#include <deal.II/matrix_free/evaluation_kernels.h>

Static Public Member Functions
template<bool do_evaluate, bool add_into_output>
static void	interpolate (const unsigned int n_components, const EvaluationFlags::EvaluationFlags flags, const MatrixFreeFunctions::ShapeInfo< Number > &shape_info, const Number input, Number output, const unsigned int face_no)

template<bool do_evaluate, bool add_into_output>
static void	interpolate_quadrature (const unsigned int n_components, const EvaluationFlags::EvaluationFlags flags, const MatrixFreeFunctions::ShapeInfo< Number > &shape_info, const Number input, Number output, const unsigned int face_no)

Static Private Member Functions
template<bool do_evaluate, bool add_into_output, int face_direction = 0>
static void	interpolate_generic (const unsigned int n_components, const Number input, Number output, const EvaluationFlags::EvaluationFlags flag, const unsigned int face_no, const unsigned int n_points_1d, const std::array< AlignedVector< Number >, 2 > &shape_data, const unsigned int dofs_per_component_on_cell, const unsigned int dofs_per_component_on_face)

template<typename EvalType >
static EvalType	create_evaluator_tensor_product (const MatrixFreeFunctions::UnivariateShapeData< Number > &data, const unsigned int face_no)

template<bool do_evaluate, bool add_into_output, int face_direction = 0, int max_derivative = 0>
static void	interpolate_generic_raviart_thomas (const unsigned int n_components, const Number input, Number output, const EvaluationFlags::EvaluationFlags flag, const unsigned int face_no, const MatrixFreeFunctions::ShapeInfo< Number > &shape_info)

template<bool do_evaluate, bool add_into_output, int face_direction, int max_derivative>
static void	interpolate_generic_raviart_thomas_apply_face (const MatrixFreeFunctions::ShapeInfo< Number > &shape_info, const unsigned int face_no, const Number input, Number output)

Detailed Description

template<int dim, int fe_degree, typename Number>
struct internal::FEFaceNormalEvaluationImpl< dim, fe_degree, Number >

Definition at line 3540 of file evaluation_kernels.h.

Member Function Documentation

◆ interpolate()

template<int dim, int fe_degree, typename Number >

template<bool do_evaluate, bool add_into_output>

static void internal::FEFaceNormalEvaluationImpl< dim, fe_degree, Number >::interpolate	(	const unsigned int	n_components,
		const EvaluationFlags::EvaluationFlags	flags,
		const MatrixFreeFunctions::ShapeInfo< Number > &	shape_info,
		const Number *	input,
		Number *	output,
		const unsigned int	face_no
	)

inlinestatic

Definition at line 3544 of file evaluation_kernels.h.

◆ interpolate_quadrature()

template<int dim, int fe_degree, typename Number >

template<bool do_evaluate, bool add_into_output>

static void internal::FEFaceNormalEvaluationImpl< dim, fe_degree, Number >::interpolate_quadrature	(	const unsigned int	n_components,
		const EvaluationFlags::EvaluationFlags	flags,
		const MatrixFreeFunctions::ShapeInfo< Number > &	shape_info,
		const Number *	input,
		Number *	output,
		const unsigned int	face_no
	)

inlinestatic

Interpolate the values on the cell quadrature points onto a face.

Definition at line 3576 of file evaluation_kernels.h.

◆ interpolate_generic()

template<int dim, int fe_degree, typename Number >

template<bool do_evaluate, bool add_into_output, int face_direction = 0>

static void internal::FEFaceNormalEvaluationImpl< dim, fe_degree, Number >::interpolate_generic	(	const unsigned int	n_components,
		const Number *	input,
		Number *	output,
		const EvaluationFlags::EvaluationFlags	flag,
		const unsigned int	face_no,
		const unsigned int	n_points_1d,
		const std::array< AlignedVector< Number >, 2 > &	shape_data,
		const unsigned int	dofs_per_component_on_cell,
		const unsigned int	dofs_per_component_on_face
	)

inlinestaticprivate

Definition at line 3604 of file evaluation_kernels.h.

◆ create_evaluator_tensor_product()

template<int dim, int fe_degree, typename Number >

template<typename EvalType >

static EvalType internal::FEFaceNormalEvaluationImpl< dim, fe_degree, Number >::create_evaluator_tensor_product	(	const MatrixFreeFunctions::UnivariateShapeData< Number > &	data,
		const unsigned int	face_no
	)

inlinestaticprivate

Definition at line 3674 of file evaluation_kernels.h.

◆ interpolate_generic_raviart_thomas()

template<int dim, int fe_degree, typename Number >

template<bool do_evaluate, bool add_into_output, int face_direction = 0, int max_derivative = 0>

static void internal::FEFaceNormalEvaluationImpl< dim, fe_degree, Number >::interpolate_generic_raviart_thomas	(	const unsigned int	n_components,
		const Number *	input,
		Number *	output,
		const EvaluationFlags::EvaluationFlags	flag,
		const unsigned int	face_no,
		const MatrixFreeFunctions::ShapeInfo< Number > &	shape_info
	)

inlinestaticprivate

Definition at line 3688 of file evaluation_kernels.h.

◆ interpolate_generic_raviart_thomas_apply_face()

template<int dim, int fe_degree, typename Number >

template<bool do_evaluate, bool add_into_output, int face_direction, int max_derivative>

static void internal::FEFaceNormalEvaluationImpl< dim, fe_degree, Number >::interpolate_generic_raviart_thomas_apply_face	(	const MatrixFreeFunctions::ShapeInfo< Number > &	shape_info,
		const unsigned int	face_no,
		const Number *	input,
		Number *	output
	)

inlinestaticprivate

Definition at line 3756 of file evaluation_kernels.h.

The documentation for this struct was generated from the following file:

include/deal.II/matrix_free/evaluation_kernels.h

Static Public Member Functions

Static Private Member Functions

Detailed Description

template<int dim, int fe_degree, typename Number> struct internal::FEFaceNormalEvaluationImpl< dim, fe_degree, Number >

Member Function Documentation

◆ interpolate()

◆ interpolate_quadrature()

◆ interpolate_generic()

◆ create_evaluator_tensor_product()

◆ interpolate_generic_raviart_thomas()

◆ interpolate_generic_raviart_thomas_apply_face()

template<int dim, int fe_degree, typename Number>
struct internal::FEFaceNormalEvaluationImpl< dim, fe_degree, Number >