const Point &, const bool) |
Real | shape (const FEType, const Elem *, const unsigned int libmesh_dbg_var(i), const Point &, const bool) |
Real | shape (const ElemType, const Order, const unsigned int, const Point &) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const ElemType, const Order, const unsigned int, const Point &) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
Real | shape (const ElemType, const Order, const unsigned int, const Point &) |
Real | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level) |
void | shapes (const Elem *elem, const Order o, const unsigned int i, const std::vector< Point > &p, std::vector< OutputShape > &v, const bool add_p_level) |
void | shapes (const Elem *elem, const Order o, const unsigned int i, const std::vector< Point > &p, std::vector< OutputShape > &vi, const bool add_p_level) |
void | shapes (const Elem *elem, const Order o, const unsigned int i, const std::vector< Point > &p, std::vector< OutputShape > &vi, const bool add_p_level) |
void | shapes (const Elem *elem, const Order o, const unsigned int i, const std::vector< Point > &p, std::vector< OutputShape > &vi, const bool add_p_level) |
void | all_shapes (const Elem *elem, const Order o, const std::vector< Point > &p, std::vector< std::vector< OutputShape >> &v, const bool add_p_level) |
void | all_shapes (const Elem *elem, const Order o, const std::vector< Point > &p, std::vector< std::vector< OutputShape >> &v, const bool add_p_level) |
void | all_shapes (const Elem *elem, const Order o, const std::vector< Point > &p, std::vector< std::vector< OutputShape >> &v, const bool add_p_level) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const ElemType, const Order order, const unsigned int i, const unsigned int libmesh_dbg_var(j), const Point &p) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const Elem *libmesh_dbg_var(elem), const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const FEType, const Elem *libmesh_dbg_var(elem), const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const Elem *elem, const Order libmesh_dbg_var(order), const unsigned int i, const unsigned int, const Point &p, const bool libmesh_dbg_var(add_p_level)) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const ElemType elem_type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
Real | shape_deriv (const ElemType elem_type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const ElemType, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
Real | shape_deriv (const ElemType, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
Real | shape_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
Real | shape_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const ElemType, const Order libmesh_dbg_var(order), const unsigned int i, const unsigned int libmesh_dbg_var(j), const Point &p) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const ElemType, const Order libmesh_dbg_var(order), const unsigned int i, const unsigned int j, const Point &p) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const ElemType, const Order libmesh_dbg_var(order), const unsigned int i, const unsigned int j, const Point &p) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealVectorValue | shape_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealVectorValue | shape_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealVectorValue | shape_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealVectorValue | shape_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealVectorValue | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealVectorValue | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealVectorValue | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealVectorValue | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
RealGradient | shape_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
RealGradient | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
RealGradient | shape_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
RealGradient | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &, const bool add_p_level) |
RealGradient | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
RealGradient | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
RealGradient | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
RealGradient | shape_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
RealGradient | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
RealGradient | shape_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
RealGradient | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
RealGradient | shape_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
RealGradient | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
RealGradient | shape_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
RealGradient | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &, const bool add_p_level) |
RealGradient | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
RealGradient | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
RealGradient | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &, const bool add_p_level) |
RealGradient | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
RealGradient | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
RealGradient | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const ElemType, const Order libmesh_dbg_var(order), const unsigned int i, const unsigned int libmesh_dbg_var(j), const Point &p) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_deriv (const Elem *elem, const Order libmesh_dbg_var(order), const unsigned int i, const unsigned int libmesh_dbg_var(j), const Point &point_in, const bool libmesh_dbg_var(add_p_level)) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const Elem *elem, const Order libmesh_dbg_var(order), const unsigned int i, const unsigned int j, const Point &point_in, const bool libmesh_dbg_var(add_p_level)) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_deriv (const Elem *elem, const Order libmesh_dbg_var(order), const unsigned int i, const unsigned int j, const Point &point_in, const bool libmesh_dbg_var(add_p_level)) |
Real | shape_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
void | shape_derivs (const Elem *elem, const Order o, const unsigned int i, const unsigned int j, const std::vector< Point > &p, std::vector< OutputShape > &v, const bool add_p_level) |
void | shape_derivs (const Elem *elem, const Order o, const unsigned int i, const unsigned int j, const std::vector< Point > &p, std::vector< OutputShape > &v, const bool add_p_level) |
void | shape_derivs (const Elem *elem, const Order o, const unsigned int i, const unsigned int j, const std::vector< Point > &p, std::vector< OutputShape > &v, const bool add_p_level) |
void | shape_derivs (const Elem *elem, const Order o, const unsigned int i, const unsigned int j, const std::vector< Point > &p, std::vector< OutputShape > &v, const bool add_p_level) |
void | all_shape_derivs (const Elem *elem, const Order o, const std::vector< Point > &p, std::vector< std::vector< OutputShape >> *comps[3], const bool add_p_level) |
void | all_shape_derivs (const Elem *elem, const Order o, const std::vector< Point > &p, std::vector< std::vector< Real >> *comps[3], const bool add_p_level) |
void | all_shape_derivs (const Elem *elem, const Order o, const std::vector< Point > &p, std::vector< std::vector< Real >> *comps[3], const bool add_p_level) |
void | all_shape_derivs (const Elem *elem, const Order o, const std::vector< Point > &p, std::vector< std::vector< Real >> *comps[3], const bool add_p_level) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const ElemType, const Order order, const unsigned int i, const unsigned int libmesh_dbg_var(j), const Point &p) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const Elem *libmesh_dbg_var(elem), const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const FEType, const Elem *libmesh_dbg_var(elem), const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const Elem *elem, const Order libmesh_dbg_var(order), const unsigned int i, const unsigned int, const Point &p, const bool libmesh_dbg_var(add_p_level)) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const ElemType elem_type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
Real | shape_second_deriv (const ElemType elem_type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_second_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_second_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_second_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_second_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_second_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_second_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_second_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_second_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const ElemType, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
Real | shape_second_deriv (const ElemType, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
Real | shape_second_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
Real | shape_second_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_second_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_second_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_second_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_second_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_second_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_second_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_second_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_second_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealGradient | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const ElemType, const Order libmesh_dbg_var(order), const unsigned int i, const unsigned int libmesh_dbg_var(j), const Point &p) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const ElemType, const Order libmesh_dbg_var(order), const unsigned int i, const unsigned int j, const Point &p) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const ElemType, const Order libmesh_dbg_var(order), const unsigned int i, const unsigned int j, const Point &p) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealVectorValue | shape_second_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealVectorValue | shape_second_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealVectorValue | shape_second_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealVectorValue | shape_second_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
RealVectorValue | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealVectorValue | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealVectorValue | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealVectorValue | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
RealGradient | shape_second_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
RealGradient | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
RealGradient | shape_second_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
RealGradient | shape_second_deriv (const Elem *elem, const Order order, const unsigned int libmesh_dbg_var(i), const unsigned int libmesh_dbg_var(j), const Point &, const bool add_p_level) |
RealGradient | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
RealGradient | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &libmesh_dbg_var(p), const bool add_p_level) |
RealGradient | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
RealGradient | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
RealGradient | shape_second_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
RealGradient | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
RealGradient | shape_second_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
RealGradient | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
RealGradient | shape_second_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
RealGradient | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
RealGradient | shape_second_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
RealGradient | shape_second_deriv (const Elem *elem, const Order order, const unsigned int libmesh_dbg_var(i), const unsigned int libmesh_dbg_var(j), const Point &, const bool add_p_level) |
RealGradient | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
RealGradient | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
RealGradient | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_second_deriv (const Elem *elem, const Order order, const unsigned int libmesh_dbg_var(i), const unsigned int libmesh_dbg_var(j), const Point &, const bool add_p_level) |
RealGradient | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
RealGradient | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
RealGradient | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
RealGradient | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const ElemType type, const Order order, const unsigned int i, const unsigned int j, const Point &p) |
Real | shape_second_deriv (const Elem *elem, const Order order, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const Elem *, const Order, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const FEType, const Elem *, const unsigned int, const unsigned int, const Point &, const bool) |
Real | shape_second_deriv (const Elem *elem, const Order libmesh_dbg_var(order), const unsigned int i, const unsigned int libmesh_dbg_var(j), const Point &point_in, const bool libmesh_dbg_var(add_p_level)) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const Elem *elem, const Order libmesh_dbg_var(order), const unsigned int i, const unsigned int j, const Point &point_in, const bool libmesh_dbg_var(add_p_level)) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
Real | shape_second_deriv (const Elem *elem, const Order libmesh_dbg_var(order), const unsigned int i, const unsigned int j, const Point &point_in, const bool libmesh_dbg_var(add_p_level)) |
Real | shape_second_deriv (const ElemType, const Order, const unsigned int, const unsigned int, const Point &) |
Real | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level) |
void | nodal_soln (const Elem *elem, const Order order, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln, const bool add_p_level) |
void | nodal_soln (const Elem *elem, const Order order, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln, const bool add_p_level) |
void | nodal_soln (const Elem *elem, const Order order, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln, const bool add_p_level) |
void | nodal_soln (const Elem *elem, const Order order, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln, const bool add_p_level) |
void | nodal_soln (const Elem *elem, const Order order, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln, const bool add_p_level) |
void | nodal_soln (const Elem *elem, const Order order, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln, const bool add_p_level) |
void | nodal_soln (const Elem *elem, const Order order, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln, const bool add_p_level) |
void | nodal_soln (const Elem *elem, const Order order, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln, const bool add_p_level) |
void | nodal_soln (const Elem *elem, const Order order, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln, const bool add_p_level) |
void | nodal_soln (const Elem *elem, const Order order, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln, const bool add_p_level) |
void | nodal_soln (const Elem *elem, const Order order, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln, const bool add_p_level) |
void | nodal_soln (const Elem *elem, const Order order, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln, const bool add_p_level) |
void | nodal_soln (const Elem *elem, const Order order, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln, const bool add_p_level) |
void | nodal_soln (const Elem *elem, const Order order, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln, const bool add_p_level) |
void | nodal_soln (const Elem *elem, const Order order, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln, const bool add_p_level) |
void | nodal_soln (const Elem *elem, const Order order, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln, const bool add_p_level) |
void | nodal_soln (const Elem *elem, const Order order, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln, const bool add_p_level) |
void | nodal_soln (const Elem *elem, const Order order, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln, const bool add_p_level) |
void | nodal_soln (const Elem *, const Order, const std::vector< Number > &, std::vector< Number > &, bool) |
void | nodal_soln (const Elem *, const Order, const std::vector< Number > &, std::vector< Number > &, bool) |
void | nodal_soln (const Elem *elem, const Order order, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln, const bool add_p_level) |
void | nodal_soln (const Elem *elem, const Order order, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln, const bool add_p_level) |
void | nodal_soln (const Elem *, const Order, const std::vector< Number > &, std::vector< Number > &, bool) |
void | nodal_soln (const Elem *, const Order, const std::vector< Number > &, std::vector< Number > &, bool) |
void | nodal_soln (const Elem *elem, const Order order, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln, const bool add_p_level) |
void | nodal_soln (const Elem *elem, const Order order, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln, const bool add_p_level) |
void | nodal_soln (const Elem *, const Order, const std::vector< Number > &, std::vector< Number > &, bool) |
void | nodal_soln (const Elem *, const Order, const std::vector< Number > &, std::vector< Number > &, bool) |
void | nodal_soln (const Elem *elem, const Order order, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln, const bool add_p_level) |
void | nodal_soln (const Elem *elem, const Order order, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln, const bool add_p_level) |
void | nodal_soln (const Elem *elem, const Order, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln, const bool) |
void | side_nodal_soln (const Elem *, const Order, const unsigned int side, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln_on_side, const bool) |
void | side_nodal_soln (const Elem *elem, const Order o, const unsigned int side, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln_on_side, const bool add_p_level) |
void | side_nodal_soln (const Elem *elem, const Order o, const unsigned int side, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln_on_side, const bool add_p_level) |
virtual unsigned int | n_shape_functions () const override |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType, const Order) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType, const Order) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType, const Order) |
unsigned int | n_dofs (const ElemType, const Order) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType, const Order o) |
unsigned int | n_dofs (const ElemType, const Order o) |
unsigned int | n_dofs (const ElemType, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType, const Order) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs (const ElemType t, const Order o) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_at_node (const ElemType, const Order, const unsigned int) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType, const Order) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
virtual FEContinuity | get_continuity () const override |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
FEContinuity | get_continuity () const |
virtual bool | is_hierarchic () const override |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
bool | is_hierarchic () const |
void | dofs_on_side (const Elem *const, const Order, unsigned int, std::vector< unsigned int > &di, bool) |
void | dofs_on_edge (const Elem *const, const Order, unsigned int, std::vector< unsigned int > &di, bool) |
Point | inverse_map (const Elem *, const Point &, const Real, const bool) |
void | inverse_map (const Elem *, const std::vector< Point > &, std::vector< Point > &, Real, bool) |
virtual void | reinit (const Elem *elem, const std::vector< Point > *const pts=nullptr, const std::vector< Real > *const weights=nullptr) override |
This is at the core of this class. More... | |
virtual void | reinit (const Elem *elem, const unsigned int side, const Real tolerance=TOLERANCE, const std::vector< Point > *const pts=nullptr, const std::vector< Real > *const weights=nullptr) override |
Reinitializes all the physical element-dependent data based on the side of face . More... | |
virtual void | reinit_dual_shape_coeffs (const Elem *elem, const std::vector< Point > &pts, const std::vector< Real > &JxW) override |
This re-computes the dual shape function coefficients. More... | |
virtual void | reinit_default_dual_shape_coeffs (const Elem *elem) override |
This computes the default dual shape function coefficients. More... | |
virtual void | edge_reinit (const Elem *elem, const unsigned int edge, const Real tolerance=TOLERANCE, const std::vector< Point > *const pts=nullptr, const std::vector< Real > *const weights=nullptr) override |
Reinitializes all the physical element-dependent data based on the edge . More... | |
void | edge_reinit (Elem const *, unsigned int, Real, const std::vector< Point > *const, const std::vector< Real > *const) |
Reinitializes all the physical element-dependent data based on the edge of the element elem . More... | |
virtual void | side_map (const Elem *elem, const Elem *side, const unsigned int s, const std::vector< Point > &reference_side_points, std::vector< Point > &reference_points) override |
Computes the reference space quadrature points on the side of an element based on the side quadrature points. More... | |
void | side_map (const Elem *, const Elem *, const unsigned int, const std::vector< Point > &, std::vector< Point > &) |
Computes the reference space quadrature points on the side of an element based on the side quadrature points. More... | |
virtual void | edge_map (const Elem *elem, const Elem *edge, const unsigned int e, const std::vector< Point > &reference_edge_points, std::vector< Point > &reference_points) |
Computes the reference space quadrature points on the side of an element based on the edge quadrature points. More... | |
virtual void | attach_quadrature_rule (QBase *q) override |
Provides the class with the quadrature rule, which provides the locations (on a reference element) where the shape functions are to be calculated. More... | |
virtual unsigned int | n_quadrature_points () const override |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &, DofMap &, const unsigned int, const Elem *) |
void | compute_constraints (DofConstraints &, DofMap &, const unsigned int, const Elem *) |
void | compute_constraints (DofConstraints &, DofMap &, const unsigned int, const Elem *) |
void | compute_constraints (DofConstraints &, DofMap &, const unsigned int, const Elem *) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &, DofMap &, const unsigned int, const Elem *) |
void | compute_constraints (DofConstraints &, DofMap &, const unsigned int, const Elem *) |
void | compute_constraints (DofConstraints &, DofMap &, const unsigned int, const Elem *) |
void | compute_constraints (DofConstraints &, DofMap &, const unsigned int, const Elem *) |
void | compute_constraints (DofConstraints &, DofMap &, const unsigned int, const Elem *) |
void | compute_constraints (DofConstraints &, DofMap &, const unsigned int, const Elem *) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &, DofMap &, const unsigned int, const Elem *) |
void | compute_constraints (DofConstraints &, DofMap &, const unsigned int, const Elem *) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &, DofMap &, const unsigned int, const Elem *) |
void | compute_constraints (DofConstraints &, DofMap &, const unsigned int, const Elem *) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &, DofMap &, const unsigned int, const Elem *) |
void | compute_constraints (DofConstraints &, DofMap &, const unsigned int, const Elem *) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
void | compute_constraints (DofConstraints &, DofMap &, const unsigned int, const Elem *) |
void | compute_constraints (DofConstraints &, DofMap &, const unsigned int, const Elem *) |
virtual bool | shapes_need_reinit () const override |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
bool | shapes_need_reinit () const |
std::unique_ptr< FEGenericBase< Real > > | build (const unsigned int dim, const FEType &fet) |
std::unique_ptr< FEGenericBase< RealGradient > > | build (const unsigned int dim, const FEType &fet) |
std::unique_ptr< FEGenericBase< Real > > | build_InfFE (const unsigned int dim, const FEType &fet) |
std::unique_ptr< FEGenericBase< RealGradient > > | build_InfFE (const unsigned int, const FEType &) |
const std::vector< std::vector< OutputShape > > & | get_phi () const |
const std::vector< std::vector< OutputShape > > & | get_dual_phi () const |
virtual void | request_phi () const override |
request phi calculations More... | |
virtual void | request_dual_phi () const override |
const std::vector< std::vector< OutputGradient > > & | get_dphi () const |
const std::vector< std::vector< OutputGradient > > & | get_dual_dphi () const |
virtual void | request_dphi () const override |
request dphi calculations More... | |
virtual void | request_dual_dphi () const override |
const DenseMatrix< Real > & | get_dual_coeff () const |
virtual_for_inffe const std::vector< std::vector< OutputShape > > & | get_curl_phi () const |
virtual_for_inffe const std::vector< std::vector< OutputDivergence > > & | get_div_phi () const |
const std::vector< std::vector< OutputShape > > & | get_dphidx () const |
const std::vector< std::vector< OutputShape > > & | get_dphidy () const |
const std::vector< std::vector< OutputShape > > & | get_dphidz () const |
const std::vector< std::vector< OutputShape > > & | get_dphidxi () const |
const std::vector< std::vector< OutputShape > > & | get_dphideta () const |
const std::vector< std::vector< OutputShape > > & | get_dphidzeta () const |
const std::vector< std::vector< OutputTensor > > & | get_d2phi () const |
const std::vector< std::vector< OutputTensor > > & | get_dual_d2phi () const |
const std::vector< std::vector< OutputShape > > & | get_d2phidx2 () const |
const std::vector< std::vector< OutputShape > > & | get_d2phidxdy () const |
const std::vector< std::vector< OutputShape > > & | get_d2phidxdz () const |
const std::vector< std::vector< OutputShape > > & | get_d2phidy2 () const |
const std::vector< std::vector< OutputShape > > & | get_d2phidydz () const |
const std::vector< std::vector< OutputShape > > & | get_d2phidz2 () const |
const std::vector< std::vector< OutputShape > > & | get_d2phidxi2 () const |
const std::vector< std::vector< OutputShape > > & | get_d2phidxideta () const |
const std::vector< std::vector< OutputShape > > & | get_d2phidxidzeta () const |
const std::vector< std::vector< OutputShape > > & | get_d2phideta2 () const |
const std::vector< std::vector< OutputShape > > & | get_d2phidetadzeta () const |
const std::vector< std::vector< OutputShape > > & | get_d2phidzeta2 () const |
const std::vector< OutputGradient > & | get_dphase () const |
virtual const std::vector< Real > & | get_Sobolev_weight () const |
virtual const std::vector< RealGradient > & | get_Sobolev_dweight () const |
virtual const std::vector< Real > & | get_Sobolev_weightxR_sq () const |
virtual const std::vector< RealGradient > & | get_Sobolev_dweightxR_sq () const |
virtual const std::vector< std::vector< OutputShape > > & | get_phi_over_decayxR () const |
virtual const std::vector< std::vector< OutputGradient > > & | get_dphi_over_decayxR () const |
virtual const std::vector< std::vector< OutputGradient > > & | get_dphi_over_decay () const |
virtual void | print_phi (std::ostream &os) const override |
Prints the value of each shape function at each quadrature point. More... | |
virtual void | print_dual_phi (std::ostream &os) const override |
virtual void | print_dphi (std::ostream &os) const override |
Prints the value of each shape function's derivative at each quadrature point. More... | |
virtual void | print_dual_dphi (std::ostream &os) const override |
virtual void | print_d2phi (std::ostream &os) const override |
Prints the value of each shape function's second derivatives at each quadrature point. More... | |
virtual void | print_dual_d2phi (std::ostream &os) const override |
unsigned int | get_dim () const |
void | get_nothing () const |
virtual_for_inffe const std::vector< Point > & | get_xyz () const |
virtual const std::vector< Real > & | get_JxWxdecay_sq () const |
This function is the variant of get_JxW() for InfFE . More... | |
virtual_for_inffe const std::vector< Real > & | get_JxW () const |
virtual_for_inffe const std::vector< RealGradient > & | get_dxyzdxi () const |
virtual_for_inffe const std::vector< RealGradient > & | get_dxyzdeta () const |
virtual_for_inffe const std::vector< RealGradient > & | get_dxyzdzeta () const |
virtual_for_inffe const std::vector< RealGradient > & | get_d2xyzdxi2 () const |
virtual_for_inffe const std::vector< RealGradient > & | get_d2xyzdeta2 () const |
virtual_for_inffe const std::vector< RealGradient > & | get_d2xyzdzeta2 () const |
virtual_for_inffe const std::vector< RealGradient > & | get_d2xyzdxideta () const |
virtual_for_inffe const std::vector< RealGradient > & | get_d2xyzdxidzeta () const |
virtual_for_inffe const std::vector< RealGradient > & | get_d2xyzdetadzeta () const |
virtual_for_inffe const std::vector< Real > & | get_dxidx () const |
virtual_for_inffe const std::vector< Real > & | get_dxidy () const |
virtual_for_inffe const std::vector< Real > & | get_dxidz () const |
virtual_for_inffe const std::vector< Real > & | get_detadx () const |
virtual_for_inffe const std::vector< Real > & | get_detady () const |
virtual_for_inffe const std::vector< Real > & | get_detadz () const |
virtual_for_inffe const std::vector< Real > & | get_dzetadx () const |
virtual_for_inffe const std::vector< Real > & | get_dzetady () const |
virtual_for_inffe const std::vector< Real > & | get_dzetadz () const |
virtual_for_inffe const std::vector< std::vector< Point > > & | get_tangents () const |
virtual_for_inffe const std::vector< Point > & | get_normals () const |
virtual_for_inffe const std::vector< Real > & | get_curvatures () const |
ElemType | get_type () const |
unsigned int | get_p_level () const |
FEType | get_fe_type () const |
Order | get_order () const |
void | set_fe_order (int new_order) |
Sets the base FE order of the finite element. More... | |
FEFamily | get_family () const |
const FEMap & | get_fe_map () const |
FEMap & | get_fe_map () |
void | print_JxW (std::ostream &os) const |
Prints the Jacobian times the weight for each quadrature point. More... | |
void | print_xyz (std::ostream &os) const |
Prints the spatial location of each quadrature point (on the physical element). More... | |
void | print_info (std::ostream &os) const |
Prints all the relevant information about the current element. More... | |
void | set_calculate_dual (const bool val) |
set calculate_dual as needed More... | |
void | set_calculate_default_dual_coeff (const bool val) |
set calculate_default_dual_coeff as needed More... | |
void | add_p_level_in_reinit (bool value) |
Indicate whether to add p-refinement levels in init/reinit methods. More... | |
bool | add_p_level_in_reinit () const |
Whether to add p-refinement levels in init/reinit methods. More... | |
Static Public Member Functions | |
static OutputShape | shape (const ElemType t, const Order o, const unsigned int i, const Point &p) |
static OutputShape | shape (const Elem *elem, const Order o, const unsigned int i, const Point &p, const bool add_p_level=true) |
static OutputShape | shape (const FEType fet, const Elem *elem, const unsigned int i, const Point &p, const bool add_p_level=true) |
static void | shapes (const Elem *elem, const Order o, const unsigned int i, const std::vector< Point > &p, std::vector< OutputShape > &v, const bool add_p_level=true) |
Fills v with the values of the \( i^{th} \) shape function, evaluated at all points p. More... | |
static void | all_shapes (const Elem *elem, const Order o, const std::vector< Point > &p, std::vector< std::vector< OutputShape > > &v, const bool add_p_level=true) |
Fills v [i][qp] with the values of the \( i^{th} \) shape functions, evaluated at all points in p. More... | |
static OutputShape | shape_deriv (const ElemType t, const Order o, const unsigned int i, const unsigned int j, const Point &p) |
static OutputShape | shape_deriv (const Elem *elem, const Order o, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level=true) |
static OutputShape | shape_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level=true) |
static void | shape_derivs (const Elem *elem, const Order o, const unsigned int i, const unsigned int j, const std::vector< Point > &p, std::vector< OutputShape > &v, const bool add_p_level=true) |
Fills v with the \( j^{th} \) derivative of the \( i^{th} \) shape function, evaluated at all points p. More... | |
static void | all_shape_derivs (const Elem *elem, const Order o, const std::vector< Point > &p, std::vector< std::vector< OutputShape >> *comps[3], const bool add_p_level=true) |
Fills comps with dphidxi (and in higher dimensions, eta/zeta) derivative component values for all shape functions, evaluated at all points in p. More... | |
static OutputShape | shape_second_deriv (const ElemType t, const Order o, const unsigned int i, const unsigned int j, const Point &p) |
static OutputShape | shape_second_deriv (const Elem *elem, const Order o, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level=true) |
static OutputShape | shape_second_deriv (const FEType fet, const Elem *elem, const unsigned int i, const unsigned int j, const Point &p, const bool add_p_level=true) |
static void | nodal_soln (const Elem *elem, const Order o, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln, bool add_p_level=true) |
Build the nodal soln from the element soln. More... | |
static void | side_nodal_soln (const Elem *elem, const Order o, const unsigned int side, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln_on_side, bool add_p_level=true) |
Build the nodal soln on one side from the (full) element soln. More... | |
static unsigned int | n_shape_functions (const ElemType t, const Order o) |
static unsigned int | n_dofs (const ElemType t, const Order o) |
static unsigned int | n_dofs_at_node (const ElemType t, const Order o, const unsigned int n) |
static unsigned int | n_dofs_per_elem (const ElemType t, const Order o) |
static void | dofs_on_side (const Elem *const elem, const Order o, unsigned int s, std::vector< unsigned int > &di, bool add_p_level=true) |
Fills the vector di with the local degree of freedom indices associated with side s of element elem . More... | |
static void | dofs_on_edge (const Elem *const elem, const Order o, unsigned int e, std::vector< unsigned int > &di, bool add_p_level=true) |
Fills the vector di with the local degree of freedom indices associated with edge e of element elem . More... | |
static Point | inverse_map (const Elem *elem, const Point &p, const Real tolerance=TOLERANCE, const bool secure=true) |
static void | inverse_map (const Elem *elem, const std::vector< Point > &physical_points, std::vector< Point > &reference_points, const Real tolerance=TOLERANCE, const bool secure=true) |
static void | compute_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
Computes the constraint matrix contributions (for non-conforming adapted meshes) corresponding to variable number var_number , using element-specific optimizations if possible. More... | |
static Point | map (const Elem *elem, const Point &reference_point) |
static Point | map_xi (const Elem *elem, const Point &reference_point) |
static Point | map_eta (const Elem *elem, const Point &reference_point) |
static Point | map_zeta (const Elem *elem, const Point &reference_point) |
static std::unique_ptr< FEGenericBase > | build (const unsigned int dim, const FEType &type) |
Builds a specific finite element type. More... | |
static std::unique_ptr< FEGenericBase > | build_InfFE (const unsigned int dim, const FEType &type) |
Builds a specific infinite element type. More... | |
static void | compute_proj_constraints (DofConstraints &constraints, DofMap &dof_map, const unsigned int variable_number, const Elem *elem) |
Computes the constraint matrix contributions (for non-conforming adapted meshes) corresponding to variable number var_number , using generic projections. More... | |
static void | coarsened_dof_values (const NumericVector< Number > &global_vector, const DofMap &dof_map, const Elem *coarse_elem, DenseVector< Number > &coarse_dofs, const unsigned int var, const bool use_old_dof_indices=false) |
Creates a local projection on coarse_elem , based on the DoF values in global_vector for it's children. More... | |
static void | coarsened_dof_values (const NumericVector< Number > &global_vector, const DofMap &dof_map, const Elem *coarse_elem, DenseVector< Number > &coarse_dofs, const bool use_old_dof_indices=false) |
Creates a local projection on coarse_elem , based on the DoF values in global_vector for it's children. More... | |
static void | compute_periodic_constraints (DofConstraints &constraints, DofMap &dof_map, const PeriodicBoundaries &boundaries, const MeshBase &mesh, const PointLocatorBase *point_locator, const unsigned int variable_number, const Elem *elem) |
Computes the constraint matrix contributions (for meshes with periodic boundary conditions) corresponding to variable number var_number , using generic projections. More... | |
static bool | on_reference_element (const Point &p, const ElemType t, const Real eps=TOLERANCE) |
static void | get_refspace_nodes (const ElemType t, std::vector< Point > &nodes) |
static void | compute_node_constraints (NodeConstraints &constraints, const Elem *elem) |
Computes the nodal constraint contributions (for non-conforming adapted meshes), using Lagrange geometry. More... | |
static void | compute_periodic_node_constraints (NodeConstraints &constraints, const PeriodicBoundaries &boundaries, const MeshBase &mesh, const PointLocatorBase *point_locator, const Elem *elem) |
Computes the node position constraint equation contributions (for meshes with periodic boundary conditions) More... | |
static void | print_info (std::ostream &out_stream=libMesh::out) |
Prints the reference information, by default to libMesh::out . More... | |
static std::string | get_info () |
Gets a string containing the reference information. More... | |
static unsigned int | n_objects () |
Prints the number of outstanding (created, but not yet destroyed) objects. More... | |
static void | enable_print_counter_info () |
Methods to enable/disable the reference counter output from print_info() More... | |
static void | disable_print_counter_info () |
Protected Types | |
typedef std::map< std::string, std::pair< unsigned int, unsigned int > > | Counts |
Data structure to log the information. More... | |
Protected Member Functions | |
virtual void | init_shape_functions (const std::vector< Point > &qp, const Elem *e) |
Update the various member data fields phi , dphidxi , dphideta , dphidzeta , etc. More... | |
void | init_dual_shape_functions (unsigned int n_shapes, unsigned int n_qp) |
Init dual_phi and potentially dual_dphi , dual_d2phi . More... | |
virtual void | init_base_shape_functions (const std::vector< Point > &qp, const Elem *e) override |
Initialize the data fields for the base of an an infinite element. More... | |
virtual_for_inffe void | determine_calculations () |
Determine which values are to be calculated, for both the FE itself and for the FEMap. More... | |
bool | calculating_nothing () const |
virtual void | compute_shape_functions (const Elem *elem, const std::vector< Point > &qp) override |
After having updated the jacobian and the transformation from local to global coordinates in FEMap::compute_map() , the first derivatives of the shape functions are transformed to global coordinates, giving dphi , dphidx , dphidy , and dphidz . More... | |
void | compute_dual_shape_coeffs (const std::vector< Real > &JxW, const std::vector< std::vector< OutputShape >> &phi) |
Compute the dual basis coefficients dual_coeff we rely on the JxW (or weights) and the phi values, which can come from default or customized qrule. More... | |
void | compute_dual_shape_coeffs (const std::vector< Real > &, const std::vector< std::vector< OutputShape >> &) |
void | compute_dual_shape_coeffs (const std::vector< Real > &JxW, const std::vector< std::vector< OutputShape >> &phi_vals) |
void | compute_dual_shape_functions () |
Compute dual_phi , dual_dphi , dual_d2phi It is only valid for this to be called after reinit has occurred with a quadrature rule. More... | |
void | compute_dual_shape_functions () |
void | compute_dual_shape_functions () |
void | increment_constructor_count (const std::string &name) noexcept |
Increments the construction counter. More... | |
void | increment_destructor_count (const std::string &name) noexcept |
Increments the destruction counter. More... | |
Static Protected Member Functions | |
static void | default_all_shape_derivs (const Elem *elem, const Order o, const std::vector< Point > &p, std::vector< std::vector< OutputShape >> *comps[3], const bool add_p_level=true) |
A default implementation for all_shape_derivs. More... | |
static void | default_shapes (const Elem *elem, const Order o, const unsigned int i, const std::vector< Point > &p, std::vector< OutputShape > &v, const bool add_p_level=true) |
A default implementation for shapes. More... | |
static void | default_all_shapes (const Elem *elem, const Order o, const std::vector< Point > &p, std::vector< std::vector< OutputShape >> &v, const bool add_p_level=true) |
A default implementation for all_shapes. More... | |
static void | default_shape_derivs (const Elem *elem, const Order o, const unsigned int i, const unsigned int j, const std::vector< Point > &p, std::vector< OutputShape > &v, const bool add_p_level=true) |
A default implementation for shape_derivs. More... | |
static void | default_side_nodal_soln (const Elem *elem, const Order o, const unsigned int side, const std::vector< Number > &elem_soln, std::vector< Number > &nodal_soln_on_side, bool add_p_level=true) |
A default implementation for side_nodal_soln. More... | |
Protected Attributes | |
std::vector< Point > | cached_nodes |
An array of the node locations on the last element we computed on. More... | |
ElemType | last_side |
The last side and last edge we did a reinit on. More... | |
ElemType | last_edge |
std::unique_ptr< FETransformationBase< FEOutputType< T >::type > > | _fe_trans |
Object that handles computing shape function values, gradients, etc in the physical domain. More... | |
std::vector< std::vector< OutputShape > > | phi |
Shape function values. More... | |
std::vector< std::vector< OutputShape > > | dual_phi |
std::vector< std::vector< OutputGradient > > | dphi |
Shape function derivative values. More... | |
std::vector< std::vector< OutputGradient > > | dual_dphi |
DenseMatrix< Real > | dual_coeff |
Coefficient matrix for the dual basis. More... | |
std::vector< std::vector< OutputShape > > | curl_phi |
Shape function curl values. More... | |
std::vector< std::vector< OutputDivergence > > | div_phi |
Shape function divergence values. More... | |
std::vector< std::vector< OutputShape > > | dphidxi |
Shape function derivatives in the xi direction. More... | |
std::vector< std::vector< OutputShape > > | dphideta |
Shape function derivatives in the eta direction. More... | |
std::vector< std::vector< OutputShape > > | dphidzeta |
Shape function derivatives in the zeta direction. More... | |
std::vector< std::vector< OutputShape > > | dphidx |
Shape function derivatives in the x direction. More... | |
std::vector< std::vector< OutputShape > > | dphidy |
Shape function derivatives in the y direction. More... | |
std::vector< std::vector< OutputShape > > | dphidz |
Shape function derivatives in the z direction. More... | |
std::vector< std::vector< OutputTensor > > | d2phi |
Shape function second derivative values. More... | |
std::vector< std::vector< OutputTensor > > | dual_d2phi |
std::vector< std::vector< OutputShape > > | d2phidxi2 |
Shape function second derivatives in the xi direction. More... | |
std::vector< std::vector< OutputShape > > | d2phidxideta |
Shape function second derivatives in the xi-eta direction. More... | |
std::vector< std::vector< OutputShape > > | d2phidxidzeta |
Shape function second derivatives in the xi-zeta direction. More... | |
std::vector< std::vector< OutputShape > > | d2phideta2 |
Shape function second derivatives in the eta direction. More... | |
std::vector< std::vector< OutputShape > > | d2phidetadzeta |
Shape function second derivatives in the eta-zeta direction. More... | |
std::vector< std::vector< OutputShape > > | d2phidzeta2 |
Shape function second derivatives in the zeta direction. More... | |
std::vector< std::vector< OutputShape > > | d2phidx2 |
Shape function second derivatives in the x direction. More... | |
std::vector< std::vector< OutputShape > > | d2phidxdy |
Shape function second derivatives in the x-y direction. More... | |
std::vector< std::vector< OutputShape > > | d2phidxdz |
Shape function second derivatives in the x-z direction. More... | |
std::vector< std::vector< OutputShape > > | d2phidy2 |
Shape function second derivatives in the y direction. More... | |
std::vector< std::vector< OutputShape > > | d2phidydz |
Shape function second derivatives in the y-z direction. More... | |
std::vector< std::vector< OutputShape > > | d2phidz2 |
Shape function second derivatives in the z direction. More... | |
std::vector< OutputGradient > | dphase |
Used for certain infinite element families: the first derivatives of the phase term in global coordinates, over all quadrature points. More... | |
std::vector< RealGradient > | dweight |
Used for certain infinite element families: the global derivative of the additional radial weight \( 1/{r^2} \), over all quadrature points. More... | |
std::vector< Real > | weight |
Used for certain infinite element families: the additional radial weight \( 1/{r^2} \) in local coordinates, over all quadrature points. More... | |
std::unique_ptr< FEMap > | _fe_map |
const unsigned int | dim |
The dimensionality of the object. More... | |
bool | calculations_started |
Have calculations with this object already been started? Then all get_* functions should already have been called. More... | |
bool | calculate_dual |
Are we calculating dual basis? More... | |
bool | calculate_default_dual_coeff |
Are we calculating the coefficient for the dual basis using the default qrule? More... | |
bool | calculate_nothing |
Are we potentially deliberately calculating nothing? More... | |
bool | calculate_map |
Are we calculating mapping functions? More... | |
bool | calculate_phi |
Should we calculate shape functions? More... | |
bool | calculate_dphi |
Should we calculate shape function gradients? More... | |
bool | calculate_d2phi |
Should we calculate shape function hessians? More... | |
const bool | calculate_d2phi =false |
bool | calculate_curl_phi |
Should we calculate shape function curls? More... | |
bool | calculate_div_phi |
Should we calculate shape function divergences? More... | |
bool | calculate_dphiref |
Should we calculate reference shape function gradients? More... | |
FEType | fe_type |
The finite element type for this object. More... | |
ElemType | elem_type |
The element type the current data structures are set up for. More... | |
unsigned int | _elem_p_level |
The element p-refinement level the current data structures are set up for. More... | |
unsigned int | _p_level |
The p refinement level the current data structures are set up for. More... | |
QBase * | qrule |
A pointer to the quadrature rule employed. More... | |
bool | shapes_on_quadrature |
A flag indicating if current data structures correspond to quadrature rule points. More... | |
bool | _add_p_level_in_reinit |
Whether to add p-refinement levels in init/reinit methods. More... | |
Static Protected Attributes | |
static Counts | _counts |
Actually holds the data. More... | |
static Threads::atomic< unsigned int > | _n_objects |
The number of objects. More... | |
static Threads::spin_mutex | _mutex |
Mutual exclusion object to enable thread-safe reference counting. More... | |
static bool | _enable_print_counter = true |
Flag to control whether reference count information is printed when print_info is called. More... | |
Discontinuous Hierarchic finite elements.
Still templated on the dimension, Dim
.
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protectedinherited |
Data structure to log the information.
The log is identified by the class name.
Definition at line 119 of file reference_counter.h.
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inherited |
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inherited |
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inherited |
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inherited |
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inherited |
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inherited |
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inherited |
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inherited |
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inlineexplicit |
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inlineinherited |
Indicate whether to add p-refinement levels in init/reinit methods.
Definition at line 610 of file fe_abstract.h.
References libMesh::FEAbstract::_add_p_level_in_reinit, and value.
Referenced by libMesh::FEMContext::build_new_fe().
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inlineinherited |
Whether to add p-refinement levels in init/reinit methods.
Definition at line 615 of file fe_abstract.h.
References libMesh::FEAbstract::_add_p_level_in_reinit.
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inherited |
Definition at line 218 of file fe_rational_shape_3D.C.
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inherited |
Definition at line 222 of file fe_rational_shape_2D.C.
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inherited |
Definition at line 224 of file fe_rational_shape_1D.C.
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inherited |
Definition at line 234 of file fe_lagrange_shape_3D.C.
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staticinherited |
Fills comps
with dphidxi (and in higher dimensions, eta/zeta) derivative component values for all shape functions, evaluated at all points in p.
You must specify element order directly. Output component arrays in comps
should already be the appropriate size.
On a p-refined element, o
should be the base order of the element if add_p_level
is left true
, or can be the base order of the element if add_p_level
is set to false
.
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inherited |
Definition at line 188 of file fe_rational_shape_3D.C.
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inherited |
Definition at line 192 of file fe_rational_shape_2D.C.
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inherited |
Definition at line 194 of file fe_rational_shape_1D.C.
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staticinherited |
Fills v
[i][qp] with the values of the \( i^{th} \) shape functions, evaluated at all points in p.
You must specify element order directly. v
should already be the appropriate size.
On a p-refined element, o
should be the base order of the element if add_p_level
is left true
, or can be the base order of the element if add_p_level
is set to false
.
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overridevirtualinherited |
Provides the class with the quadrature rule, which provides the locations (on a reference element) where the shape functions are to be calculated.
Implements libMesh::FEAbstract.
Definition at line 69 of file fe.C.
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staticinherited |
Builds a specific finite element type.
A std::unique_ptr<FEGenericBase>
is returned to prevent a memory leak. This way the user need not remember to delete the object.
The build call will fail if the OutputType of this class is not compatible with the output required for the requested type
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inherited |
Definition at line 191 of file fe_base.C.
References libMesh::BERNSTEIN, libMesh::CLOUGH, dim, libMesh::Utility::enum_to_string(), libMesh::FEType::family, libMesh::HERMITE, libMesh::HIERARCHIC, libMesh::L2_HIERARCHIC, libMesh::L2_LAGRANGE, libMesh::LAGRANGE, libMesh::MONOMIAL, libMesh::RATIONAL_BERNSTEIN, libMesh::SCALAR, libMesh::SIDE_HIERARCHIC, libMesh::SUBDIVISION, libMesh::SZABAB, and libMesh::XYZ.
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inherited |
Definition at line 413 of file fe_base.C.
References dim, libMesh::Utility::enum_to_string(), libMesh::FEType::family, libMesh::HIERARCHIC_VEC, libMesh::L2_HIERARCHIC_VEC, libMesh::L2_LAGRANGE_VEC, libMesh::L2_RAVIART_THOMAS, libMesh::LAGRANGE_VEC, libMesh::MONOMIAL_VEC, libMesh::NEDELEC_ONE, and libMesh::RAVIART_THOMAS.
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staticinherited |
Builds a specific infinite element type.
A std::unique_ptr<FEGenericBase>
is returned to prevent a memory leak. This way the user need not remember to delete the object.
The build call will fail if the OutputShape of this class is not compatible with the output required for the requested type
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inherited |
Definition at line 546 of file fe_base.C.
References libMesh::CARTESIAN, dim, libMesh::Utility::enum_to_string(), libMesh::FEType::inf_map, libMesh::INFINITE_MAP, libMesh::JACOBI_20_00, libMesh::JACOBI_30_00, libMesh::LAGRANGE, libMesh::LEGENDRE, and libMesh::FEType::radial_family.
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inherited |
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inlineprotectedinherited |
Definition at line 568 of file fe_base.h.
References libMesh::FEAbstract::calculate_curl_phi, libMesh::FEAbstract::calculate_d2phi, libMesh::FEAbstract::calculate_div_phi, libMesh::FEAbstract::calculate_dphi, libMesh::FEAbstract::calculate_map, libMesh::FEAbstract::calculate_nothing, and libMesh::FEAbstract::calculate_phi.
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staticinherited |
Creates a local projection on coarse_elem
, based on the DoF values in global_vector
for it's children.
Computes a vector of coefficients corresponding to dof_indices for only the single given var
Definition at line 1012 of file fe_base.C.
References std::abs(), libMesh::C_ONE, libMesh::Elem::child_ptr(), libMesh::Elem::child_ref_range(), libMesh::DenseMatrix< T >::cholesky_solve(), libMesh::FEType::default_quadrature_rule(), dim, libMesh::Elem::dim(), libMesh::DISCONTINUOUS, libMesh::DofMap::dof_indices(), libMesh::FEInterface::dofs_on_edge(), libMesh::FEInterface::dofs_on_side(), libMesh::Elem::edge_index_range(), libMesh::TensorTools::inner_product(), libMesh::FEMap::inverse_map(), libMesh::Elem::is_child_on_edge(), libMesh::Elem::is_child_on_side(), libMesh::Elem::is_vertex(), libMesh::libmesh_assert(), libMesh::Elem::max_descendant_p_level(), libMesh::Elem::n_children(), libMesh::FEInterface::n_dofs(), libMesh::FEInterface::n_dofs_at_node(), n_nodes, libMesh::Elem::n_nodes(), libMesh::DofMap::old_dof_indices(), libMesh::FEType::order, libMesh::Elem::p_level(), libMesh::DenseVector< T >::resize(), libMesh::DenseMatrix< T >::resize(), libMesh::Elem::side_index_range(), libMesh::TOLERANCE, libMesh::DofMap::variable_type(), libMesh::DenseMatrix< T >::zero(), libMesh::DenseVector< T >::zero(), and libMesh::zero.
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staticinherited |
Creates a local projection on coarse_elem
, based on the DoF values in global_vector
for it's children.
Computes a vector of coefficients corresponding to all dof_indices.
Definition at line 1552 of file fe_base.C.
References libMesh::DenseVector< T >::append(), libMesh::make_range(), libMesh::DofMap::n_variables(), and libMesh::DenseVector< T >::resize().
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inherited |
Definition at line 95 of file fe_scalar.C.
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inherited |
Definition at line 102 of file fe_scalar.C.
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inherited |
Definition at line 162 of file fe_rational.C.
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inherited |
Definition at line 169 of file fe_rational.C.
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inherited |
Definition at line 185 of file fe_l2_hierarchic.C.
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inherited |
Definition at line 192 of file fe_l2_hierarchic.C.
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inherited |
Definition at line 254 of file fe_l2_lagrange.C.
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Definition at line 261 of file fe_l2_lagrange.C.
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inherited |
Definition at line 275 of file fe_side_hierarchic.C.
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inherited |
Definition at line 282 of file fe_clough.C.
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inherited |
Definition at line 282 of file fe_side_hierarchic.C.
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inherited |
Definition at line 289 of file fe_clough.C.
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inherited |
Definition at line 319 of file fe_hermite.C.
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inherited |
Definition at line 326 of file fe_hermite.C.
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inherited |
Definition at line 407 of file fe_monomial.C.
|
inherited |
Definition at line 408 of file fe_monomial.C.
|
inherited |
|
inherited |
|
inherited |
Definition at line 434 of file fe_bernstein.C.
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inherited |
Definition at line 441 of file fe_bernstein.C.
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inherited |
Definition at line 487 of file fe_hierarchic.C.
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inherited |
Definition at line 494 of file fe_hierarchic.C.
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inherited |
Definition at line 523 of file fe_nedelec_one.C.
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inherited |
Definition at line 524 of file fe_raviart.C.
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inherited |
Definition at line 530 of file fe_nedelec_one.C.
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Definition at line 531 of file fe_raviart.C.
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Definition at line 537 of file fe_nedelec_one.C.
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inherited |
Definition at line 538 of file fe_raviart.C.
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inherited |
Definition at line 544 of file fe_nedelec_one.C.
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inherited |
Definition at line 545 of file fe_raviart.C.
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inherited |
Definition at line 552 of file fe_raviart.C.
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inherited |
Definition at line 559 of file fe_raviart.C.
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inherited |
Definition at line 566 of file fe_raviart.C.
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Definition at line 573 of file fe_raviart.C.
|
staticinherited |
Computes the constraint matrix contributions (for non-conforming adapted meshes) corresponding to variable number var_number
, using element-specific optimizations if possible.
|
inherited |
Definition at line 851 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 856 of file fe_monomial_vec.C.
|
inherited |
Definition at line 860 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 865 of file fe_monomial_vec.C.
|
inherited |
Definition at line 869 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 878 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 1073 of file fe_lagrange.C.
|
inherited |
Definition at line 1080 of file fe_lagrange.C.
|
inherited |
Definition at line 1309 of file fe_szabab.C.
|
inherited |
Definition at line 1316 of file fe_szabab.C.
|
inherited |
Definition at line 1388 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1397 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1406 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1415 of file fe_lagrange_vec.C.
|
protectedinherited |
Compute the dual basis coefficients dual_coeff
we rely on the JxW
(or weights) and the phi
values, which can come from default or customized qrule.
|
protectedinherited |
Definition at line 804 of file fe_base.C.
References libMesh::index_range().
|
protectedinherited |
|
protectedinherited |
Compute dual_phi
, dual_dphi
, dual_d2phi
It is only valid for this to be called after reinit has occurred with a quadrature rule.
|
protectedinherited |
|
protectedinherited |
Definition at line 838 of file fe_base.C.
References libMesh::index_range(), and libMesh::libmesh_assert().
|
staticinherited |
Computes the nodal constraint contributions (for non-conforming adapted meshes), using Lagrange geometry.
Definition at line 845 of file fe_abstract.C.
References std::abs(), libMesh::Elem::build_side_ptr(), libMesh::Elem::default_order(), libMesh::Elem::default_side_order(), libMesh::Elem::dim(), libMesh::FEAbstract::fe_type, libMesh::Elem::infinite(), libMesh::FEMap::inverse_map(), libMesh::Elem::level(), libMesh::libmesh_assert(), libMesh::FEMap::map_fe_type(), libMesh::FEInterface::max_order(), libMesh::FEInterface::n_dofs(), libMesh::Elem::neighbor_ptr(), libMesh::FEType::order, libMesh::Elem::parent(), libMesh::Real, libMesh::remote_elem, libMesh::FEInterface::shape(), libMesh::Elem::side_index_range(), libMesh::Threads::spin_mtx, and libMesh::Elem::subactive().
|
staticinherited |
Computes the constraint matrix contributions (for meshes with periodic boundary conditions) corresponding to variable number var_number
, using generic projections.
Definition at line 1883 of file fe_base.C.
References std::abs(), libMesh::TypeVector< T >::absolute_fuzzy_equals(), libMesh::Elem::active(), libMesh::PeriodicBoundaries::boundary(), libMesh::BoundaryInfo::boundary_ids(), libMesh::C_ONE, libMesh::C_ZERO, libMesh::DenseMatrix< T >::cholesky_solve(), libMesh::DofMap::constrain_p_dofs(), libMesh::FEType::default_quadrature_order(), libMesh::Elem::dim(), libMesh::DISCONTINUOUS, libMesh::DofMap::dof_indices(), libMesh::DofObject::dof_number(), libMesh::FEInterface::dofs_on_side(), libMesh::MeshBase::get_boundary_info(), libMesh::PeriodicBoundaryBase::get_corresponding_pos(), libMesh::PeriodicBoundaryBase::get_transformation_matrix(), libMesh::PeriodicBoundaryBase::get_variables(), libMesh::PeriodicBoundaryBase::has_transformation_matrix(), libMesh::Elem::hmin(), libMesh::DofObject::id(), libMesh::index_range(), libMesh::Elem::infinite(), libMesh::TensorTools::inner_product(), libMesh::DofObject::invalid_id, libMesh::FEMap::inverse_map(), libMesh::is, libMesh::DofMap::is_constrained_dof(), libMesh::Elem::is_edge(), libMesh::Elem::is_face(), libMesh::PeriodicBoundaryBase::is_my_variable(), libMesh::Elem::is_node_on_edge(), libMesh::Elem::is_node_on_side(), libMesh::Elem::is_vertex(), libMesh::Elem::level(), libMesh::libmesh_assert(), mesh, libMesh::Elem::min_p_level_by_neighbor(), libMesh::DofObject::n_comp(), libMesh::Elem::n_edges(), libMesh::Elem::n_sides(), libMesh::PeriodicBoundaries::neighbor(), libMesh::Elem::neighbor_ptr(), libMesh::Elem::node_index_range(), libMesh::Elem::node_ptr(), libMesh::Elem::node_ref(), libMesh::Elem::p_level(), libMesh::PeriodicBoundaryBase::pairedboundary, libMesh::Real, libMesh::DenseVector< T >::resize(), libMesh::DenseMatrix< T >::resize(), libMesh::Threads::spin_mtx, libMesh::DofMap::sys_number(), libMesh::TOLERANCE, and libMesh::DofMap::variable_type().
|
staticinherited |
Computes the node position constraint equation contributions (for meshes with periodic boundary conditions)
Definition at line 1037 of file fe_abstract.C.
References libMesh::Elem::active(), libMesh::PeriodicBoundaries::boundary(), libMesh::Elem::build_side_ptr(), libMesh::Elem::default_side_order(), libMesh::Elem::dim(), libMesh::FEAbstract::fe_type, libMesh::PeriodicBoundaryBase::get_corresponding_pos(), libMesh::DofObject::id(), libMesh::FEMap::inverse_map(), libMesh::Elem::level(), libMesh::libmesh_assert(), libMesh::FEMap::map_fe_type(), mesh, libMesh::FEInterface::n_dofs(), libMesh::PeriodicBoundaries::neighbor(), libMesh::Elem::neighbor_ptr(), libMesh::Real, libMesh::FEInterface::shape(), libMesh::Elem::side_index_range(), and libMesh::Threads::spin_mtx.
|
staticinherited |
Computes the constraint matrix contributions (for non-conforming adapted meshes) corresponding to variable number var_number
, using generic projections.
Definition at line 1575 of file fe_base.C.
References std::abs(), libMesh::Elem::active(), libMesh::Variable::active_on_subdomain(), libMesh::C_ONE, libMesh::C_ZERO, libMesh::DenseMatrix< T >::cholesky_solve(), libMesh::DofMap::constrain_p_dofs(), libMesh::FEType::default_quadrature_order(), libMesh::Elem::dim(), libMesh::DISCONTINUOUS, libMesh::DofMap::dof_indices(), libMesh::FEInterface::dofs_on_side(), libMesh::OrderWrapper::get_order(), libMesh::Elem::infinite(), libMesh::TensorTools::inner_product(), libMesh::DofObject::invalid_id, libMesh::FEMap::inverse_map(), libMesh::is, libMesh::DofMap::is_constrained_dof(), libMesh::Elem::level(), libMesh::libmesh_assert(), libMesh::Elem::min_p_level_by_neighbor(), libMesh::Elem::n_neighbors(), libMesh::Elem::n_nodes(), libMesh::Elem::neighbor_ptr(), libMesh::FEType::order, libMesh::Elem::p_level(), libMesh::Real, libMesh::DenseVector< T >::resize(), libMesh::DenseMatrix< T >::resize(), libMesh::DofMap::should_p_refine_var(), libMesh::SIDE_DISCONTINUOUS, libMesh::Elem::side_index_range(), libMesh::Threads::spin_mtx, libMesh::Elem::subdomain_id(), libMesh::TOLERANCE, libMesh::Variable::type(), libMesh::DofMap::variable(), and libMesh::Elem::which_neighbor_am_i().
|
overrideprotectedvirtualinherited |
After having updated the jacobian and the transformation from local to global coordinates in FEMap::compute_map()
, the first derivatives of the shape functions are transformed to global coordinates, giving dphi
, dphidx
, dphidy
, and dphidz
.
This method should rarely be re-defined in derived classes, but still should be usable for children. Therefore, keep it protected.
Implements libMesh::FEAbstract.
Reimplemented in libMesh::FEXYZ< Dim >.
Definition at line 762 of file fe_base.C.
References dim.
|
staticprotectedinherited |
A default implementation for all_shape_derivs.
Definition at line 691 of file fe.C.
|
inlinestaticprotectedinherited |
A default implementation for all_shapes.
Definition at line 710 of file fe.h.
|
inlinestaticprotectedinherited |
A default implementation for shape_derivs.
Definition at line 726 of file fe.h.
|
inlinestaticprotectedinherited |
A default implementation for shapes.
Definition at line 695 of file fe.h.
|
staticprotectedinherited |
A default implementation for side_nodal_soln.
Definition at line 709 of file fe.C.
|
protectedinherited |
Determine which values are to be calculated, for both the FE itself and for the FEMap.
Definition at line 913 of file fe_base.C.
References libMesh::FEInterface::field_type(), libMesh::libmesh_assert(), and libMesh::TYPE_VECTOR.
|
staticinherited |
Definition at line 100 of file reference_counter.C.
References libMesh::ReferenceCounter::_enable_print_counter.
|
staticinherited |
Fills the vector di with the local degree of freedom indices associated with edge e
of element elem
.
On a p-refined element, o
should be the base order of the element.
Definition at line 115 of file fe.C.
|
inherited |
Definition at line 972 of file fe_subdivision_2D.C.
|
staticinherited |
Fills the vector di with the local degree of freedom indices associated with side s
of element elem
.
On a p-refined element, o
should be the base order of the element.
Definition at line 88 of file fe.C.
|
inherited |
Definition at line 971 of file fe_subdivision_2D.C.
|
virtualinherited |
Computes the reference space quadrature points on the side of an element based on the edge quadrature points.
Definition at line 387 of file fe_boundary.C.
|
overridevirtualinherited |
Reinitializes all the physical element-dependent data based on the edge
.
The tolerance
parameter is passed to the involved call to inverse_map()
. By default the shape functions and associated data are computed at the quadrature points specified by the quadrature rule qrule
, but may be any points specified on the reference side element specified in the optional argument pts
.
Implements libMesh::FEAbstract.
Definition at line 237 of file fe_boundary.C.
|
virtualinherited |
Reinitializes all the physical element-dependent data based on the edge
of the element elem
.
The tolerance
parameter is passed to the involved call to inverse_map()
. By default the element data are computed at the quadrature points specified by the quadrature rule qrule
, but any set of points on the reference edge element may be specified in the optional argument pts
.
Implements libMesh::FEAbstract.
Definition at line 931 of file fe_subdivision_2D.C.
|
staticinherited |
Methods to enable/disable the reference counter output from print_info()
Definition at line 94 of file reference_counter.C.
References libMesh::ReferenceCounter::_enable_print_counter.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 80 of file fe_scalar.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 81 of file fe_scalar.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 82 of file fe_scalar.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 83 of file fe_scalar.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 148 of file fe_rational.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 149 of file fe_rational.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 150 of file fe_rational.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 151 of file fe_rational.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 171 of file fe_l2_hierarchic.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 172 of file fe_l2_hierarchic.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 173 of file fe_l2_hierarchic.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 174 of file fe_l2_hierarchic.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 233 of file fe_l2_lagrange.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 234 of file fe_l2_lagrange.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 235 of file fe_l2_lagrange.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 236 of file fe_l2_lagrange.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 261 of file fe_side_hierarchic.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 262 of file fe_side_hierarchic.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 263 of file fe_side_hierarchic.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 264 of file fe_side_hierarchic.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 268 of file fe_clough.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 269 of file fe_clough.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 270 of file fe_clough.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 271 of file fe_clough.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 304 of file fe_hermite.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 305 of file fe_hermite.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 306 of file fe_hermite.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 307 of file fe_hermite.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 390 of file fe_monomial.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 391 of file fe_monomial.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 392 of file fe_monomial.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 393 of file fe_monomial.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 397 of file fe_xyz.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 398 of file fe_xyz.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 399 of file fe_xyz.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 400 of file fe_xyz.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 420 of file fe_bernstein.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 421 of file fe_bernstein.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 422 of file fe_bernstein.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 423 of file fe_bernstein.C.
|
overridevirtualinherited |
Implements libMesh::FEAbstract.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 473 of file fe_hierarchic.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 474 of file fe_hierarchic.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 475 of file fe_hierarchic.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 476 of file fe_hierarchic.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 489 of file fe_raviart.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 490 of file fe_raviart.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 491 of file fe_raviart.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 492 of file fe_raviart.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 495 of file fe_raviart.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 496 of file fe_raviart.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 497 of file fe_raviart.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 498 of file fe_raviart.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 504 of file fe_nedelec_one.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 505 of file fe_nedelec_one.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 506 of file fe_nedelec_one.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 507 of file fe_nedelec_one.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 775 of file fe_monomial_vec.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 781 of file fe_monomial_vec.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 787 of file fe_monomial_vec.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 793 of file fe_monomial_vec.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 814 of file fe_hierarchic_vec.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 815 of file fe_hierarchic_vec.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 816 of file fe_hierarchic_vec.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 817 of file fe_hierarchic_vec.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 820 of file fe_hierarchic_vec.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 821 of file fe_hierarchic_vec.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 822 of file fe_hierarchic_vec.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 823 of file fe_hierarchic_vec.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 975 of file fe_subdivision_2D.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 1050 of file fe_lagrange.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 1051 of file fe_lagrange.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 1052 of file fe_lagrange.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 1053 of file fe_lagrange.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 1295 of file fe_szabab.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 1296 of file fe_szabab.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 1297 of file fe_szabab.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 1298 of file fe_szabab.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 1351 of file fe_lagrange_vec.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 1352 of file fe_lagrange_vec.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 1353 of file fe_lagrange_vec.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 1354 of file fe_lagrange_vec.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 1357 of file fe_lagrange_vec.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 1358 of file fe_lagrange_vec.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 1359 of file fe_lagrange_vec.C.
|
virtualinherited |
Implements libMesh::FEAbstract.
Definition at line 1360 of file fe_lagrange_vec.C.
|
inlineinherited |
Definition at line 252 of file fe_base.h.
References libMesh::FEAbstract::calculate_curl_phi, libMesh::FEAbstract::calculate_dphiref, libMesh::FEAbstract::calculations_started, libMesh::FEGenericBase< OutputType >::curl_phi, and libMesh::libmesh_assert().
|
inlineinherited |
Definition at line 459 of file fe_abstract.h.
References libMesh::FEAbstract::_fe_map, and libMesh::FEAbstract::calculate_map.
|
inlineinherited |
Definition at line 319 of file fe_base.h.
References libMesh::FEAbstract::calculate_d2phi, libMesh::FEAbstract::calculate_dphiref, libMesh::FEAbstract::calculations_started, libMesh::FEGenericBase< OutputType >::d2phi, and libMesh::libmesh_assert().
|
inlineinherited |
Definition at line 403 of file fe_base.h.
References libMesh::FEAbstract::calculate_d2phi, libMesh::FEAbstract::calculate_dphiref, libMesh::FEAbstract::calculations_started, libMesh::FEGenericBase< OutputType >::d2phideta2, and libMesh::libmesh_assert().
|
inlineinherited |
Definition at line 411 of file fe_base.h.
References libMesh::FEAbstract::calculate_d2phi, libMesh::FEAbstract::calculate_dphiref, libMesh::FEAbstract::calculations_started, libMesh::FEGenericBase< OutputType >::d2phidetadzeta, and libMesh::libmesh_assert().
|
inlineinherited |
Definition at line 331 of file fe_base.h.
References libMesh::FEAbstract::calculate_d2phi, libMesh::FEAbstract::calculate_dphiref, libMesh::FEAbstract::calculations_started, libMesh::FEGenericBase< OutputType >::d2phidx2, and libMesh::libmesh_assert().
|
inlineinherited |
Definition at line 339 of file fe_base.h.
References libMesh::FEAbstract::calculate_d2phi, libMesh::FEAbstract::calculate_dphiref, libMesh::FEAbstract::calculations_started, libMesh::FEGenericBase< OutputType >::d2phidxdy, and libMesh::libmesh_assert().
|
inlineinherited |
Definition at line 347 of file fe_base.h.
References libMesh::FEAbstract::calculate_d2phi, libMesh::FEAbstract::calculate_dphiref, libMesh::FEAbstract::calculations_started, libMesh::FEGenericBase< OutputType >::d2phidxdz, and libMesh::libmesh_assert().
|
inlineinherited |
Definition at line 379 of file fe_base.h.
References libMesh::FEAbstract::calculate_d2phi, libMesh::FEAbstract::calculate_dphiref, libMesh::FEAbstract::calculations_started, libMesh::FEGenericBase< OutputType >::d2phidxi2, and libMesh::libmesh_assert().
|
inlineinherited |
Definition at line 387 of file fe_base.h.
References libMesh::FEAbstract::calculate_d2phi, libMesh::FEAbstract::calculate_dphiref, libMesh::FEAbstract::calculations_started, libMesh::FEGenericBase< OutputType >::d2phidxideta, and libMesh::libmesh_assert().
|
inlineinherited |
Definition at line 395 of file fe_base.h.
References libMesh::FEAbstract::calculate_d2phi, libMesh::FEAbstract::calculate_dphiref, libMesh::FEAbstract::calculations_started, libMesh::FEGenericBase< OutputType >::d2phidxidzeta, and libMesh::libmesh_assert().
|
inlineinherited |
Definition at line 355 of file fe_base.h.
References libMesh::FEAbstract::calculate_d2phi, libMesh::FEAbstract::calculate_dphiref, libMesh::FEAbstract::calculations_started, libMesh::FEGenericBase< OutputType >::d2phidy2, and libMesh::libmesh_assert().
|
inlineinherited |
Definition at line 363 of file fe_base.h.
References libMesh::FEAbstract::calculate_d2phi, libMesh::FEAbstract::calculate_dphiref, libMesh::FEAbstract::calculations_started, libMesh::FEGenericBase< OutputType >::d2phidydz, and libMesh::libmesh_assert().
|
inlineinherited |
Definition at line 371 of file fe_base.h.
References libMesh::FEAbstract::calculate_d2phi, libMesh::FEAbstract::calculate_dphiref, libMesh::FEAbstract::calculations_started, libMesh::FEGenericBase< OutputType >::d2phidz2, and libMesh::libmesh_assert().
|
inlineinherited |
Definition at line 419 of file fe_base.h.
References libMesh::FEAbstract::calculate_d2phi, libMesh::FEAbstract::calculate_dphiref, libMesh::FEAbstract::calculations_started, libMesh::FEGenericBase< OutputType >::d2phidzeta2, and libMesh::libmesh_assert().
|
inlineinherited |
Definition at line 335 of file fe_abstract.h.
References libMesh::FEAbstract::_fe_map, and libMesh::FEAbstract::calculate_map.
|
inlineinherited |
Definition at line 363 of file fe_abstract.h.
References libMesh::FEAbstract::_fe_map, and libMesh::FEAbstract::calculate_map.
|
inlineinherited |
Definition at line 328 of file fe_abstract.h.
References libMesh::FEAbstract::_fe_map, and libMesh::FEAbstract::calculate_map.
|
inlineinherited |
Definition at line 349 of file fe_abstract.h.
References libMesh::FEAbstract::_fe_map, and libMesh::FEAbstract::calculate_map.
|
inlineinherited |
Definition at line 356 of file fe_abstract.h.
References libMesh::FEAbstract::_fe_map, and libMesh::FEAbstract::calculate_map.
|
inlineinherited |
Definition at line 342 of file fe_abstract.h.
References libMesh::FEAbstract::_fe_map, and libMesh::FEAbstract::calculate_map.
|
inlineinherited |
Definition at line 397 of file fe_abstract.h.
References libMesh::FEAbstract::_fe_map, and libMesh::FEAbstract::calculate_map.
|
inlineinherited |
Definition at line 405 of file fe_abstract.h.
References libMesh::FEAbstract::_fe_map, and libMesh::FEAbstract::calculate_map.
|
inlineinherited |
Definition at line 413 of file fe_abstract.h.
References libMesh::FEAbstract::_fe_map, and libMesh::FEAbstract::calculate_map.
|
inlineinherited |
Definition at line 250 of file fe_abstract.h.
References libMesh::FEAbstract::dim.
|
inlineinherited |
Definition at line 261 of file fe_base.h.
References libMesh::FEAbstract::calculate_div_phi, libMesh::FEAbstract::calculate_dphiref, libMesh::FEAbstract::calculations_started, libMesh::FEGenericBase< OutputType >::div_phi, and libMesh::libmesh_assert().
|
inlineinherited |
In case of the general finite element class FE
this field is initialized to all zero, so that the variational formulation for an infinite element produces correct element matrices for a mesh using both finite and infinite elements.
Definition at line 437 of file fe_base.h.
References libMesh::FEGenericBase< OutputType >::dphase.
|
inlineinherited |
Definition at line 230 of file fe_base.h.
References libMesh::FEAbstract::calculate_dphi, libMesh::FEAbstract::calculate_dphiref, libMesh::FEAbstract::calculations_started, libMesh::FEGenericBase< OutputType >::dphi, and libMesh::libmesh_assert().
|
inlinevirtualinherited |
get_dphi()
), but in case of InfFE
, weighted with 1/decay.In contrast to the shape function, its gradient stays finite when divided by the decay function.
Definition at line 511 of file fe_base.h.
References libMesh::FEGenericBase< OutputType >::get_dphi().
|
inlinevirtualinherited |
get_dphi()
), but in case of InfFE
, weighted with r/decay. See get_phi_over_decayxR()
for details. Definition at line 501 of file fe_base.h.
References libMesh::FEGenericBase< OutputType >::get_dphi().
|
inlineinherited |
Definition at line 301 of file fe_base.h.
References libMesh::FEAbstract::calculate_dphiref, libMesh::FEAbstract::calculations_started, libMesh::FEGenericBase< OutputType >::dphideta, and libMesh::libmesh_assert().
|
inlineinherited |
Definition at line 269 of file fe_base.h.
References libMesh::FEAbstract::calculate_dphi, libMesh::FEAbstract::calculate_dphiref, libMesh::FEAbstract::calculations_started, libMesh::FEGenericBase< OutputType >::dphidx, and libMesh::libmesh_assert().
|
inlineinherited |
Definition at line 293 of file fe_base.h.
References libMesh::FEAbstract::calculate_dphiref, libMesh::FEAbstract::calculations_started, libMesh::FEGenericBase< OutputType >::dphidxi, and libMesh::libmesh_assert().
|
inlineinherited |
Definition at line 277 of file fe_base.h.
References libMesh::FEAbstract::calculate_dphi, libMesh::FEAbstract::calculate_dphiref, libMesh::FEAbstract::calculations_started, libMesh::FEGenericBase< OutputType >::dphidy, and libMesh::libmesh_assert().
|
inlineinherited |
Definition at line 285 of file fe_base.h.
References libMesh::FEAbstract::calculate_dphi, libMesh::FEAbstract::calculate_dphiref, libMesh::FEAbstract::calculations_started, libMesh::FEGenericBase< OutputType >::dphidz, and libMesh::libmesh_assert().
|
inlineinherited |
Definition at line 309 of file fe_base.h.
References libMesh::FEAbstract::calculate_dphiref, libMesh::FEAbstract::calculations_started, libMesh::FEGenericBase< OutputType >::dphidzeta, and libMesh::libmesh_assert().
|
inlineinherited |
Definition at line 244 of file fe_base.h.
References libMesh::FEGenericBase< OutputType >::dual_coeff.
|
inlineinherited |
Definition at line 323 of file fe_base.h.
References libMesh::FEAbstract::calculate_d2phi, libMesh::FEAbstract::calculate_dphiref, libMesh::FEAbstract::calculate_dual, libMesh::FEAbstract::calculations_started, libMesh::FEGenericBase< OutputType >::dual_d2phi, and libMesh::libmesh_assert().
|
inlineinherited |
Definition at line 234 of file fe_base.h.
References libMesh::FEAbstract::calculate_dphi, libMesh::FEAbstract::calculate_dphiref, libMesh::FEAbstract::calculate_dual, libMesh::FEAbstract::calculations_started, libMesh::FEGenericBase< OutputType >::dual_dphi, and libMesh::libmesh_assert().
|
inlineinherited |
Definition at line 211 of file fe_base.h.
References libMesh::FEAbstract::calculate_dual, libMesh::FEAbstract::calculations_started, libMesh::FEGenericBase< OutputType >::dual_phi, libMesh::libmesh_assert(), and libMesh::FEGenericBase< OutputType >::request_phi().
|
inlineinherited |
Definition at line 373 of file fe_abstract.h.
References libMesh::FEAbstract::_fe_map, and libMesh::FEAbstract::calculate_map.
|
inlineinherited |
Definition at line 381 of file fe_abstract.h.
References libMesh::FEAbstract::_fe_map, and libMesh::FEAbstract::calculate_map.
|
inlineinherited |
Definition at line 389 of file fe_abstract.h.
References libMesh::FEAbstract::_fe_map, and libMesh::FEAbstract::calculate_map.
|
inlineinherited |
Definition at line 311 of file fe_abstract.h.
References libMesh::FEAbstract::_fe_map, and libMesh::FEAbstract::calculate_map.
|
inlineinherited |
Definition at line 303 of file fe_abstract.h.
References libMesh::FEAbstract::_fe_map, and libMesh::FEAbstract::calculate_map.
|
inlineinherited |
Definition at line 319 of file fe_abstract.h.
References libMesh::FEAbstract::_fe_map.
|
inlineinherited |
Definition at line 421 of file fe_abstract.h.
References libMesh::FEAbstract::_fe_map, and libMesh::FEAbstract::calculate_map.
|
inlineinherited |
Definition at line 429 of file fe_abstract.h.
References libMesh::FEAbstract::_fe_map, and libMesh::FEAbstract::calculate_map.
|
inlineinherited |
Definition at line 437 of file fe_abstract.h.
References libMesh::FEAbstract::_fe_map, and libMesh::FEAbstract::calculate_map.
|
inlineinherited |
Definition at line 526 of file fe_abstract.h.
References libMesh::FEType::family, and libMesh::FEAbstract::fe_type.
|
inlineinherited |
Definition at line 533 of file fe_abstract.h.
References libMesh::FEAbstract::_fe_map.
Referenced by libMesh::HCurlFETransformation< OutputShape >::init_map_d2phi(), libMesh::HDivFETransformation< OutputShape >::init_map_d2phi(), libMesh::H1FETransformation< OutputShape >::init_map_d2phi(), libMesh::HCurlFETransformation< OutputShape >::init_map_dphi(), libMesh::HDivFETransformation< OutputShape >::init_map_dphi(), libMesh::H1FETransformation< OutputShape >::init_map_dphi(), libMesh::HCurlFETransformation< OutputShape >::init_map_phi(), libMesh::HDivFETransformation< OutputShape >::init_map_phi(), libMesh::HCurlFETransformation< OutputShape >::map_curl(), libMesh::H1FETransformation< OutputShape >::map_curl(), libMesh::H1FETransformation< OutputShape >::map_d2phi(), libMesh::HDivFETransformation< OutputShape >::map_div(), libMesh::H1FETransformation< OutputShape >::map_div(), libMesh::H1FETransformation< OutputShape >::map_dphi(), libMesh::HDivFETransformation< OutputShape >::map_phi(), and libMesh::HCurlFETransformation< OutputShape >::map_phi().
|
inlineinherited |
|
inlineinherited |
Definition at line 499 of file fe_abstract.h.
References libMesh::FEAbstract::fe_type.
Referenced by libMesh::RBConstruction::add_scaled_matrix_and_vector(), libMesh::FEMContext::build_new_fe(), libMesh::HCurlFETransformation< OutputShape >::map_phi(), libMesh::H1FETransformation< OutputShape >::map_phi(), libMesh::HDivFETransformation< OutputShape >::map_phi(), and libMesh::GenericProjector< FFunctor, GFunctor, FValue, ProjectionAction >::SubFunctor::SubFunctor().
|
staticinherited |
Gets a string containing the reference information.
Definition at line 47 of file reference_counter.C.
References libMesh::ReferenceCounter::_counts, and libMesh::Quality::name().
Referenced by libMesh::ReferenceCounter::print_info().
|
inlineinherited |
For InfFE
, use get_JxWxdecay_sq()
instead.
Definition at line 295 of file fe_abstract.h.
References libMesh::FEAbstract::_fe_map, and libMesh::FEAbstract::calculate_map.
Referenced by libMesh::ExactSolution::_compute_error(), assembly_with_dg_fem_context(), libMesh::DiscontinuityMeasure::boundary_side_integration(), libMesh::KellyErrorEstimator::boundary_side_integration(), compute_enriched_soln(), libMesh::GenericProjector< FFunctor, GFunctor, FValue, ProjectionAction >::SubProjector::construct_projection(), ElasticitySystem::element_time_derivative(), HeatSystem::element_time_derivative(), libMesh::ExactErrorEstimator::find_squared_element_error(), libMesh::FEAbstract::get_JxWxdecay_sq(), CoupledSystemQoI::init_context(), NavierSystem::init_context(), SolidSystem::init_context(), PoissonSystem::init_context(), LaplaceSystem::init_context(), CurlCurlSystem::init_context(), ElasticitySystem::init_context(), CoupledSystem::init_context(), HeatSystem::init_context(), ElasticityRBConstruction::init_context(), libMesh::FEMSystem::init_context(), libMesh::LaplacianErrorEstimator::internal_side_integration(), libMesh::DiscontinuityMeasure::internal_side_integration(), libMesh::KellyErrorEstimator::internal_side_integration(), ElasticitySystem::mass_residual(), libMesh::FEMPhysics::mass_residual(), Integrate::operator()(), libMesh::RBEIMEvaluation::project_qp_data_map_onto_system(), SolidSystem::side_time_derivative(), ElasticitySystem::side_time_derivative(), and libMesh::GenericProjector< FFunctor, GFunctor, FValue, ProjectionAction >::SubFunctor::SubFunctor().
|
inlinevirtualinherited |
This function is the variant of get_JxW()
for InfFE
.
Since J diverges there, a respectize decay-function must be applied to obtain well-defined quantities.
For FE, it is equivalent to the common get_JxW()
.
Reimplemented in libMesh::InfFE< Dim, T_radial, T_map >.
Definition at line 284 of file fe_abstract.h.
References libMesh::FEAbstract::get_JxW().
Referenced by assemble_func(), and assemble_SchroedingerEquation().
|
inlineinherited |
Definition at line 451 of file fe_abstract.h.
References libMesh::FEAbstract::_fe_map, and libMesh::FEAbstract::calculate_map.
Referenced by libMesh::KellyErrorEstimator::boundary_side_integration(), compute_enriched_soln(), libMesh::ParsedFEMFunction< T >::eval_args(), ElasticitySystem::init_context(), libMesh::ParsedFEMFunction< T >::init_context(), libMesh::KellyErrorEstimator::init_context(), libMesh::KellyErrorEstimator::internal_side_integration(), and ElasticitySystem::side_time_derivative().
|
inlineinherited |
Definition at line 261 of file fe_abstract.h.
References libMesh::FEAbstract::calculate_nothing.
Referenced by CoupledSystemQoI::init_context(), NavierSystem::init_context(), ElasticitySystem::init_context(), CoupledSystem::init_context(), HeatSystem::init_context(), and Integrate::operator()().
|
inlineinherited |
Definition at line 504 of file fe_abstract.h.
References libMesh::FEAbstract::_p_level, libMesh::FEAbstract::fe_type, and libMesh::FEType::order.
|
inlineinherited |
Definition at line 494 of file fe_abstract.h.
References libMesh::FEAbstract::_p_level.
|
inlineinherited |
Definition at line 207 of file fe_base.h.
References libMesh::FEAbstract::calculate_phi, libMesh::FEAbstract::calculations_started, libMesh::libmesh_assert(), and libMesh::FEGenericBase< OutputType >::phi.
|
inlinevirtualinherited |
To compensate for the decay function applied to the Jacobian (see get_JxWxdecay_sq
), the wave function phi
should be divided by this function.
The factor r must be compensated for by the Sobolev weight
. (i.e. by using get_Sobolev_weightxR_sq()
)
Definition at line 493 of file fe_base.h.
References libMesh::FEGenericBase< OutputType >::get_phi().
|
staticinherited |
nodes
based on the element type. Definition at line 373 of file fe_abstract.C.
References libMesh::EDGE2, libMesh::EDGE3, libMesh::EDGE4, libMesh::Utility::enum_to_string(), libMesh::HEX20, libMesh::HEX27, libMesh::HEX8, libMesh::NODEELEM, libMesh::PRISM15, libMesh::PRISM18, libMesh::PRISM20, libMesh::PRISM21, libMesh::PRISM6, libMesh::PYRAMID13, libMesh::PYRAMID14, libMesh::PYRAMID18, libMesh::PYRAMID5, libMesh::QUAD4, libMesh::QUAD8, libMesh::QUAD9, libMesh::QUADSHELL4, libMesh::QUADSHELL8, libMesh::Real, libMesh::TET10, libMesh::TET14, libMesh::TET4, libMesh::TRI3, libMesh::TRI6, libMesh::TRI7, libMesh::TRISHELL3, and libMesh::Elem::type_to_n_nodes_map.
Referenced by libMesh::LIBMESH_DEFAULT_VECTORIZED_FE().
|
inlinevirtualinherited |
get_Sobolev_weight()
for details. In case of FE
initialized to all zero. Definition at line 461 of file fe_base.h.
References libMesh::FEGenericBase< OutputType >::dweight.
|
inlinevirtualinherited |
dget_Sobolev_weight
) but weighted with the square of the radial coordinate.In finite elements, this is 0.
Definition at line 480 of file fe_base.h.
References libMesh::FEGenericBase< OutputType >::dweight.
|
inlinevirtualinherited |
In case of the general finite element class FE
this field is initialized to all ones, so that the variational formulation for an infinite element produces correct element matrices for a mesh using both finite and infinite elements.
Definition at line 453 of file fe_base.h.
References libMesh::FEGenericBase< OutputType >::weight.
|
inlinevirtualinherited |
get_Sobolev_weight
) but weighted with the radial coordinate square.In finite elements, this gives just 1, similar to get_Sobolev_Weight()
Definition at line 470 of file fe_base.h.
References libMesh::FEGenericBase< OutputType >::weight.
|
inlineinherited |
Definition at line 444 of file fe_abstract.h.
References libMesh::FEAbstract::_fe_map, and libMesh::FEAbstract::calculate_map.
|
inlineinherited |
Definition at line 488 of file fe_abstract.h.
References libMesh::FEAbstract::elem_type.
|
inlineinherited |
xyz
spatial locations of the quadrature points on the element.It is overwritten by infinite elements since there FEMap
cannot be used to compute xyz
.
Definition at line 272 of file fe_abstract.h.
References libMesh::FEAbstract::_fe_map, and libMesh::FEAbstract::calculate_map.
Referenced by libMesh::ExactSolution::_compute_error(), assemble_SchroedingerEquation(), libMesh::DiscontinuityMeasure::boundary_side_integration(), libMesh::KellyErrorEstimator::boundary_side_integration(), compute_enriched_soln(), libMesh::GenericProjector< FFunctor, GFunctor, FValue, ProjectionAction >::SubProjector::construct_projection(), HeatSystem::element_time_derivative(), libMesh::JumpErrorEstimator::estimate_error(), libMesh::ParsedFEMFunction< T >::eval_args(), libMesh::ExactErrorEstimator::find_squared_element_error(), CoupledSystemQoI::init_context(), NavierSystem::init_context(), SolidSystem::init_context(), PoissonSystem::init_context(), CurlCurlSystem::init_context(), CoupledSystem::init_context(), libMesh::ParsedFEMFunction< T >::init_context(), HeatSystem::init_context(), libMesh::DGFEMContext::neighbor_side_fe_reinit(), Integrate::operator()(), SolidSystem::side_time_derivative(), libMesh::GenericProjector< FFunctor, GFunctor, FValue, ProjectionAction >::SubFunctor::SubFunctor(), SlitMeshRefinedSystemTest::testRestart(), and SlitMeshRefinedSystemTest::testSystem().
|
inlineprotectednoexceptinherited |
Increments the construction counter.
Should be called in the constructor of any derived class that will be reference counted.
Definition at line 183 of file reference_counter.h.
References libMesh::err, libMesh::BasicOStreamProxy< charT, traits >::get(), libMesh::Quality::name(), and libMesh::Threads::spin_mtx.
Referenced by libMesh::ReferenceCountedObject< RBParametrized >::ReferenceCountedObject().
|
inlineprotectednoexceptinherited |
Increments the destruction counter.
Should be called in the destructor of any derived class that will be reference counted.
Definition at line 207 of file reference_counter.h.
References libMesh::err, libMesh::BasicOStreamProxy< charT, traits >::get(), libMesh::Quality::name(), and libMesh::Threads::spin_mtx.
Referenced by libMesh::ReferenceCountedObject< RBParametrized >::~ReferenceCountedObject().
|
overrideprotectedvirtualinherited |
Initialize the data fields for the base of an an infinite element.
Implements libMesh::FEGenericBase< FEOutputType< T >::type >.
Definition at line 732 of file fe.C.
|
protectedinherited |
Init dual_phi
and potentially dual_dphi
, dual_d2phi
.
Definition at line 366 of file fe.C.
|
protectedvirtualinherited |
Update the various member data fields phi
, dphidxi
, dphideta
, dphidzeta
, etc.
for the current element. These data will be computed at the points qp
, which are generally (but need not be) the quadrature points.
Definition at line 396 of file fe.C.
|
inlinestaticinherited |
|
inlinestaticinherited |
|
inherited |
Definition at line 941 of file fe_subdivision_2D.C.
|
inherited |
Definition at line 950 of file fe_subdivision_2D.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 86 of file fe_scalar.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 87 of file fe_scalar.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 88 of file fe_scalar.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 89 of file fe_scalar.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 154 of file fe_rational.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 155 of file fe_rational.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 156 of file fe_rational.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 157 of file fe_rational.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 177 of file fe_l2_hierarchic.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 178 of file fe_l2_hierarchic.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 179 of file fe_l2_hierarchic.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 180 of file fe_l2_hierarchic.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 239 of file fe_l2_lagrange.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 240 of file fe_l2_lagrange.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 241 of file fe_l2_lagrange.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 242 of file fe_l2_lagrange.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 267 of file fe_side_hierarchic.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 268 of file fe_side_hierarchic.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 269 of file fe_side_hierarchic.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 270 of file fe_side_hierarchic.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 274 of file fe_clough.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 275 of file fe_clough.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 276 of file fe_clough.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 277 of file fe_clough.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 310 of file fe_hermite.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 311 of file fe_hermite.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 312 of file fe_hermite.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 313 of file fe_hermite.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 397 of file fe_monomial.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 398 of file fe_monomial.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 399 of file fe_monomial.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 400 of file fe_monomial.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 426 of file fe_bernstein.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 427 of file fe_bernstein.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 428 of file fe_bernstein.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 429 of file fe_bernstein.C.
|
overridevirtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 479 of file fe_hierarchic.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 480 of file fe_hierarchic.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 481 of file fe_hierarchic.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 482 of file fe_hierarchic.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 501 of file fe_raviart.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 502 of file fe_raviart.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 503 of file fe_raviart.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 504 of file fe_raviart.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 505 of file fe_raviart.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 506 of file fe_raviart.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 507 of file fe_raviart.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 508 of file fe_raviart.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 510 of file fe_nedelec_one.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 511 of file fe_nedelec_one.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 512 of file fe_nedelec_one.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 513 of file fe_nedelec_one.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 801 of file fe_monomial_vec.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 807 of file fe_monomial_vec.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 813 of file fe_monomial_vec.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 819 of file fe_monomial_vec.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 826 of file fe_hierarchic_vec.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 827 of file fe_hierarchic_vec.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 828 of file fe_hierarchic_vec.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 829 of file fe_hierarchic_vec.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 830 of file fe_hierarchic_vec.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 831 of file fe_hierarchic_vec.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 832 of file fe_hierarchic_vec.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 833 of file fe_hierarchic_vec.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 978 of file fe_subdivision_2D.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 1056 of file fe_lagrange.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 1057 of file fe_lagrange.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 1058 of file fe_lagrange.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 1059 of file fe_lagrange.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 1301 of file fe_szabab.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 1302 of file fe_szabab.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 1303 of file fe_szabab.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 1304 of file fe_szabab.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 1363 of file fe_lagrange_vec.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 1364 of file fe_lagrange_vec.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 1365 of file fe_lagrange_vec.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 1366 of file fe_lagrange_vec.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 1367 of file fe_lagrange_vec.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 1368 of file fe_lagrange_vec.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 1369 of file fe_lagrange_vec.C.
|
virtualinherited |
true
if the finite element's higher order shape functions are hierarchic Implements libMesh::FEAbstract.
Definition at line 1370 of file fe_lagrange_vec.C.
|
inlinestaticinherited |
|
inlinestaticinherited |
|
inlinestaticinherited |
|
inlinestaticinherited |
|
inherited |
Definition at line 61 of file fe_scalar.C.
|
inherited |
Definition at line 62 of file fe_scalar.C.
|
inherited |
Definition at line 63 of file fe_scalar.C.
|
inherited |
Definition at line 131 of file fe_rational.C.
|
inherited |
Definition at line 132 of file fe_rational.C.
|
inherited |
Definition at line 133 of file fe_rational.C.
|
inherited |
Definition at line 153 of file fe_l2_hierarchic.C.
|
inherited |
Definition at line 154 of file fe_l2_hierarchic.C.
|
inherited |
Definition at line 155 of file fe_l2_hierarchic.C.
|
inherited |
Definition at line 214 of file fe_l2_lagrange.C.
|
inherited |
Definition at line 215 of file fe_l2_lagrange.C.
|
inherited |
Definition at line 216 of file fe_l2_lagrange.C.
|
inherited |
Definition at line 243 of file fe_side_hierarchic.C.
|
inherited |
Definition at line 244 of file fe_side_hierarchic.C.
|
inherited |
Definition at line 245 of file fe_side_hierarchic.C.
|
inherited |
Definition at line 246 of file fe_side_hierarchic.C.
|
inherited |
Definition at line 250 of file fe_clough.C.
|
inherited |
Definition at line 251 of file fe_clough.C.
|
inherited |
Definition at line 252 of file fe_clough.C.
|
inherited |
Definition at line 286 of file fe_hermite.C.
|
inherited |
Definition at line 287 of file fe_hermite.C.
|
inherited |
Definition at line 288 of file fe_hermite.C.
|
inherited |
Definition at line 371 of file fe_monomial.C.
|
inherited |
Definition at line 372 of file fe_monomial.C.
|
inherited |
Definition at line 373 of file fe_monomial.C.
|
inherited |
Definition at line 379 of file fe_xyz.C.
|
inherited |
Definition at line 380 of file fe_xyz.C.
|
inherited |
Definition at line 381 of file fe_xyz.C.
|
inherited |
Definition at line 403 of file fe_bernstein.C.
|
inherited |
Definition at line 404 of file fe_bernstein.C.
|
inherited |
Definition at line 405 of file fe_bernstein.C.
|
staticinherited |
On a p-refined element, o
should be the total order of the element.
|
inherited |
Definition at line 455 of file fe_raviart.C.
|
inherited |
Definition at line 456 of file fe_hierarchic.C.
|
inherited |
Definition at line 456 of file fe_raviart.C.
|
inherited |
Definition at line 457 of file fe_hierarchic.C.
|
inherited |
Definition at line 457 of file fe_raviart.C.
|
inherited |
Definition at line 458 of file fe_hierarchic.C.
|
inherited |
Definition at line 458 of file fe_raviart.C.
|
inherited |
Definition at line 459 of file fe_raviart.C.
|
inherited |
Definition at line 460 of file fe_raviart.C.
|
inherited |
Definition at line 461 of file fe_raviart.C.
|
inherited |
Definition at line 483 of file fe_nedelec_one.C.
|
inherited |
Definition at line 484 of file fe_nedelec_one.C.
|
inherited |
Definition at line 485 of file fe_nedelec_one.C.
|
inherited |
Definition at line 699 of file fe_monomial_vec.C.
|
inherited |
Definition at line 705 of file fe_monomial_vec.C.
|
inherited |
Definition at line 711 of file fe_monomial_vec.C.
|
inherited |
Definition at line 717 of file fe_monomial_vec.C.
|
inherited |
Definition at line 779 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 780 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 781 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 782 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 784 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 785 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 786 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 787 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 962 of file fe_subdivision_2D.C.
|
inherited |
Definition at line 1029 of file fe_lagrange.C.
|
inherited |
Definition at line 1030 of file fe_lagrange.C.
|
inherited |
Definition at line 1031 of file fe_lagrange.C.
|
inherited |
Definition at line 1278 of file fe_szabab.C.
|
inherited |
Definition at line 1279 of file fe_szabab.C.
|
inherited |
Definition at line 1280 of file fe_szabab.C.
|
inherited |
Definition at line 1313 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1314 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1315 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1316 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1318 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1319 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1320 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1321 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 67 of file fe_scalar.C.
|
inherited |
Definition at line 68 of file fe_scalar.C.
|
inherited |
Definition at line 69 of file fe_scalar.C.
|
inherited |
Definition at line 70 of file fe_scalar.C.
|
inherited |
Definition at line 136 of file fe_rational.C.
|
inherited |
Definition at line 137 of file fe_rational.C.
|
inherited |
Definition at line 138 of file fe_rational.C.
|
inherited |
Definition at line 139 of file fe_rational.C.
|
inherited |
Definition at line 159 of file fe_l2_hierarchic.C.
|
inherited |
Definition at line 160 of file fe_l2_hierarchic.C.
|
inherited |
Definition at line 161 of file fe_l2_hierarchic.C.
|
inherited |
Definition at line 162 of file fe_l2_hierarchic.C.
|
inherited |
Definition at line 220 of file fe_l2_lagrange.C.
|
inherited |
Definition at line 221 of file fe_l2_lagrange.C.
|
inherited |
Definition at line 222 of file fe_l2_lagrange.C.
|
inherited |
Definition at line 223 of file fe_l2_lagrange.C.
|
inherited |
Definition at line 249 of file fe_side_hierarchic.C.
|
inherited |
Definition at line 250 of file fe_side_hierarchic.C.
|
inherited |
Definition at line 251 of file fe_side_hierarchic.C.
|
inherited |
Definition at line 252 of file fe_side_hierarchic.C.
|
inherited |
Definition at line 256 of file fe_clough.C.
|
inherited |
Definition at line 257 of file fe_clough.C.
|
inherited |
Definition at line 258 of file fe_clough.C.
|
inherited |
Definition at line 259 of file fe_clough.C.
|
inherited |
Definition at line 292 of file fe_hermite.C.
|
inherited |
Definition at line 293 of file fe_hermite.C.
|
inherited |
Definition at line 294 of file fe_hermite.C.
|
inherited |
Definition at line 295 of file fe_hermite.C.
|
inherited |
Definition at line 377 of file fe_monomial.C.
|
inherited |
Definition at line 378 of file fe_monomial.C.
|
inherited |
Definition at line 379 of file fe_monomial.C.
|
inherited |
Definition at line 380 of file fe_monomial.C.
|
inherited |
|
inherited |
|
inherited |
|
inherited |
|
inherited |
Definition at line 408 of file fe_bernstein.C.
|
inherited |
Definition at line 409 of file fe_bernstein.C.
|
inherited |
Definition at line 410 of file fe_bernstein.C.
|
inherited |
Definition at line 411 of file fe_bernstein.C.
|
staticinherited |
n
for a finite element of type t
and order o
.On a p-refined element, o
should be the total order of the element.
|
inherited |
Definition at line 461 of file fe_hierarchic.C.
|
inherited |
Definition at line 462 of file fe_hierarchic.C.
|
inherited |
Definition at line 463 of file fe_hierarchic.C.
|
inherited |
Definition at line 464 of file fe_hierarchic.C.
|
inherited |
Definition at line 466 of file fe_raviart.C.
|
inherited |
Definition at line 467 of file fe_raviart.C.
|
inherited |
Definition at line 468 of file fe_raviart.C.
|
inherited |
Definition at line 469 of file fe_raviart.C.
|
inherited |
Definition at line 470 of file fe_raviart.C.
|
inherited |
Definition at line 471 of file fe_raviart.C.
|
inherited |
Definition at line 472 of file fe_raviart.C.
|
inherited |
Definition at line 473 of file fe_raviart.C.
|
inherited |
Definition at line 490 of file fe_nedelec_one.C.
|
inherited |
Definition at line 491 of file fe_nedelec_one.C.
|
inherited |
Definition at line 492 of file fe_nedelec_one.C.
|
inherited |
Definition at line 493 of file fe_nedelec_one.C.
|
inherited |
Definition at line 724 of file fe_monomial_vec.C.
|
inherited |
Definition at line 730 of file fe_monomial_vec.C.
|
inherited |
Definition at line 736 of file fe_monomial_vec.C.
|
inherited |
Definition at line 742 of file fe_monomial_vec.C.
|
inherited |
Definition at line 792 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 793 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 794 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 795 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 797 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 798 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 799 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 800 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 965 of file fe_subdivision_2D.C.
|
inherited |
Definition at line 1036 of file fe_lagrange.C.
|
inherited |
Definition at line 1037 of file fe_lagrange.C.
|
inherited |
Definition at line 1038 of file fe_lagrange.C.
|
inherited |
Definition at line 1039 of file fe_lagrange.C.
|
inherited |
Definition at line 1283 of file fe_szabab.C.
|
inherited |
Definition at line 1284 of file fe_szabab.C.
|
inherited |
Definition at line 1285 of file fe_szabab.C.
|
inherited |
Definition at line 1286 of file fe_szabab.C.
|
inherited |
Definition at line 1326 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1327 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1328 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1329 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1331 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1332 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1333 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1334 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 74 of file fe_scalar.C.
|
inherited |
Definition at line 75 of file fe_scalar.C.
|
inherited |
Definition at line 76 of file fe_scalar.C.
|
inherited |
Definition at line 77 of file fe_scalar.C.
|
inherited |
Definition at line 142 of file fe_rational.C.
|
inherited |
Definition at line 143 of file fe_rational.C.
|
inherited |
Definition at line 144 of file fe_rational.C.
|
inherited |
Definition at line 145 of file fe_rational.C.
|
inherited |
Definition at line 165 of file fe_l2_hierarchic.C.
|
inherited |
Definition at line 166 of file fe_l2_hierarchic.C.
|
inherited |
Definition at line 167 of file fe_l2_hierarchic.C.
|
inherited |
Definition at line 168 of file fe_l2_hierarchic.C.
|
inherited |
Definition at line 227 of file fe_l2_lagrange.C.
|
inherited |
Definition at line 228 of file fe_l2_lagrange.C.
|
inherited |
Definition at line 229 of file fe_l2_lagrange.C.
|
inherited |
Definition at line 230 of file fe_l2_lagrange.C.
|
inherited |
Definition at line 255 of file fe_side_hierarchic.C.
|
inherited |
Definition at line 256 of file fe_side_hierarchic.C.
|
inherited |
Definition at line 257 of file fe_side_hierarchic.C.
|
inherited |
Definition at line 258 of file fe_side_hierarchic.C.
|
inherited |
Definition at line 262 of file fe_clough.C.
|
inherited |
Definition at line 263 of file fe_clough.C.
|
inherited |
Definition at line 264 of file fe_clough.C.
|
inherited |
Definition at line 265 of file fe_clough.C.
|
inherited |
Definition at line 298 of file fe_hermite.C.
|
inherited |
Definition at line 299 of file fe_hermite.C.
|
inherited |
Definition at line 300 of file fe_hermite.C.
|
inherited |
Definition at line 301 of file fe_hermite.C.
|
inherited |
Definition at line 383 of file fe_monomial.C.
|
inherited |
Definition at line 384 of file fe_monomial.C.
|
inherited |
Definition at line 385 of file fe_monomial.C.
|
inherited |
Definition at line 386 of file fe_monomial.C.
|
inherited |
Definition at line 391 of file fe_xyz.C.
|
inherited |
Definition at line 392 of file fe_xyz.C.
|
inherited |
Definition at line 393 of file fe_xyz.C.
|
inherited |
Definition at line 394 of file fe_xyz.C.
|
inherited |
Definition at line 414 of file fe_bernstein.C.
|
inherited |
Definition at line 415 of file fe_bernstein.C.
|
inherited |
Definition at line 416 of file fe_bernstein.C.
|
inherited |
Definition at line 417 of file fe_bernstein.C.
|
staticinherited |
On a p-refined element, o
should be the total order of the element.
|
inherited |
Definition at line 467 of file fe_hierarchic.C.
|
inherited |
Definition at line 468 of file fe_hierarchic.C.
|
inherited |
Definition at line 469 of file fe_hierarchic.C.
|
inherited |
Definition at line 470 of file fe_hierarchic.C.
|
inherited |
Definition at line 477 of file fe_raviart.C.
|
inherited |
Definition at line 478 of file fe_raviart.C.
|
inherited |
Definition at line 479 of file fe_raviart.C.
|
inherited |
Definition at line 480 of file fe_raviart.C.
|
inherited |
Definition at line 483 of file fe_raviart.C.
|
inherited |
Definition at line 484 of file fe_raviart.C.
|
inherited |
Definition at line 485 of file fe_raviart.C.
|
inherited |
Definition at line 486 of file fe_raviart.C.
|
inherited |
Definition at line 498 of file fe_nedelec_one.C.
|
inherited |
Definition at line 499 of file fe_nedelec_one.C.
|
inherited |
Definition at line 500 of file fe_nedelec_one.C.
|
inherited |
Definition at line 501 of file fe_nedelec_one.C.
|
inherited |
Definition at line 749 of file fe_monomial_vec.C.
|
inherited |
Definition at line 755 of file fe_monomial_vec.C.
|
inherited |
Definition at line 761 of file fe_monomial_vec.C.
|
inherited |
Definition at line 767 of file fe_monomial_vec.C.
|
inherited |
Definition at line 802 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 803 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 804 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 805 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 808 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 809 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 810 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 811 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 968 of file fe_subdivision_2D.C.
|
inherited |
Definition at line 1044 of file fe_lagrange.C.
|
inherited |
Definition at line 1045 of file fe_lagrange.C.
|
inherited |
Definition at line 1046 of file fe_lagrange.C.
|
inherited |
Definition at line 1047 of file fe_lagrange.C.
|
inherited |
Definition at line 1289 of file fe_szabab.C.
|
inherited |
Definition at line 1290 of file fe_szabab.C.
|
inherited |
Definition at line 1291 of file fe_szabab.C.
|
inherited |
Definition at line 1292 of file fe_szabab.C.
|
inherited |
Definition at line 1339 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1340 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1341 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1342 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1345 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1346 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1347 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1348 of file fe_lagrange_vec.C.
|
inlinestaticinherited |
Prints the number of outstanding (created, but not yet destroyed) objects.
Definition at line 85 of file reference_counter.h.
References libMesh::ReferenceCounter::_n_objects.
Referenced by libMesh::LibMeshInit::~LibMeshInit().
|
overridevirtualinherited |
for
loop in your simulation for matrix assembly of the current element. Implements libMesh::FEAbstract.
Definition at line 80 of file fe.C.
|
overridevirtualinherited |
Implements libMesh::FEAbstract.
Definition at line 61 of file fe.C.
|
inlinestaticinherited |
|
inherited |
Definition at line 99 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 107 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 115 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 123 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 131 of file fe_monomial_vec.C.
|
inherited |
Definition at line 141 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 142 of file fe_monomial_vec.C.
|
inherited |
Definition at line 149 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 153 of file fe_monomial_vec.C.
|
inherited |
Definition at line 157 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 164 of file fe_monomial_vec.C.
|
inherited |
Definition at line 384 of file fe_raviart.C.
|
staticinherited |
Build the nodal soln from the element soln.
This is the solution that will be plotted.
On a p-refined element, o
should be the base order of the element.
|
inherited |
Definition at line 392 of file fe_raviart.C.
|
inherited |
Definition at line 400 of file fe_raviart.C.
|
inherited |
Definition at line 408 of file fe_raviart.C.
|
inherited |
Definition at line 416 of file fe_raviart.C.
|
inherited |
Definition at line 424 of file fe_raviart.C.
|
inherited |
Definition at line 432 of file fe_raviart.C.
|
inherited |
Definition at line 440 of file fe_raviart.C.
|
inherited |
Definition at line 445 of file fe_nedelec_one.C.
|
inherited |
Definition at line 453 of file fe_nedelec_one.C.
|
inherited |
Definition at line 461 of file fe_nedelec_one.C.
|
inherited |
Definition at line 469 of file fe_nedelec_one.C.
|
inherited |
Definition at line 637 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 645 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 653 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 661 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 679 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 687 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 695 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 882 of file fe_subdivision_2D.C.
|
staticinherited |
true
if the point p is located on the reference element for element type t, false otherwise. Since we are doing floating point comparisons here the parameter eps
can be specified to indicate a tolerance. For example, \( x \le 1 \) becomes \( x \le 1 + \epsilon \). Definition at line 601 of file fe_abstract.C.
References libMesh::EDGE2, libMesh::EDGE3, libMesh::EDGE4, libMesh::Utility::enum_to_string(), libMesh::HEX20, libMesh::HEX27, libMesh::HEX8, libMesh::INFHEX16, libMesh::INFHEX18, libMesh::INFHEX8, libMesh::INFPRISM12, libMesh::INFPRISM6, libMesh::NODEELEM, libMesh::PRISM15, libMesh::PRISM18, libMesh::PRISM20, libMesh::PRISM21, libMesh::PRISM6, libMesh::PYRAMID13, libMesh::PYRAMID14, libMesh::PYRAMID18, libMesh::PYRAMID5, libMesh::QUAD4, libMesh::QUAD8, libMesh::QUAD9, libMesh::QUADSHELL4, libMesh::QUADSHELL8, libMesh::Real, libMesh::TET10, libMesh::TET14, libMesh::TET4, libMesh::TRI3, libMesh::TRI6, libMesh::TRI7, and libMesh::TRISHELL3.
Referenced by libMesh::FEInterface::ifem_on_reference_element(), libMesh::FEMap::inverse_map(), and libMesh::FEInterface::on_reference_element().
|
overridevirtualinherited |
Prints the value of each shape function's second derivatives at each quadrature point.
Implements libMesh::FEAbstract.
Definition at line 989 of file fe_base.C.
References libMesh::index_range().
|
overridevirtualinherited |
Prints the value of each shape function's derivative at each quadrature point.
Implements libMesh::FEAbstract.
Definition at line 895 of file fe_base.C.
References libMesh::index_range().
|
overridevirtualinherited |
Implements libMesh::FEAbstract.
Definition at line 997 of file fe_base.C.
References libMesh::index_range().
|
overridevirtualinherited |
Implements libMesh::FEAbstract.
Definition at line 903 of file fe_base.C.
References libMesh::index_range().
|
overridevirtualinherited |
Implements libMesh::FEAbstract.
Definition at line 884 of file fe_base.C.
References libMesh::index_range().
|
staticinherited |
Prints the reference information, by default to libMesh::out
.
Definition at line 81 of file reference_counter.C.
References libMesh::ReferenceCounter::_enable_print_counter, and libMesh::ReferenceCounter::get_info().
Referenced by libMesh::LibMeshInit::~LibMeshInit().
|
inherited |
Prints all the relevant information about the current element.
Definition at line 818 of file fe_abstract.C.
References libMesh::FEAbstract::print_dphi(), libMesh::FEAbstract::print_JxW(), libMesh::FEAbstract::print_phi(), and libMesh::FEAbstract::print_xyz().
Referenced by libMesh::operator<<().
|
inherited |
Prints the Jacobian times the weight for each quadrature point.
Definition at line 805 of file fe_abstract.C.
References libMesh::FEAbstract::_fe_map.
Referenced by libMesh::FEAbstract::print_info().
|
overridevirtualinherited |
Prints the value of each shape function at each quadrature point.
Implements libMesh::FEAbstract.
Definition at line 876 of file fe_base.C.
References libMesh::index_range().
|
inherited |
Prints the spatial location of each quadrature point (on the physical element).
Definition at line 812 of file fe_abstract.C.
References libMesh::FEAbstract::_fe_map.
Referenced by libMesh::FEAbstract::print_info().
|
overridevirtualinherited |
This is at the core of this class.
Use this for each new element in the mesh. Reinitializes all the physical element-dependent data based on the current element elem
. By default the shape functions and associated data are computed at the quadrature points specified by the quadrature rule qrule
, but may be any points specified on the reference element specified in the optional argument pts
.
Implements libMesh::FEAbstract.
Definition at line 142 of file fe.C.
|
overridevirtualinherited |
Reinitializes all the physical element-dependent data based on the side
of face
.
The tolerance
parameter is passed to the involved call to inverse_map()
. By default the shape functions and associated data are computed at the quadrature points specified by the quadrature rule qrule
, but may be any points specified on the reference side element specified in the optional argument pts
.
Implements libMesh::FEAbstract.
Definition at line 109 of file fe_boundary.C.
|
overridevirtualinherited |
This computes the default dual shape function coefficients.
The dual shape coefficients are utilized when calculating dual shape functions.
Reimplemented from libMesh::FEAbstract.
Definition at line 349 of file fe.C.
|
overridevirtualinherited |
This re-computes the dual shape function coefficients.
The dual shape coefficients are utilized when calculating dual shape functions.
Reimplemented from libMesh::FEAbstract.
Definition at line 326 of file fe.C.
|
inlineoverridevirtualinherited |
request dphi calculations
Implements libMesh::FEAbstract.
Definition at line 238 of file fe_base.h.
References libMesh::FEGenericBase< OutputType >::get_dphi().
|
inlineoverridevirtualinherited |
Implements libMesh::FEAbstract.
Definition at line 241 of file fe_base.h.
References libMesh::FEGenericBase< OutputType >::get_dual_dphi().
|
inlineoverridevirtualinherited |
Implements libMesh::FEAbstract.
Definition at line 223 of file fe_base.h.
References libMesh::FEGenericBase< OutputType >::get_dual_phi().
|
inlineoverridevirtualinherited |
request phi calculations
Implements libMesh::FEAbstract.
Definition at line 220 of file fe_base.h.
References libMesh::FEGenericBase< OutputType >::get_phi().
|
inlineinherited |
set calculate_default_dual_coeff as needed
Definition at line 605 of file fe_abstract.h.
References libMesh::FEAbstract::calculate_default_dual_coeff.
|
inlineinherited |
set calculate_dual as needed
Definition at line 600 of file fe_abstract.h.
References libMesh::FEAbstract::calculate_dual.
|
inlineinherited |
Sets the base FE order of the finite element.
Definition at line 510 of file fe_abstract.h.
References libMesh::FEAbstract::fe_type, and libMesh::FEType::order.
|
inherited |
Definition at line 28 of file fe_raviart_shape_2D.C.
|
inherited |
Definition at line 28 of file fe_nedelec_one_shape_3D.C.
|
inherited |
Definition at line 30 of file fe_nedelec_one_shape_2D.C.
|
inherited |
Definition at line 42 of file fe_rational_shape_2D.C.
|
inherited |
Definition at line 42 of file fe_rational_shape_3D.C.
|
inherited |
Definition at line 43 of file fe_lagrange_shape_1D.C.
|
inherited |
Definition at line 43 of file fe_scalar_shape_2D.C.
|
inherited |
Definition at line 43 of file fe_raviart_shape_3D.C.
|
inherited |
Definition at line 43 of file fe_scalar_shape_3D.C.
|
inherited |
Definition at line 43 of file fe_scalar_shape_0D.C.
|
inherited |
Definition at line 43 of file fe_scalar_shape_1D.C.
|
inherited |
Definition at line 44 of file fe_lagrange_shape_0D.C.
|
inherited |
Definition at line 44 of file fe_rational_shape_1D.C.
|
inherited |
Definition at line 46 of file fe_hermite_shape_0D.C.
|
inherited |
Definition at line 46 of file fe_rational_shape_0D.C.
|
inherited |
Definition at line 46 of file fe_bernstein_shape_0D.C.
|
inherited |
Definition at line 46 of file fe_szabab_shape_0D.C.
|
inherited |
Definition at line 46 of file fe_xyz_shape_0D.C.
|
inherited |
Definition at line 46 of file fe_clough_shape_0D.C.
|
inherited |
Definition at line 46 of file fe_monomial_shape_0D.C.
|
inherited |
Definition at line 47 of file fe_hierarchic_shape_0D.C.
|
inherited |
Definition at line 48 of file fe_clough_shape_3D.C.
|
inherited |
Definition at line 48 of file fe_szabab_shape_3D.C.
|
inherited |
Definition at line 53 of file fe_scalar_shape_0D.C.
|
inherited |
Definition at line 53 of file fe_lagrange_shape_1D.C.
|
inherited |
Definition at line 54 of file fe_scalar_shape_2D.C.
|
inherited |
Definition at line 54 of file fe_scalar_shape_3D.C.
|
inherited |
Definition at line 55 of file fe_scalar_shape_1D.C.
|
inherited |
Definition at line 56 of file fe_lagrange_shape_0D.C.
|
inherited |
Definition at line 57 of file fe_rational_shape_0D.C.
|
inherited |
Definition at line 57 of file fe_hermite_shape_0D.C.
|
inherited |
Definition at line 57 of file fe_bernstein_shape_0D.C.
|
inherited |
Definition at line 58 of file fe_szabab_shape_0D.C.
|
inherited |
Definition at line 58 of file fe_monomial_shape_0D.C.
|
inherited |
Definition at line 58 of file fe_clough_shape_0D.C.
|
inherited |
Definition at line 59 of file fe_rational_shape_2D.C.
|
inherited |
Definition at line 59 of file fe_rational_shape_3D.C.
|
inherited |
Definition at line 59 of file fe_xyz_shape_0D.C.
|
inherited |
Definition at line 59 of file fe_hierarchic_shape_0D.C.
|
inherited |
Definition at line 60 of file fe_szabab_shape_3D.C.
|
inherited |
Definition at line 61 of file fe_rational_shape_1D.C.
|
inherited |
Definition at line 62 of file fe_clough_shape_3D.C.
|
inherited |
Definition at line 67 of file fe_lagrange_shape_1D.C.
|
inherited |
Definition at line 68 of file fe_lagrange_shape_0D.C.
|
inherited |
Definition at line 69 of file fe_rational_shape_3D.C.
|
inherited |
Definition at line 71 of file fe_rational_shape_2D.C.
|
inherited |
Definition at line 71 of file fe_hierarchic_shape_0D.C.
|
inherited |
Definition at line 72 of file fe_rational_shape_1D.C.
|
inherited |
Definition at line 72 of file fe_monomial_shape_1D.C.
|
inherited |
Definition at line 78 of file fe_hierarchic_shape_1D.C.
|
inherited |
Definition at line 78 of file fe_lagrange_shape_1D.C.
|
inherited |
Definition at line 80 of file fe_lagrange_shape_2D.C.
|
inherited |
Definition at line 81 of file fe_lagrange_shape_0D.C.
|
inherited |
Definition at line 83 of file fe_szabab_shape_1D.C.
|
inherited |
Definition at line 84 of file fe_hierarchic_shape_0D.C.
|
inherited |
Definition at line 84 of file fe_xyz_shape_1D.C.
|
inherited |
Definition at line 85 of file fe_monomial_shape_1D.C.
|
inherited |
Definition at line 89 of file fe_hierarchic_shape_1D.C.
|
inherited |
Definition at line 90 of file fe_lagrange_shape_1D.C.
|
inherited |
Definition at line 90 of file fe_lagrange_shape_2D.C.
|
inherited |
Definition at line 93 of file fe_lagrange_shape_0D.C.
|
inherited |
Definition at line 96 of file fe_szabab_shape_1D.C.
|
inherited |
Definition at line 97 of file fe_hierarchic_shape_0D.C.
|
inherited |
Definition at line 97 of file fe_xyz_shape_1D.C.
|
inherited |
Definition at line 101 of file fe_hierarchic_shape_1D.C.
|
inherited |
Definition at line 105 of file fe_lagrange_shape_2D.C.
|
inherited |
Definition at line 110 of file fe_hierarchic_shape_0D.C.
|
inherited |
Definition at line 115 of file fe_hierarchic_shape_1D.C.
|
inherited |
Definition at line 119 of file fe_lagrange_shape_2D.C.
|
inherited |
Definition at line 122 of file fe_monomial_shape_2D.C.
|
inherited |
Definition at line 123 of file fe_hierarchic_shape_0D.C.
|
inherited |
Definition at line 130 of file fe_hierarchic_shape_1D.C.
|
inherited |
Definition at line 132 of file fe_lagrange_shape_2D.C.
|
inherited |
Definition at line 136 of file fe_hierarchic_shape_0D.C.
|
inherited |
Definition at line 136 of file fe_monomial_shape_2D.C.
|
inherited |
Definition at line 142 of file fe_hierarchic_shape_1D.C.
|
inherited |
Definition at line 148 of file fe_xyz_shape_2D.C.
|
staticinherited |
p
. This method allows you to specify the dimension, element type, and order directly. This allows the method to be static.On a p-refined element, o
should be the total order of the element.
|
inherited |
Definition at line 149 of file fe_hierarchic_shape_2D.C.
|
inherited |
Definition at line 153 of file fe_raviart_shape_2D.C.
|
inherited |
Definition at line 155 of file fe_hierarchic_shape_1D.C.
|
inherited |
Definition at line 158 of file fe_nedelec_one_shape_2D.C.
|
inherited |
Definition at line 160 of file fe_xyz_shape_2D.C.
|
inherited |
Definition at line 161 of file fe_hierarchic_shape_2D.C.
|
inherited |
Definition at line 164 of file fe_raviart_shape_2D.C.
|
staticinherited |
p
. This method allows you to specify the dimension, element type, and order directly. This allows the method to be static.On a p-refined element, o
should be the base order of the element if add_p_level
is left true
, or can be the base order of the element if add_p_level
is set to false
.
|
inherited |
Definition at line 166 of file fe_hierarchic_shape_1D.C.
|
inherited |
Definition at line 169 of file fe_nedelec_one_shape_2D.C.
|
inherited |
Definition at line 173 of file fe_hierarchic_shape_2D.C.
|
inherited |
Definition at line 174 of file fe_raviart_shape_2D.C.
|
staticinherited |
p
. This method allows you to specify the dimension and element type directly. The order is given by the FEType. This allows the method to be static.On a p-refined element, o
should be the base order of the element if add_p_level
is left true
, or can be the base order of the element if add_p_level
is set to false
.
|
inherited |
Definition at line 182 of file fe_hermite_shape_1D.C.
|
inherited |
Definition at line 185 of file fe_hierarchic_shape_2D.C.
|
inherited |
Definition at line 185 of file fe_raviart_shape_2D.C.
|
inherited |
Definition at line 190 of file fe_monomial_shape_3D.C.
|
inherited |
Definition at line 193 of file fe_bernstein_shape_1D.C.
|
inherited |
Definition at line 195 of file fe_raviart_shape_2D.C.
|
inherited |
Definition at line 195 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 196 of file fe_hierarchic_shape_2D.C.
|
inherited |
Definition at line 198 of file fe_raviart_shape_3D.C.
|
inherited |
Definition at line 205 of file fe_monomial_shape_3D.C.
|
inherited |
Definition at line 207 of file fe_hierarchic_shape_2D.C.
|
inherited |
Definition at line 208 of file fe_bernstein_shape_1D.C.
|
inherited |
Definition at line 209 of file fe_raviart_shape_3D.C.
|
inherited |
Definition at line 216 of file fe_xyz_shape_3D.C.
|
inherited |
Definition at line 218 of file fe_hierarchic_shape_2D.C.
|
inherited |
Definition at line 218 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 219 of file fe_raviart_shape_3D.C.
|
inherited |
Definition at line 219 of file fe_monomial_vec.C.
|
inherited |
Definition at line 228 of file fe_xyz_shape_3D.C.
|
inherited |
Definition at line 231 of file fe_raviart_shape_3D.C.
|
inherited |
Definition at line 233 of file fe_nedelec_one_shape_3D.C.
|
inherited |
Definition at line 234 of file fe_hermite_shape_1D.C.
|
inherited |
Definition at line 241 of file fe_raviart_shape_3D.C.
|
inherited |
Definition at line 242 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 245 of file fe_nedelec_one_shape_3D.C.
|
inherited |
Definition at line 245 of file fe_hermite_shape_1D.C.
|
inherited |
Definition at line 247 of file fe_hermite_shape_2D.C.
|
inherited |
Definition at line 256 of file fe_monomial_vec.C.
|
inherited |
Definition at line 258 of file fe_hermite_shape_2D.C.
|
inherited |
Definition at line 265 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 281 of file fe_clough_shape_1D.C.
|
inherited |
Definition at line 291 of file fe_clough_shape_1D.C.
|
inherited |
Definition at line 332 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 336 of file fe_monomial_vec.C.
|
inherited |
Definition at line 356 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 391 of file fe_hierarchic_shape_2D.C.
|
inherited |
Definition at line 392 of file fe_bernstein_shape_2D.C.
|
inherited |
Definition at line 403 of file fe_bernstein_shape_2D.C.
|
inherited |
Definition at line 414 of file fe_lagrange_shape_3D.C.
|
inherited |
Definition at line 425 of file fe_lagrange_shape_3D.C.
|
inherited |
Definition at line 426 of file fe_monomial_vec.C.
|
inherited |
Definition at line 433 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 436 of file fe_lagrange_shape_3D.C.
|
inherited |
Definition at line 443 of file fe_hermite_shape_3D.C.
|
inherited |
Definition at line 451 of file fe_lagrange_shape_3D.C.
|
inherited |
Definition at line 453 of file fe_hermite_shape_3D.C.
|
inherited |
Definition at line 458 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 466 of file fe_lagrange_shape_3D.C.
|
inherited |
Definition at line 471 of file fe_monomial_vec.C.
|
inherited |
Definition at line 479 of file fe_lagrange_shape_3D.C.
|
inherited |
Definition at line 487 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 515 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 515 of file fe_monomial_vec.C.
|
inherited |
Definition at line 543 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 553 of file fe_nedelec_one.C.
|
inherited |
Definition at line 556 of file fe_nedelec_one.C.
|
inherited |
Definition at line 571 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 580 of file fe_nedelec_one.C.
|
inherited |
Definition at line 582 of file fe_raviart.C.
|
inherited |
Definition at line 583 of file fe_nedelec_one.C.
|
inherited |
Definition at line 585 of file fe_raviart.C.
|
inherited |
Definition at line 588 of file fe_raviart.C.
|
inherited |
Definition at line 591 of file fe_raviart.C.
|
inherited |
Definition at line 601 of file fe_monomial_vec.C.
|
inherited |
Definition at line 631 of file fe_raviart.C.
|
inherited |
Definition at line 634 of file fe_raviart.C.
|
inherited |
Definition at line 637 of file fe_raviart.C.
|
inherited |
Definition at line 640 of file fe_raviart.C.
|
inherited |
Definition at line 641 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 646 of file fe_szabab_shape_2D.C.
|
inherited |
Definition at line 658 of file fe_szabab_shape_2D.C.
|
inherited |
Definition at line 668 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 708 of file fe_subdivision_2D.C.
|
inherited |
Definition at line 733 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 734 of file fe_subdivision_2D.C.
|
inherited |
Definition at line 748 of file fe_subdivision_2D.C.
|
inherited |
Definition at line 749 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 756 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 780 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 803 of file fe_lagrange_vec.C.
|
inherited |
Subdivision finite elements.
Template specialization prototypes are needed for calling from inside FESubdivision::init_shape_functions
|
inherited |
Definition at line 870 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 894 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 899 of file fe_bernstein_shape_3D.C.
|
inherited |
Definition at line 910 of file fe_bernstein_shape_3D.C.
|
inherited |
Definition at line 971 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 996 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1025 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1052 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1080 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1107 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1177 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1179 of file fe_hierarchic_shape_3D.C.
|
inherited |
Definition at line 1191 of file fe_hierarchic_shape_3D.C.
|
inherited |
Definition at line 1203 of file fe_hierarchic_shape_3D.C.
|
inherited |
Definition at line 1204 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1214 of file fe_hierarchic_shape_3D.C.
|
inherited |
Definition at line 1227 of file fe_hierarchic_shape_3D.C.
|
inherited |
Definition at line 1238 of file fe_hierarchic_shape_3D.C.
|
inherited |
Definition at line 1250 of file fe_hierarchic_shape_3D.C.
|
inherited |
Definition at line 1284 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1501 of file fe_hierarchic_shape_3D.C.
|
inherited |
Definition at line 1946 of file fe_clough_shape_2D.C.
|
inherited |
Definition at line 1957 of file fe_clough_shape_2D.C.
|
inherited |
Definition at line 63 of file fe_scalar_shape_0D.C.
|
inherited |
Definition at line 64 of file fe_scalar_shape_3D.C.
|
inherited |
Definition at line 65 of file fe_scalar_shape_2D.C.
|
inherited |
Definition at line 66 of file fe_scalar_shape_1D.C.
|
inherited |
Definition at line 69 of file fe_rational_shape_0D.C.
|
inherited |
Definition at line 70 of file fe_bernstein_shape_0D.C.
|
inherited |
Definition at line 71 of file fe_hermite_shape_0D.C.
|
inherited |
Definition at line 71 of file fe_clough_shape_0D.C.
|
inherited |
Definition at line 72 of file fe_monomial_shape_0D.C.
|
inherited |
Definition at line 72 of file fe_szabab_shape_0D.C.
|
inherited |
Definition at line 72 of file fe_szabab_shape_3D.C.
|
inherited |
Definition at line 72 of file fe_xyz_shape_0D.C.
|
inherited |
Definition at line 73 of file fe_scalar_shape_0D.C.
|
inherited |
Definition at line 74 of file fe_scalar_shape_3D.C.
|
inherited |
Definition at line 75 of file fe_scalar_shape_2D.C.
|
inherited |
Definition at line 76 of file fe_scalar_shape_1D.C.
|
inherited |
Definition at line 77 of file fe_clough_shape_3D.C.
|
inherited |
Definition at line 81 of file fe_rational_shape_3D.C.
|
inherited |
Definition at line 82 of file fe_rational_shape_0D.C.
|
inherited |
Definition at line 83 of file fe_rational_shape_2D.C.
|
inherited |
Definition at line 83 of file fe_bernstein_shape_0D.C.
|
inherited |
Definition at line 84 of file fe_rational_shape_1D.C.
|
inherited |
Definition at line 84 of file fe_hermite_shape_0D.C.
|
inherited |
Definition at line 84 of file fe_clough_shape_0D.C.
|
inherited |
Definition at line 85 of file fe_monomial_shape_0D.C.
|
inherited |
Definition at line 85 of file fe_scalar_shape_0D.C.
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Definition at line 85 of file fe_szabab_shape_0D.C.
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Definition at line 85 of file fe_szabab_shape_3D.C.
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Definition at line 85 of file fe_xyz_shape_0D.C.
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Definition at line 86 of file fe_scalar_shape_3D.C.
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Definition at line 87 of file fe_scalar_shape_2D.C.
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Definition at line 88 of file fe_scalar_shape_1D.C.
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Definition at line 90 of file fe_clough_shape_3D.C.
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Definition at line 95 of file fe_bernstein_shape_0D.C.
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Definition at line 96 of file fe_rational_shape_0D.C.
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Definition at line 96 of file fe_clough_shape_0D.C.
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Definition at line 97 of file fe_monomial_shape_1D.C.
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Definition at line 97 of file fe_hermite_shape_0D.C.
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Definition at line 98 of file fe_monomial_shape_0D.C.
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Definition at line 98 of file fe_rational_shape_3D.C.
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Definition at line 98 of file fe_szabab_shape_0D.C.
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Definition at line 98 of file fe_szabab_shape_3D.C.
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Definition at line 99 of file fe_xyz_shape_0D.C.
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Definition at line 100 of file fe_rational_shape_2D.C.
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Definition at line 101 of file fe_rational_shape_1D.C.
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Definition at line 103 of file fe_lagrange_shape_1D.C.
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Definition at line 104 of file fe_clough_shape_3D.C.
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Definition at line 105 of file fe_lagrange_shape_0D.C.
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Definition at line 108 of file fe_xyz_shape_1D.C.
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Definition at line 110 of file fe_rational_shape_3D.C.
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Definition at line 110 of file fe_szabab_shape_1D.C.
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Definition at line 113 of file fe_rational_shape_1D.C.
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Definition at line 113 of file fe_rational_shape_2D.C.
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Definition at line 115 of file fe_lagrange_shape_1D.C.
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Definition at line 118 of file fe_lagrange_shape_0D.C.
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Definition at line 127 of file fe_lagrange_shape_1D.C.
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inherited |
Definition at line 132 of file fe_lagrange_shape_0D.C.
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Definition at line 140 of file fe_monomial_shape_1D.C.
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Definition at line 142 of file fe_lagrange_shape_1D.C.
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Definition at line 144 of file fe_lagrange_shape_2D.C.
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inherited |
Definition at line 145 of file fe_lagrange_shape_0D.C.
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Definition at line 149 of file fe_hierarchic_shape_0D.C.
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Definition at line 150 of file fe_monomial_shape_2D.C.
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Definition at line 155 of file fe_monomial_shape_1D.C.
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Definition at line 156 of file fe_lagrange_shape_1D.C.
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Definition at line 156 of file fe_lagrange_shape_2D.C.
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Definition at line 156 of file fe_szabab_shape_1D.C.
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Definition at line 159 of file fe_lagrange_shape_0D.C.
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Definition at line 162 of file fe_hierarchic_shape_0D.C.
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Definition at line 163 of file fe_xyz_shape_1D.C.
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Definition at line 168 of file fe_lagrange_shape_2D.C.
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Definition at line 169 of file fe_lagrange_shape_1D.C.
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Definition at line 172 of file fe_lagrange_shape_0D.C.
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Definition at line 172 of file fe_szabab_shape_1D.C.
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Definition at line 174 of file fe_xyz_shape_2D.C.
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Definition at line 175 of file fe_xyz_shape_1D.C.
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Definition at line 176 of file fe_hierarchic_vec.C.
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inherited |
Definition at line 176 of file fe_hierarchic_shape_0D.C.
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Definition at line 178 of file fe_hierarchic_shape_1D.C.
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inherited |
Definition at line 179 of file fe_nedelec_one_shape_2D.C.
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inherited |
Definition at line 184 of file fe_lagrange_shape_2D.C.
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inherited |
Definition at line 190 of file fe_hierarchic_shape_0D.C.
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inherited |
Definition at line 190 of file fe_hierarchic_shape_1D.C.
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Definition at line 191 of file fe_monomial_vec.C.
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Definition at line 200 of file fe_hierarchic_vec.C.
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inherited |
Definition at line 200 of file fe_lagrange_shape_2D.C.
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Definition at line 202 of file fe_hierarchic_shape_1D.C.
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inherited |
Definition at line 203 of file fe_hierarchic_shape_0D.C.
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inherited |
Definition at line 205 of file fe_raviart_shape_2D.C.
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inherited |
Definition at line 214 of file fe_hierarchic_shape_1D.C.
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Definition at line 214 of file fe_lagrange_shape_2D.C.
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inherited |
Definition at line 216 of file fe_hierarchic_shape_0D.C.
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Definition at line 219 of file fe_monomial_shape_3D.C.
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inherited |
Definition at line 222 of file fe_bernstein_shape_1D.C.
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inherited |
Definition at line 224 of file fe_hierarchic_vec.C.
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p
. This method allows you to specify the dimension, element type, and order directly.On a p-refined element, o
should be the total order of the element.
|
inherited |
Definition at line 229 of file fe_monomial_vec.C.
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inherited |
Definition at line 230 of file fe_hierarchic_shape_1D.C.
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inherited |
Definition at line 230 of file fe_hierarchic_shape_0D.C.
|
staticinherited |
On a p-refined element, o
should be the base order of the element if add_p_level
is left true
, or can be the base order of the element if add_p_level
is set to false
.
|
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Definition at line 242 of file fe_xyz_shape_3D.C.
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inherited |
Definition at line 243 of file fe_hierarchic_shape_0D.C.
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inherited |
Definition at line 245 of file fe_hierarchic_shape_1D.C.
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inherited |
Definition at line 247 of file fe_hierarchic_vec.C.
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inherited |
Definition at line 252 of file fe_raviart_shape_3D.C.
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inherited |
Definition at line 256 of file fe_nedelec_one_shape_3D.C.
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inherited |
Definition at line 256 of file fe_hermite_shape_1D.C.
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Definition at line 256 of file fe_hierarchic_shape_0D.C.
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staticinherited |
On a p-refined element, o
should be the base order of the element if add_p_level
is left true
, or can be the base order of the element if add_p_level
is set to false
.
|
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Definition at line 261 of file fe_hierarchic_shape_1D.C.
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inherited |
Definition at line 269 of file fe_hermite_shape_2D.C.
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inherited |
Definition at line 275 of file fe_hierarchic_shape_1D.C.
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inherited |
Definition at line 280 of file fe_monomial_vec.C.
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inherited |
Definition at line 285 of file fe_hierarchic_vec.C.
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inherited |
Definition at line 288 of file fe_hierarchic_shape_1D.C.
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inherited |
Definition at line 304 of file fe_clough_shape_1D.C.
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inherited |
Definition at line 308 of file fe_hermite_shape_1D.C.
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inherited |
Definition at line 317 of file fe_clough_shape_1D.C.
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inherited |
Definition at line 319 of file fe_hermite_shape_1D.C.
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inherited |
Definition at line 324 of file fe_monomial_shape_2D.C.
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inherited |
Definition at line 333 of file fe_nedelec_one_shape_2D.C.
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inherited |
Definition at line 333 of file fe_hermite_shape_2D.C.
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inherited |
Definition at line 338 of file fe_hierarchic_vec.C.
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inherited |
Definition at line 340 of file fe_monomial_shape_2D.C.
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inherited |
Definition at line 344 of file fe_nedelec_one_shape_2D.C.
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inherited |
Definition at line 345 of file fe_hermite_shape_2D.C.
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inherited |
Definition at line 357 of file fe_raviart_shape_2D.C.
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inherited |
Definition at line 363 of file fe_monomial_vec.C.
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inherited |
Definition at line 367 of file fe_xyz_shape_2D.C.
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inherited |
Definition at line 369 of file fe_raviart_shape_2D.C.
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inherited |
Definition at line 370 of file fe_clough_shape_1D.C.
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inherited |
Definition at line 379 of file fe_hierarchic_vec.C.
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inherited |
Definition at line 379 of file fe_xyz_shape_2D.C.
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inherited |
Definition at line 380 of file fe_raviart_shape_2D.C.
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inherited |
Definition at line 380 of file fe_bernstein_shape_1D.C.
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inherited |
Definition at line 391 of file fe_raviart_shape_2D.C.
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inherited |
Definition at line 395 of file fe_bernstein_shape_1D.C.
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inherited |
Definition at line 402 of file fe_hierarchic_shape_2D.C.
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inherited |
Definition at line 402 of file fe_raviart_shape_2D.C.
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inherited |
Definition at line 415 of file fe_hierarchic_shape_2D.C.
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inherited |
Definition at line 415 of file fe_bernstein_shape_2D.C.
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inherited |
Definition at line 428 of file fe_hierarchic_shape_2D.C.
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inherited |
Definition at line 438 of file fe_monomial_vec.C.
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inherited |
Definition at line 439 of file fe_hierarchic_vec.C.
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inherited |
Definition at line 441 of file fe_hierarchic_shape_2D.C.
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inherited |
Definition at line 453 of file fe_hierarchic_shape_2D.C.
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inherited |
Definition at line 465 of file fe_hierarchic_vec.C.
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inherited |
Definition at line 465 of file fe_hermite_shape_3D.C.
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inherited |
Definition at line 467 of file fe_hierarchic_shape_2D.C.
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inherited |
Definition at line 479 of file fe_hierarchic_shape_2D.C.
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inherited |
Definition at line 483 of file fe_monomial_vec.C.
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inherited |
Definition at line 490 of file fe_lagrange_shape_3D.C.
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inherited |
Definition at line 492 of file fe_hierarchic_shape_2D.C.
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inherited |
Definition at line 494 of file fe_hierarchic_vec.C.
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inherited |
Definition at line 502 of file fe_lagrange_shape_3D.C.
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inherited |
Definition at line 513 of file fe_bernstein_shape_2D.C.
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inherited |
Definition at line 514 of file fe_lagrange_shape_3D.C.
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inherited |
Definition at line 522 of file fe_hierarchic_vec.C.
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inherited |
Definition at line 524 of file fe_bernstein_shape_2D.C.
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inherited |
Definition at line 529 of file fe_lagrange_shape_3D.C.
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inherited |
Definition at line 539 of file fe_raviart_shape_3D.C.
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inherited |
Definition at line 541 of file fe_monomial_vec.C.
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inherited |
Definition at line 544 of file fe_lagrange_shape_3D.C.
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inherited |
Definition at line 547 of file fe_hermite_shape_3D.C.
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inherited |
Definition at line 550 of file fe_hierarchic_vec.C.
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inherited |
Definition at line 552 of file fe_raviart_shape_3D.C.
|
inherited |
Definition at line 557 of file fe_lagrange_shape_3D.C.
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inherited |
Definition at line 559 of file fe_nedelec_one.C.
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inherited |
Definition at line 559 of file fe_hermite_shape_3D.C.
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inherited |
Definition at line 563 of file fe_nedelec_one.C.
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inherited |
Definition at line 563 of file fe_raviart_shape_3D.C.
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inherited |
Definition at line 575 of file fe_raviart_shape_3D.C.
|
inherited |
Definition at line 586 of file fe_raviart_shape_3D.C.
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inherited |
Definition at line 586 of file fe_nedelec_one.C.
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inherited |
Definition at line 590 of file fe_nedelec_one.C.
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inherited |
Definition at line 592 of file fe_hierarchic_vec.C.
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inherited |
Definition at line 594 of file fe_raviart.C.
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inherited |
Definition at line 598 of file fe_raviart.C.
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inherited |
Definition at line 602 of file fe_raviart.C.
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inherited |
Definition at line 606 of file fe_raviart.C.
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inherited |
Definition at line 630 of file fe_monomial_vec.C.
|
inherited |
Definition at line 643 of file fe_raviart.C.
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inherited |
Definition at line 647 of file fe_hierarchic_vec.C.
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Definition at line 647 of file fe_raviart.C.
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Definition at line 651 of file fe_raviart.C.
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Definition at line 655 of file fe_raviart.C.
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Definition at line 659 of file fe_monomial_shape_3D.C.
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inherited |
Definition at line 672 of file fe_szabab_shape_2D.C.
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inherited |
Definition at line 674 of file fe_monomial_shape_3D.C.
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inherited |
Definition at line 681 of file fe_hierarchic_shape_2D.C.
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inherited |
Definition at line 693 of file fe_hierarchic_vec.C.
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inherited |
Definition at line 701 of file fe_nedelec_one_shape_3D.C.
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inherited |
Definition at line 704 of file fe_xyz_shape_3D.C.
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inherited |
Definition at line 713 of file fe_nedelec_one_shape_3D.C.
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inherited |
Definition at line 714 of file fe_lagrange_vec.C.
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inherited |
Definition at line 717 of file fe_xyz_shape_3D.C.
|
inherited |
Definition at line 738 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 756 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 762 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 763 of file fe_subdivision_2D.C.
|
inherited |
Definition at line 785 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 790 of file fe_subdivision_2D.C.
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inherited |
Definition at line 805 of file fe_subdivision_2D.C.
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inherited |
Definition at line 823 of file fe_lagrange_vec.C.
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|
inherited |
Definition at line 876 of file fe_lagrange_vec.C.
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inherited |
Definition at line 917 of file fe_lagrange_vec.C.
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inherited |
Definition at line 920 of file fe_bernstein_shape_3D.C.
|
inherited |
Definition at line 977 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1003 of file fe_lagrange_vec.C.
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inherited |
Definition at line 1023 of file fe_szabab_shape_2D.C.
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inherited |
Definition at line 1031 of file fe_lagrange_vec.C.
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inherited |
Definition at line 1035 of file fe_szabab_shape_2D.C.
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inherited |
Definition at line 1059 of file fe_lagrange_vec.C.
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inherited |
Definition at line 1086 of file fe_lagrange_vec.C.
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inherited |
Definition at line 1128 of file fe_lagrange_vec.C.
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inherited |
Definition at line 1183 of file fe_lagrange_vec.C.
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inherited |
Definition at line 1228 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1290 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1512 of file fe_hierarchic_shape_3D.C.
|
inherited |
Definition at line 1525 of file fe_hierarchic_shape_3D.C.
|
inherited |
Definition at line 1538 of file fe_hierarchic_shape_3D.C.
|
inherited |
Definition at line 1551 of file fe_hierarchic_shape_3D.C.
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inherited |
Definition at line 1563 of file fe_hierarchic_shape_3D.C.
|
inherited |
Definition at line 1576 of file fe_hierarchic_shape_3D.C.
|
inherited |
Definition at line 1588 of file fe_hierarchic_shape_3D.C.
|
inherited |
Definition at line 1601 of file fe_hierarchic_shape_3D.C.
|
inherited |
Definition at line 1758 of file fe_hierarchic_shape_3D.C.
|
inherited |
Definition at line 1970 of file fe_clough_shape_2D.C.
|
inherited |
Definition at line 2155 of file fe_clough_shape_2D.C.
|
inherited |
Definition at line 2167 of file fe_clough_shape_2D.C.
|
inherited |
Definition at line 2320 of file fe_bernstein_shape_3D.C.
|
inherited |
Definition at line 2331 of file fe_bernstein_shape_3D.C.
|
inherited |
Definition at line 202 of file fe_rational_shape_3D.C.
|
inherited |
Definition at line 206 of file fe_rational_shape_2D.C.
|
inherited |
Definition at line 208 of file fe_rational_shape_1D.C.
|
inherited |
Definition at line 220 of file fe_lagrange_shape_3D.C.
|
staticinherited |
Fills v
with the \( j^{th} \) derivative of the \( i^{th} \) shape function, evaluated at all points p.
You must specify element order directly. v
should already be the appropriate size.
On a p-refined element, o
should be the base order of the element if add_p_level
is left true
, or can be the base order of the element if add_p_level
is set to false
.
|
inherited |
Definition at line 99 of file fe_scalar_shape_0D.C.
|
inherited |
Definition at line 100 of file fe_scalar_shape_3D.C.
|
inherited |
Definition at line 101 of file fe_scalar_shape_2D.C.
|
inherited |
Definition at line 103 of file fe_scalar_shape_1D.C.
|
inherited |
Definition at line 109 of file fe_scalar_shape_0D.C.
|
inherited |
Definition at line 110 of file fe_scalar_shape_3D.C.
|
inherited |
Definition at line 110 of file fe_bernstein_shape_0D.C.
|
inherited |
Definition at line 111 of file fe_rational_shape_0D.C.
|
inherited |
Definition at line 111 of file fe_scalar_shape_2D.C.
|
inherited |
Definition at line 113 of file fe_szabab_shape_3D.C.
|
inherited |
Definition at line 113 of file fe_scalar_shape_1D.C.
|
inherited |
Definition at line 113 of file fe_clough_shape_0D.C.
|
inherited |
Definition at line 114 of file fe_hermite_shape_0D.C.
|
inherited |
Definition at line 114 of file fe_szabab_shape_0D.C.
|
inherited |
Definition at line 115 of file fe_monomial_shape_0D.C.
|
inherited |
Definition at line 115 of file fe_xyz_shape_0D.C.
|
inherited |
Definition at line 120 of file fe_scalar_shape_0D.C.
|
inherited |
Definition at line 120 of file fe_clough_shape_3D.C.
|
inherited |
Definition at line 122 of file fe_scalar_shape_3D.C.
|
inherited |
Definition at line 122 of file fe_scalar_shape_2D.C.
|
inherited |
Definition at line 123 of file fe_bernstein_shape_0D.C.
|
inherited |
Definition at line 124 of file fe_rational_shape_0D.C.
|
inherited |
Definition at line 125 of file fe_scalar_shape_1D.C.
|
inherited |
Definition at line 126 of file fe_rational_shape_3D.C.
|
inherited |
Definition at line 126 of file fe_szabab_shape_3D.C.
|
inherited |
Definition at line 126 of file fe_clough_shape_0D.C.
|
inherited |
Definition at line 127 of file fe_hermite_shape_0D.C.
|
inherited |
Definition at line 127 of file fe_szabab_shape_0D.C.
|
inherited |
Definition at line 128 of file fe_monomial_shape_0D.C.
|
inherited |
Definition at line 128 of file fe_xyz_shape_0D.C.
|
inherited |
Definition at line 130 of file fe_rational_shape_2D.C.
|
inherited |
Definition at line 131 of file fe_rational_shape_1D.C.
|
inherited |
Definition at line 132 of file fe_clough_shape_3D.C.
|
inherited |
Definition at line 136 of file fe_bernstein_shape_0D.C.
|
inherited |
Definition at line 138 of file fe_clough_shape_0D.C.
|
inherited |
Definition at line 138 of file fe_rational_shape_0D.C.
|
inherited |
Definition at line 139 of file fe_szabab_shape_3D.C.
|
inherited |
Definition at line 140 of file fe_hermite_shape_0D.C.
|
inherited |
Definition at line 141 of file fe_szabab_shape_0D.C.
|
inherited |
Definition at line 141 of file fe_monomial_shape_0D.C.
|
inherited |
Definition at line 142 of file fe_xyz_shape_0D.C.
|
inherited |
Definition at line 145 of file fe_rational_shape_3D.C.
|
inherited |
Definition at line 145 of file fe_clough_shape_3D.C.
|
inherited |
Definition at line 149 of file fe_rational_shape_2D.C.
|
inherited |
Definition at line 149 of file fe_rational_shape_1D.C.
|
inherited |
Definition at line 157 of file fe_rational_shape_3D.C.
|
inherited |
Definition at line 161 of file fe_rational_shape_2D.C.
|
inherited |
Definition at line 163 of file fe_rational_shape_1D.C.
|
inherited |
Definition at line 171 of file fe_monomial_shape_1D.C.
|
inherited |
Definition at line 184 of file fe_lagrange_shape_1D.C.
|
inherited |
Definition at line 186 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 188 of file fe_lagrange_shape_0D.C.
|
inherited |
Definition at line 191 of file fe_szabab_shape_1D.C.
|
inherited |
Definition at line 194 of file fe_xyz_shape_1D.C.
|
inherited |
Definition at line 196 of file fe_lagrange_shape_1D.C.
|
inherited |
Definition at line 201 of file fe_lagrange_shape_0D.C.
|
inherited |
Definition at line 205 of file fe_monomial_vec.C.
|
inherited |
Definition at line 208 of file fe_lagrange_shape_1D.C.
|
inherited |
Definition at line 209 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 211 of file fe_szabab_shape_1D.C.
|
inherited |
Definition at line 211 of file fe_monomial_shape_1D.C.
|
inherited |
Definition at line 213 of file fe_lagrange_shape_0D.C.
|
inherited |
Definition at line 223 of file fe_lagrange_shape_1D.C.
|
inherited |
Definition at line 225 of file fe_monomial_shape_1D.C.
|
inherited |
Definition at line 226 of file fe_lagrange_shape_0D.C.
|
inherited |
Definition at line 230 of file fe_lagrange_shape_2D.C.
|
inherited |
Definition at line 231 of file fe_szabab_shape_1D.C.
|
inherited |
Definition at line 232 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 237 of file fe_lagrange_shape_1D.C.
|
inherited |
Definition at line 239 of file fe_lagrange_shape_0D.C.
|
inherited |
Definition at line 241 of file fe_monomial_vec.C.
|
inherited |
Definition at line 242 of file fe_lagrange_shape_2D.C.
|
inherited |
Definition at line 247 of file fe_xyz_shape_1D.C.
|
inherited |
Definition at line 250 of file fe_lagrange_shape_1D.C.
|
inherited |
Definition at line 252 of file fe_lagrange_shape_0D.C.
|
inherited |
Definition at line 254 of file fe_lagrange_shape_2D.C.
|
inherited |
Definition at line 256 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 260 of file fe_xyz_shape_1D.C.
|
inherited |
Definition at line 270 of file fe_lagrange_shape_2D.C.
|
inherited |
Definition at line 271 of file fe_hierarchic_shape_0D.C.
|
inherited |
Definition at line 284 of file fe_hierarchic_shape_0D.C.
|
inherited |
Definition at line 285 of file fe_lagrange_shape_2D.C.
|
inherited |
Definition at line 297 of file fe_hierarchic_shape_0D.C.
|
inherited |
Definition at line 299 of file fe_lagrange_shape_2D.C.
|
inherited |
Definition at line 302 of file fe_hierarchic_shape_1D.C.
|
inherited |
Definition at line 307 of file fe_monomial_vec.C.
|
inherited |
Definition at line 308 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 310 of file fe_hierarchic_shape_0D.C.
|
inherited |
Definition at line 315 of file fe_hierarchic_shape_1D.C.
|
staticinherited |
p
.On a p-refined element, o
should be the total order of the element.
|
inherited |
Definition at line 323 of file fe_hierarchic_shape_0D.C.
|
inherited |
Definition at line 327 of file fe_hierarchic_shape_1D.C.
|
inherited |
Definition at line 333 of file fe_hermite_shape_1D.C.
|
inherited |
Definition at line 336 of file fe_hierarchic_shape_0D.C.
|
inherited |
Definition at line 339 of file fe_hierarchic_shape_1D.C.
|
inherited |
Definition at line 346 of file fe_hierarchic_vec.C.
|
staticinherited |
p
.On a p-refined element, o
should be the base order of the element if add_p_level
is left true
, or can be the base order of the element if add_p_level
is set to false
.
|
inherited |
Definition at line 350 of file fe_hierarchic_shape_0D.C.
|
inherited |
Definition at line 355 of file fe_hierarchic_shape_1D.C.
|
inherited |
Definition at line 356 of file fe_monomial_shape_2D.C.
|
inherited |
Definition at line 361 of file fe_nedelec_one_shape_2D.C.
|
inherited |
Definition at line 362 of file fe_hermite_shape_2D.C.
|
inherited |
Definition at line 363 of file fe_hierarchic_shape_0D.C.
|
inherited |
Definition at line 369 of file fe_hierarchic_shape_1D.C.
|
staticinherited |
p
.On a p-refined element, o
should be the total order of the element.
|
inherited |
Definition at line 377 of file fe_hierarchic_shape_0D.C.
|
inherited |
Definition at line 384 of file fe_hierarchic_shape_1D.C.
|
inherited |
Definition at line 385 of file fe_clough_shape_1D.C.
|
inherited |
Definition at line 385 of file fe_hermite_shape_1D.C.
|
inherited |
Definition at line 394 of file fe_monomial_vec.C.
|
inherited |
Definition at line 394 of file fe_xyz_shape_2D.C.
|
inherited |
Definition at line 396 of file fe_hermite_shape_1D.C.
|
inherited |
Definition at line 398 of file fe_hierarchic_shape_1D.C.
|
inherited |
Definition at line 406 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 410 of file fe_hierarchic_shape_1D.C.
|
inherited |
Definition at line 412 of file fe_bernstein_shape_1D.C.
|
inherited |
Definition at line 419 of file fe_raviart_shape_2D.C.
|
inherited |
Definition at line 423 of file fe_nedelec_one_shape_2D.C.
|
inherited |
Definition at line 430 of file fe_hermite_shape_2D.C.
|
inherited |
Definition at line 435 of file fe_nedelec_one_shape_2D.C.
|
inherited |
Definition at line 438 of file fe_clough_shape_1D.C.
|
inherited |
Definition at line 442 of file fe_hermite_shape_2D.C.
|
inherited |
Definition at line 447 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 449 of file fe_clough_shape_1D.C.
|
inherited |
Definition at line 454 of file fe_monomial_vec.C.
|
inherited |
Definition at line 476 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 479 of file fe_raviart_shape_2D.C.
|
inherited |
Definition at line 493 of file fe_raviart_shape_2D.C.
|
inherited |
Definition at line 498 of file fe_monomial_vec.C.
|
inherited |
Definition at line 504 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 504 of file fe_raviart_shape_2D.C.
|
inherited |
Definition at line 516 of file fe_raviart_shape_2D.C.
|
inherited |
Definition at line 527 of file fe_raviart_shape_2D.C.
|
inherited |
Definition at line 532 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 542 of file fe_bernstein_shape_2D.C.
|
inherited |
Definition at line 560 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 569 of file fe_nedelec_one.C.
|
inherited |
Definition at line 570 of file fe_monomial_vec.C.
|
inherited |
Definition at line 571 of file fe_lagrange_shape_3D.C.
|
inherited |
Definition at line 573 of file fe_nedelec_one.C.
|
inherited |
Definition at line 575 of file fe_hermite_shape_3D.C.
|
inherited |
Definition at line 577 of file fe_monomial_shape_2D.C.
|
inherited |
Definition at line 583 of file fe_lagrange_shape_3D.C.
|
inherited |
Definition at line 592 of file fe_monomial_shape_2D.C.
|
inherited |
Definition at line 593 of file fe_bernstein_shape_1D.C.
|
inherited |
Definition at line 595 of file fe_lagrange_shape_3D.C.
|
inherited |
Definition at line 596 of file fe_nedelec_one.C.
|
inherited |
Definition at line 600 of file fe_nedelec_one.C.
|
inherited |
Definition at line 601 of file fe_raviart_shape_3D.C.
|
inherited |
Definition at line 608 of file fe_bernstein_shape_1D.C.
|
inherited |
Definition at line 608 of file fe_bernstein_shape_2D.C.
|
inherited |
Definition at line 612 of file fe_raviart.C.
|
inherited |
Definition at line 612 of file fe_lagrange_shape_3D.C.
|
inherited |
Definition at line 616 of file fe_raviart.C.
|
inherited |
Definition at line 616 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 620 of file fe_bernstein_shape_2D.C.
|
inherited |
Definition at line 620 of file fe_raviart.C.
|
inherited |
Definition at line 624 of file fe_raviart.C.
|
inherited |
Definition at line 628 of file fe_lagrange_shape_3D.C.
|
inherited |
Definition at line 634 of file fe_xyz_shape_2D.C.
|
inherited |
Definition at line 643 of file fe_lagrange_shape_3D.C.
|
inherited |
Definition at line 647 of file fe_xyz_shape_2D.C.
|
inherited |
Definition at line 657 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 661 of file fe_raviart.C.
|
inherited |
Definition at line 662 of file fe_raviart_shape_3D.C.
|
inherited |
Definition at line 663 of file fe_monomial_vec.C.
|
inherited |
Definition at line 665 of file fe_raviart.C.
|
inherited |
Definition at line 669 of file fe_raviart.C.
|
inherited |
Definition at line 673 of file fe_raviart.C.
|
inherited |
Definition at line 674 of file fe_raviart_shape_3D.C.
|
inherited |
Definition at line 674 of file fe_hermite_shape_3D.C.
|
inherited |
Definition at line 685 of file fe_raviart_shape_3D.C.
|
inherited |
Definition at line 685 of file fe_hermite_shape_3D.C.
|
inherited |
Definition at line 690 of file fe_monomial_shape_3D.C.
|
inherited |
Definition at line 695 of file fe_hierarchic_shape_2D.C.
|
inherited |
Definition at line 698 of file fe_raviart_shape_3D.C.
|
inherited |
Definition at line 708 of file fe_hierarchic_shape_2D.C.
|
inherited |
Definition at line 709 of file fe_raviart_shape_3D.C.
|
inherited |
Definition at line 721 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 721 of file fe_hierarchic_shape_2D.C.
|
inherited |
Definition at line 724 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 728 of file fe_nedelec_one_shape_3D.C.
|
inherited |
Definition at line 732 of file fe_xyz_shape_3D.C.
|
inherited |
Definition at line 734 of file fe_hierarchic_shape_2D.C.
|
inherited |
Definition at line 746 of file fe_hierarchic_shape_2D.C.
|
inherited |
Definition at line 747 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 758 of file fe_hierarchic_shape_2D.C.
|
inherited |
Definition at line 766 of file fe_hierarchic_vec.C.
|
inherited |
Definition at line 770 of file fe_hierarchic_shape_2D.C.
|
inherited |
Definition at line 770 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 782 of file fe_hierarchic_shape_2D.C.
|
inherited |
Definition at line 794 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 822 of file fe_subdivision_2D.C.
|
inherited |
Definition at line 846 of file fe_lagrange_vec.C.
|
inherited |
|
inherited |
Definition at line 849 of file fe_subdivision_2D.C.
|
inherited |
Definition at line 865 of file fe_subdivision_2D.C.
|
inherited |
Definition at line 884 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 895 of file fe_hierarchic_shape_2D.C.
|
inherited |
Definition at line 944 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 976 of file fe_nedelec_one_shape_3D.C.
|
inherited |
Definition at line 985 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 989 of file fe_nedelec_one_shape_3D.C.
|
inherited |
Definition at line 1014 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1041 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1051 of file fe_szabab_shape_2D.C.
|
inherited |
Definition at line 1069 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1071 of file fe_szabab_shape_2D.C.
|
inherited |
Definition at line 1091 of file fe_szabab_shape_2D.C.
|
inherited |
Definition at line 1096 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1152 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1193 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1256 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1300 of file fe_lagrange_vec.C.
|
inherited |
Definition at line 1340 of file fe_monomial_shape_3D.C.
|
inherited |
Definition at line 1355 of file fe_monomial_shape_3D.C.
|
inherited |
Definition at line 1412 of file fe_xyz_shape_3D.C.
|
inherited |
Definition at line 1424 of file fe_xyz_shape_3D.C.
|
inherited |
Definition at line 1772 of file fe_hierarchic_shape_3D.C.
|
inherited |
Definition at line 1785 of file fe_hierarchic_shape_3D.C.
|
inherited |
Definition at line 1798 of file fe_hierarchic_shape_3D.C.
|
inherited |
Definition at line 1811 of file fe_hierarchic_shape_3D.C.
|
inherited |
Definition at line 1824 of file fe_hierarchic_shape_3D.C.
|
inherited |
Definition at line 1837 of file fe_hierarchic_shape_3D.C.
|
inherited |
Definition at line 1849 of file fe_hierarchic_shape_3D.C.
|
inherited |
Definition at line 1861 of file fe_hierarchic_shape_3D.C.
|
inherited |
Definition at line 2085 of file fe_hierarchic_shape_3D.C.
|
inherited |
Definition at line 2183 of file fe_clough_shape_2D.C.
|
inherited |
Definition at line 2347 of file fe_bernstein_shape_3D.C.
|
inherited |
Definition at line 2360 of file fe_bernstein_shape_3D.C.
|
inherited |
Definition at line 2364 of file fe_clough_shape_2D.C.
|
inherited |
Definition at line 2372 of file fe_bernstein_shape_3D.C.
|
inherited |
Definition at line 2375 of file fe_clough_shape_2D.C.
|
inherited |
Definition at line 174 of file fe_rational_shape_3D.C.
|
inherited |
Definition at line 178 of file fe_rational_shape_2D.C.
|
inherited |
Definition at line 180 of file fe_rational_shape_1D.C.
|
staticinherited |
Fills v
with the values of the \( i^{th} \) shape function, evaluated at all points p.
You must specify element order directly. v
should already be the appropriate size.
On a p-refined element, o
should be the base order of the element if add_p_level
is left true
, or can be the base order of the element if add_p_level
is set to false
.
|
inherited |
Definition at line 207 of file fe_lagrange_shape_3D.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 110 of file fe_scalar.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 111 of file fe_scalar.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 112 of file fe_scalar.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 113 of file fe_scalar.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 179 of file fe_rational.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 180 of file fe_rational.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 181 of file fe_rational.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 182 of file fe_rational.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 200 of file fe_l2_hierarchic.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 201 of file fe_l2_hierarchic.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 202 of file fe_l2_hierarchic.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 203 of file fe_l2_hierarchic.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 245 of file fe_l2_lagrange.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 246 of file fe_l2_lagrange.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 247 of file fe_l2_lagrange.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 248 of file fe_l2_lagrange.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 290 of file fe_side_hierarchic.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 291 of file fe_side_hierarchic.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 292 of file fe_side_hierarchic.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 293 of file fe_side_hierarchic.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 297 of file fe_clough.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 298 of file fe_clough.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 299 of file fe_clough.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 300 of file fe_clough.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 334 of file fe_hermite.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 335 of file fe_hermite.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 336 of file fe_hermite.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 337 of file fe_hermite.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 413 of file fe_monomial.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 414 of file fe_monomial.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 415 of file fe_monomial.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 416 of file fe_monomial.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 450 of file fe_bernstein.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 451 of file fe_bernstein.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 452 of file fe_bernstein.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 453 of file fe_bernstein.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 502 of file fe_hierarchic.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 503 of file fe_hierarchic.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 504 of file fe_hierarchic.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 505 of file fe_hierarchic.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 511 of file fe_raviart.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 512 of file fe_raviart.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 513 of file fe_raviart.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 514 of file fe_raviart.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 516 of file fe_nedelec_one.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 517 of file fe_nedelec_one.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 517 of file fe_raviart.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 518 of file fe_raviart.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 518 of file fe_nedelec_one.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 519 of file fe_raviart.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 519 of file fe_nedelec_one.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 520 of file fe_raviart.C.
|
overridevirtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 827 of file fe_monomial_vec.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 833 of file fe_monomial_vec.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 836 of file fe_hierarchic_vec.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 837 of file fe_hierarchic_vec.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 838 of file fe_hierarchic_vec.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 839 of file fe_monomial_vec.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 839 of file fe_hierarchic_vec.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 840 of file fe_hierarchic_vec.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 841 of file fe_hierarchic_vec.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 842 of file fe_hierarchic_vec.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 843 of file fe_hierarchic_vec.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 845 of file fe_monomial_vec.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 981 of file fe_subdivision_2D.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 1062 of file fe_lagrange.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 1063 of file fe_lagrange.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 1064 of file fe_lagrange.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 1065 of file fe_lagrange.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 1325 of file fe_szabab.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 1326 of file fe_szabab.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 1327 of file fe_szabab.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 1328 of file fe_szabab.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 1373 of file fe_lagrange_vec.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 1374 of file fe_lagrange_vec.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 1375 of file fe_lagrange_vec.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 1376 of file fe_lagrange_vec.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 1377 of file fe_lagrange_vec.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 1378 of file fe_lagrange_vec.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 1379 of file fe_lagrange_vec.C.
|
virtualinherited |
true
when the shape functions (for this FEFamily
) depend on the particular element, and therefore needs to be re-initialized for each new element. false
otherwise. Implements libMesh::FEAbstract.
Definition at line 1380 of file fe_lagrange_vec.C.
|
overridevirtualinherited |
Computes the reference space quadrature points on the side of an element based on the side quadrature points.
Implements libMesh::FEAbstract.
Definition at line 336 of file fe_boundary.C.
|
virtualinherited |
Computes the reference space quadrature points on the side of an element based on the side quadrature points.
Implements libMesh::FEAbstract.
Definition at line 921 of file fe_subdivision_2D.C.
|
inherited |
Definition at line 199 of file fe_side_hierarchic.C.
|
inherited |
Definition at line 213 of file fe_side_hierarchic.C.
|
inherited |
Definition at line 228 of file fe_side_hierarchic.C.
|
staticinherited |
Build the nodal soln on one side from the (full) element soln.
This is the solution that will be plotted on side-elements.
On a p-refined element, o
should be the base order of the element.
|
protectedinherited |
Whether to add p-refinement levels in init/reinit methods.
Definition at line 756 of file fe_abstract.h.
Referenced by libMesh::FEAbstract::add_p_level_in_reinit().
|
staticprotectedinherited |
Actually holds the data.
Definition at line 124 of file reference_counter.h.
Referenced by libMesh::ReferenceCounter::get_info().
|
protectedinherited |
The element p-refinement level the current data structures are set up for.
Note that this is different from _p_level
which is the p-refinement level this finite elment object is operating at, e.g. how many dofs per elem, etc. On the other hand, this data member can indicate things like the order of the quadrature rule. We will use this primarily to determine whether cached data is still valid
Definition at line 726 of file fe_abstract.h.
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staticprotectedinherited |
Flag to control whether reference count information is printed when print_info is called.
Definition at line 143 of file reference_counter.h.
Referenced by libMesh::ReferenceCounter::disable_print_counter_info(), libMesh::ReferenceCounter::enable_print_counter_info(), and libMesh::ReferenceCounter::print_info().
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protectedinherited |
Definition at line 633 of file fe_abstract.h.
Referenced by libMesh::FEAbstract::get_curvatures(), libMesh::FEAbstract::get_d2xyzdeta2(), libMesh::FEAbstract::get_d2xyzdetadzeta(), libMesh::FEAbstract::get_d2xyzdxi2(), libMesh::FEAbstract::get_d2xyzdxideta(), libMesh::FEAbstract::get_d2xyzdxidzeta(), libMesh::FEAbstract::get_d2xyzdzeta2(), libMesh::FEAbstract::get_detadx(), libMesh::FEAbstract::get_detady(), libMesh::FEAbstract::get_detadz(), libMesh::FEAbstract::get_dxidx(), libMesh::FEAbstract::get_dxidy(), libMesh::FEAbstract::get_dxidz(), libMesh::FEAbstract::get_dxyzdeta(), libMesh::FEAbstract::get_dxyzdxi(), libMesh::FEAbstract::get_dxyzdzeta(), libMesh::FEAbstract::get_dzetadx(), libMesh::FEAbstract::get_dzetady(), libMesh::FEAbstract::get_dzetadz(), libMesh::FEAbstract::get_fe_map(), libMesh::FEAbstract::get_JxW(), libMesh::FEAbstract::get_normals(), libMesh::FEAbstract::get_tangents(), libMesh::FEAbstract::get_xyz(), libMesh::FEAbstract::print_JxW(), and libMesh::FEAbstract::print_xyz().
|
protectedinherited |
|
staticprotectedinherited |
Mutual exclusion object to enable thread-safe reference counting.
Definition at line 137 of file reference_counter.h.
|
staticprotectedinherited |
The number of objects.
Print the reference count information when the number returns to 0.
Definition at line 132 of file reference_counter.h.
Referenced by libMesh::ReferenceCounter::n_objects(), libMesh::ReferenceCounter::ReferenceCounter(), and libMesh::ReferenceCounter::~ReferenceCounter().
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protectedinherited |
The p refinement level the current data structures are set up for.
Definition at line 732 of file fe_abstract.h.
Referenced by libMesh::FEAbstract::get_order(), and libMesh::FEAbstract::get_p_level().
|
protectedinherited |
|
mutableprotectedinherited |
Should we calculate shape function curls?
Definition at line 691 of file fe_abstract.h.
Referenced by libMesh::FEGenericBase< FEOutputType< T >::type >::calculating_nothing(), and libMesh::FEGenericBase< FEOutputType< T >::type >::get_curl_phi().
|
mutableprotectedinherited |
Should we calculate shape function hessians?
Definition at line 681 of file fe_abstract.h.
Referenced by libMesh::FEGenericBase< FEOutputType< T >::type >::calculating_nothing(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phi(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phideta2(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidetadzeta(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidx2(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidxdy(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidxdz(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidxi2(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidxideta(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidxidzeta(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidy2(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidydz(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidz2(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidzeta2(), and libMesh::FEGenericBase< FEOutputType< T >::type >::get_dual_d2phi().
|
protectedinherited |
Definition at line 684 of file fe_abstract.h.
|
mutableprotectedinherited |
Are we calculating the coefficient for the dual basis using the default qrule?
Definition at line 655 of file fe_abstract.h.
Referenced by libMesh::FEAbstract::set_calculate_default_dual_coeff().
|
mutableprotectedinherited |
Should we calculate shape function divergences?
Definition at line 696 of file fe_abstract.h.
Referenced by libMesh::FEGenericBase< FEOutputType< T >::type >::calculating_nothing(), and libMesh::FEGenericBase< FEOutputType< T >::type >::get_div_phi().
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mutableprotectedinherited |
Should we calculate shape function gradients?
Definition at line 675 of file fe_abstract.h.
Referenced by libMesh::FEGenericBase< FEOutputType< T >::type >::calculating_nothing(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_dphi(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_dphidx(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_dphidy(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_dphidz(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_dual_dphi(), and libMesh::InfFE< Dim, T_radial, T_map >::get_Sobolev_dweight().
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mutableprotectedinherited |
Should we calculate reference shape function gradients?
Definition at line 701 of file fe_abstract.h.
Referenced by libMesh::FEGenericBase< FEOutputType< T >::type >::get_curl_phi(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phi(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phideta2(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidetadzeta(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidx2(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidxdy(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidxdz(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidxi2(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidxideta(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidxidzeta(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidy2(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidydz(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidz2(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidzeta2(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_div_phi(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_dphi(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_dphideta(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_dphidx(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_dphidxi(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_dphidy(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_dphidz(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_dphidzeta(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_dual_d2phi(), and libMesh::FEGenericBase< FEOutputType< T >::type >::get_dual_dphi().
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mutableprotectedinherited |
Are we calculating dual basis?
Definition at line 650 of file fe_abstract.h.
Referenced by libMesh::FEGenericBase< FEOutputType< T >::type >::get_dual_d2phi(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_dual_dphi(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_dual_phi(), and libMesh::FEAbstract::set_calculate_dual().
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mutableprotectedinherited |
Are we calculating mapping functions?
Definition at line 665 of file fe_abstract.h.
Referenced by libMesh::FEGenericBase< FEOutputType< T >::type >::calculating_nothing(), libMesh::FEAbstract::get_curvatures(), libMesh::InfFE< Dim, T_radial, T_map >::get_curvatures(), libMesh::FEAbstract::get_d2xyzdeta2(), libMesh::InfFE< Dim, T_radial, T_map >::get_d2xyzdeta2(), libMesh::FEAbstract::get_d2xyzdetadzeta(), libMesh::InfFE< Dim, T_radial, T_map >::get_d2xyzdetadzeta(), libMesh::FEAbstract::get_d2xyzdxi2(), libMesh::InfFE< Dim, T_radial, T_map >::get_d2xyzdxi2(), libMesh::FEAbstract::get_d2xyzdxideta(), libMesh::InfFE< Dim, T_radial, T_map >::get_d2xyzdxideta(), libMesh::FEAbstract::get_d2xyzdxidzeta(), libMesh::InfFE< Dim, T_radial, T_map >::get_d2xyzdxidzeta(), libMesh::FEAbstract::get_d2xyzdzeta2(), libMesh::InfFE< Dim, T_radial, T_map >::get_d2xyzdzeta2(), libMesh::FEAbstract::get_detadx(), libMesh::InfFE< Dim, T_radial, T_map >::get_detadx(), libMesh::FEAbstract::get_detady(), libMesh::InfFE< Dim, T_radial, T_map >::get_detady(), libMesh::FEAbstract::get_detadz(), libMesh::InfFE< Dim, T_radial, T_map >::get_detadz(), libMesh::FEAbstract::get_dxidx(), libMesh::InfFE< Dim, T_radial, T_map >::get_dxidx(), libMesh::FEAbstract::get_dxidy(), libMesh::InfFE< Dim, T_radial, T_map >::get_dxidy(), libMesh::FEAbstract::get_dxidz(), libMesh::InfFE< Dim, T_radial, T_map >::get_dxidz(), libMesh::FEAbstract::get_dxyzdeta(), libMesh::InfFE< Dim, T_radial, T_map >::get_dxyzdeta(), libMesh::FEAbstract::get_dxyzdxi(), libMesh::InfFE< Dim, T_radial, T_map >::get_dxyzdxi(), libMesh::InfFE< Dim, T_radial, T_map >::get_dxyzdzeta(), libMesh::FEAbstract::get_dzetadx(), libMesh::InfFE< Dim, T_radial, T_map >::get_dzetadx(), libMesh::FEAbstract::get_dzetady(), libMesh::InfFE< Dim, T_radial, T_map >::get_dzetady(), libMesh::FEAbstract::get_dzetadz(), libMesh::InfFE< Dim, T_radial, T_map >::get_dzetadz(), libMesh::FEAbstract::get_JxW(), libMesh::FEAbstract::get_normals(), libMesh::InfFE< Dim, T_radial, T_map >::get_normals(), libMesh::FEAbstract::get_tangents(), libMesh::InfFE< Dim, T_radial, T_map >::get_tangents(), and libMesh::FEAbstract::get_xyz().
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mutableprotectedinherited |
Are we potentially deliberately calculating nothing?
Definition at line 660 of file fe_abstract.h.
Referenced by libMesh::FEGenericBase< FEOutputType< T >::type >::calculating_nothing(), and libMesh::FEAbstract::get_nothing().
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mutableprotectedinherited |
Should we calculate shape functions?
Definition at line 670 of file fe_abstract.h.
Referenced by libMesh::FEGenericBase< FEOutputType< T >::type >::calculating_nothing(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_phi(), and libMesh::InfFE< Dim, T_radial, T_map >::get_Sobolev_weight().
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mutableprotectedinherited |
Have calculations with this object already been started? Then all get_* functions should already have been called.
Definition at line 645 of file fe_abstract.h.
Referenced by libMesh::FEGenericBase< FEOutputType< T >::type >::get_curl_phi(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phi(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phideta2(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidetadzeta(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidx2(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidxdy(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidxdz(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidxi2(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidxideta(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidxidzeta(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidy2(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidydz(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidz2(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_d2phidzeta2(), libMesh::InfFE< Dim, T_radial, T_map >::get_detadx(), libMesh::InfFE< Dim, T_radial, T_map >::get_detady(), libMesh::InfFE< Dim, T_radial, T_map >::get_detadz(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_div_phi(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_dphi(), libMesh::InfFE< Dim, T_radial, T_map >::get_dphi_over_decay(), libMesh::InfFE< Dim, T_radial, T_map >::get_dphi_over_decayxR(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_dphideta(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_dphidx(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_dphidxi(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_dphidy(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_dphidz(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_dphidzeta(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_dual_d2phi(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_dual_dphi(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_dual_phi(), libMesh::InfFE< Dim, T_radial, T_map >::get_dxidx(), libMesh::InfFE< Dim, T_radial, T_map >::get_dxidy(), libMesh::InfFE< Dim, T_radial, T_map >::get_dxidz(), libMesh::InfFE< Dim, T_radial, T_map >::get_dzetadx(), libMesh::InfFE< Dim, T_radial, T_map >::get_dzetady(), libMesh::InfFE< Dim, T_radial, T_map >::get_dzetadz(), libMesh::InfFE< Dim, T_radial, T_map >::get_JxW(), libMesh::InfFE< Dim, T_radial, T_map >::get_JxWxdecay_sq(), libMesh::InfFE< Dim, T_radial, T_map >::get_normals(), libMesh::FEGenericBase< FEOutputType< T >::type >::get_phi(), libMesh::InfFE< Dim, T_radial, T_map >::get_phi_over_decayxR(), libMesh::InfFE< Dim, T_radial, T_map >::get_Sobolev_dweight(), libMesh::InfFE< Dim, T_radial, T_map >::get_Sobolev_dweightxR_sq(), libMesh::InfFE< Dim, T_radial, T_map >::get_Sobolev_weight(), libMesh::InfFE< Dim, T_radial, T_map >::get_Sobolev_weightxR_sq(), libMesh::InfFE< Dim, T_radial, T_map >::get_tangents(), and libMesh::InfFE< Dim, T_radial, T_map >::get_xyz().
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protectedinherited |
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protectedinherited |
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protectedinherited |
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protectedinherited |
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protectedinherited |
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protectedinherited |
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protectedinherited |
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protectedinherited |
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protectedinherited |
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protectedinherited |
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protectedinherited |
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protectedinherited |
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The dimensionality of the object.
Definition at line 639 of file fe_abstract.h.
Referenced by libMesh::FEAbstract::build(), and libMesh::FEAbstract::get_dim().
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mutableprotectedinherited |
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The element type the current data structures are set up for.
Definition at line 715 of file fe_abstract.h.
Referenced by libMesh::FEAbstract::get_type().
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The finite element type for this object.
Definition at line 709 of file fe_abstract.h.
Referenced by libMesh::FEAbstract::compute_node_constraints(), libMesh::FEAbstract::compute_periodic_node_constraints(), libMesh::FEAbstract::get_family(), libMesh::FEAbstract::get_fe_type(), libMesh::FEAbstract::get_order(), libMesh::InfFE< Dim, T_radial, T_map >::InfFE(), and libMesh::FEAbstract::set_fe_order().
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protectedinherited |
A pointer to the quadrature rule employed.
Definition at line 737 of file fe_abstract.h.
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protectedinherited |
A flag indicating if current data structures correspond to quadrature rule points.
Definition at line 743 of file fe_abstract.h.
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