basis_bubble< T >

Detailed Description

template<class T>
class rheolef::basis_bubble< T >

Definition at line 31 of file bubble.h.

Inheritance diagram for basis_bubble< T >:

Public Types
typedef basis_rep< T >	base
typedef base::size_type	size_type
Public Types inherited from basis_rep< T >
typedef reference_element::size_type	size_type
typedef T	value_type
typedef space_constant::valued_type	valued_type

Public Member Functions
	basis_bubble ()
	~basis_bubble ()
std::string	name () const
bool	have_index_parameter () const
std::string	family_name () const
bool	have_compact_support_inside_element () const
size_type	degree () const
bool	is_nodal () const
void	evaluate (reference_element hat_K, const point_basic< T > &hat_x, Eigen::Matrix< T, Eigen::Dynamic, 1 > &values) const
void	grad_evaluate (reference_element hat_K, const point_basic< T > &hat_x, Eigen::Matrix< point_basic< T >, Eigen::Dynamic, 1 > &values) const
void	_compute_dofs (reference_element hat_K, const Eigen::Matrix< T, Eigen::Dynamic, 1 > &f_xnod, Eigen::Matrix< T, Eigen::Dynamic, 1 > &dof) const
void	_initialize_cstor_sizes () const
void	_initialize_data (reference_element hat_K) const
const Eigen::Matrix< point_basic< T >, Eigen::Dynamic, 1 > &	hat_node (reference_element hat_K) const
Public Member Functions inherited from basis_rep< T >
	basis_rep (const basis_option &sopt)
virtual	~basis_rep ()
virtual size_type	family_index () const
std::string	name () const
virtual valued_type	valued_tag () const
virtual bool	have_continuous_feature () const
virtual bool	is_hierarchical () const
virtual size_type	size () const
virtual const class basis_basic< T > &	operator[] (size_type i_comp) const
const basis_option &	option () const
const std::string &	valued () const
bool	is_continuous () const
bool	is_discontinuous () const
size_type	ndof (reference_element hat_K) const
size_type	nnod (reference_element hat_K) const
size_type	ndof_on_subgeo (size_type map_dim, size_type subgeo_variant) const
size_type	nnod_on_subgeo (size_type map_dim, size_type subgeo_variant) const
size_type	first_idof_by_dimension (reference_element hat_K, size_type dim) const
size_type	first_inod_by_dimension (reference_element hat_K, size_type dim) const
size_type	ndof_internal (reference_element hat_K) const
size_type	nnod_internal (reference_element hat_K) const
size_type	ndof_on_subgeo_internal (size_type map_dim, size_type subgeo_variant) const
size_type	nnod_on_subgeo_internal (size_type map_dim, size_type subgeo_variant) const
size_type	first_idof_by_dimension_internal (reference_element hat_K, size_type dim) const
size_type	first_inod_by_dimension_internal (reference_element hat_K, size_type dim) const
virtual size_type	local_ndof_on_side (reference_element hat_K, const side_information_type &sid) const
virtual void	local_idof_on_side (reference_element hat_K, const side_information_type &sid, Eigen::Matrix< size_type, Eigen::Dynamic, 1 > &loc_idof) const
virtual const Eigen::Matrix< T, Eigen::Dynamic, Eigen::Dynamic > &	vdm (reference_element hat_K) const
virtual const Eigen::Matrix< T, Eigen::Dynamic, Eigen::Dynamic > &	inv_vdm (reference_element hat_K) const
const piola_fem< T > &	get_piola_fem () const
	_RHEOLEF_evaluate (evaluate,"scalar", T) _RHEOLEF_evaluate(evaluate
point_basic< T >	_RHEOLEF_evaluate (evaluate,"tensor", tensor_basic< T >) _RHEOLEF_evaluate(evaluate
point_basic< T > tensor3_basic< T >	_RHEOLEF_evaluate (evaluate,"tensor4", tensor4_basic< T >) _RHEOLEF_evaluate(grad_evaluate
point_basic< T > tensor3_basic< T > T	_RHEOLEF_evaluate (grad_evaluate,"vector", point_basic< T >) _RHEOLEF_evaluate(grad_evaluate
point_basic< T > tensor3_basic< T > T tensor_basic< T >	_RHEOLEF_evaluate (grad_evaluate,"tensor3", tensor3_basic< T >) _RHEOLEF_evaluate(grad_evaluate
	_RHEOLEF_evaluate_on_side ("scalar", T) _RHEOLEF_evaluate_on_side("vector"
	_RHEOLEF_compute_dofs ("scalar", T) _RHEOLEF_compute_dofs("vector"
point_basic< T > virtual _RHEOLEF_compute_dofs("tensor", tensor_basic< T >) void put(std void	put_scalar_valued (std::ostream &os, reference_element hat_K) const
virtual void	put_vector_valued (std::ostream &os, reference_element hat_K) const
void	put_hat_node (std::ostream &os, reference_element hat_K) const
void	put_hat_node_on_side (std::ostream &os, reference_element hat_K, const side_information_type &sid) const
void	_initialize_data_guard (reference_element hat_K) const
void	_clear () const

Public Attributes
std::array< Eigen::Matrix< point_basic< T >, Eigen::Dynamic, 1 >, reference_element::max_variant >	_hat_node
Public Attributes inherited from basis_rep< T >
	vector
point_basic< T >	tensor3
point_basic< T > tensor3_basic< T >	scalar
point_basic< T > tensor3_basic< T > T	tensor
point_basic< T > tensor3_basic< T > T tensor_basic< T >	tensor4

Additional Inherited Members
Static Public Member Functions inherited from basis_rep< T >
static basis_rep *	make_ptr (const std::string &name)
static std::string	standard_naming (std::string family_name, size_t degree, const basis_option &sopt)
static bool	have_index_parameter (std::string family_name)
static bool	have_continuous_feature (std::string family_name)
static void	_helper_initialize_first_ixxx_by_dimension_from_nxxx_on_subgeo (const std::array< std::array< size_type, reference_element::max_variant >, 4 > &_nxxx_on_subgeo, std::array< std::array< size_type, 5 >, reference_element::max_variant > &_first_ixxx_by_dimension)
static void	_helper_make_discontinuous_ndof_on_subgeo (bool is_continuous, const std::array< std::array< size_type, reference_element::max_variant >, 4 > &nxxx_on_subgeo_internal, std::array< std::array< size_type, reference_element::max_variant >, 4 > &nxxx_on_subgeo)
Protected Attributes inherited from basis_rep< T >
std::string	_name
basis_option	_sopt
piola_fem< T >	_piola_fem
std::array< bool, reference_element::max_variant >	_have_initialize_data
std::array< std::array< size_type,reference_element::max_variant >,4 >	_ndof_on_subgeo_internal
std::array< std::array< size_type,reference_element::max_variant >,4 >	_ndof_on_subgeo
std::array< std::array< size_type,reference_element::max_variant >,4 >	_nnod_on_subgeo_internal
std::array< std::array< size_type,reference_element::max_variant >,4 >	_nnod_on_subgeo
std::array< std::array< size_type,5 >,reference_element::max_variant >	_first_idof_by_dimension_internal
std::array< std::array< size_type,5 >,reference_element::max_variant >	_first_idof_by_dimension
std::array< std::array< size_type,5 >,reference_element::max_variant >	_first_inod_by_dimension_internal
std::array< std::array< size_type,5 >,reference_element::max_variant >	_first_inod_by_dimension

Member Typedef Documentation

base

template<class T>

typedef basis_rep<T> base

Definition at line 33 of file bubble.h.

size_type

template<class T>

typedef base::size_type size_type

Definition at line 34 of file bubble.h.

Constructor & Destructor Documentation

basis_bubble()

template<class T>

basis_bubble

(

)

Definition at line 165 of file bubble.cc.

~basis_bubble()

template<class T>

~basis_bubble

(

)

Definition at line 173 of file bubble.cc.

Member Function Documentation

name()

template<class T>

std::string name

(

)

const

Definition at line 37 of file bubble.h.

have_index_parameter()

template<class T>

bool have_index_parameter ( ) const

virtual

Reimplemented from basis_rep< T >.

Definition at line 38 of file bubble.h.

family_name()

template<class T>

std::string family_name ( ) const

virtual

Implements basis_rep< T >.

Definition at line 39 of file bubble.h.

have_compact_support_inside_element()

template<class T>

bool have_compact_support_inside_element ( ) const

virtual

Reimplemented from basis_rep< T >.

Definition at line 40 of file bubble.h.

degree()

template<class T>

basis_bubble< T >::size_type degree ( ) const

virtual

Implements basis_rep< T >.

Definition at line 178 of file bubble.cc.

is_nodal()

template<class T>

bool is_nodal ( ) const

virtual

Implements basis_rep< T >.

Definition at line 42 of file bubble.h.

evaluate()

template<class T>

void evaluate	(	reference_element	hat_K,
		const point_basic< T > &	hat_x,
		Eigen::Matrix< T, Eigen::Dynamic, 1 > &	values ) const

Definition at line 184 of file bubble.cc.

grad_evaluate()

template<class T>

void grad_evaluate	(	reference_element	hat_K,
		const point_basic< T > &	hat_x,
		Eigen::Matrix< point_basic< T >, Eigen::Dynamic, 1 > &	values ) const

Definition at line 209 of file bubble.cc.

_compute_dofs()

template<class T>

void _compute_dofs	(	reference_element	hat_K,
		const Eigen::Matrix< T, Eigen::Dynamic, 1 > &	f_xnod,
		Eigen::Matrix< T, Eigen::Dynamic, 1 > &	dof ) const

Definition at line 234 of file bubble.cc.

_initialize_cstor_sizes()

template<class T>

void _initialize_cstor_sizes ( ) const

virtual

Implements basis_rep< T >.

Definition at line 243 of file bubble.cc.

_initialize_data()

template<class T>

void _initialize_data ( reference_element hat_K ) const

virtual

Implements basis_rep< T >.

Definition at line 259 of file bubble.cc.

hat_node()

template<class T>

const Eigen::Matrix< point_basic< T >, Eigen::Dynamic, 1 > & hat_node ( reference_element hat_K ) const

virtual

Reimplemented from basis_rep< T >.

Definition at line 57 of file bubble.h.

Member Data Documentation

_hat_node

template<class T>

std::array< Eigen::Matrix<point_basic<T>,Eigen::Dynamic,1>, reference_element::max_variant> _hat_node

mutable

Definition at line 62 of file bubble.h.

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The documentation for this class was generated from the following files:

• /build/rheolef-L67pNR/rheolef-7.2/fem/lib/bubble.h
• /build/rheolef-L67pNR/rheolef-7.2/fem/lib/bubble.cc