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40 template<
unsigned int spacedim>
50 template<
unsigned int spacedim>
53 unsigned int first_component_idx,
57 for (
unsigned int ip=0; ip<
n_points; ip++)
58 for (
unsigned int id=0;
id<dof_indices.size();
id++)
67 template<
unsigned int spacedim>
68 template<
unsigned int DIM>
88 ASSERT(fe_sys !=
nullptr).error(
"Mixed system must be represented by FESystem.");
93 unsigned int comp_offset = 0;
94 for (
auto fe : fe_sys->
fe())
110 ASSERT(
false).error(
"Not implemented.");
122 template<
unsigned int spacedim>
130 template<
unsigned int spacedim>
135 template<
unsigned int spacedim>
136 template<
unsigned int DIM>
142 if (DIM == 0)
return;
144 allocate( q.
size(), _fe, _flags);
145 elm_values = std::make_shared<ElementValues<spacedim> >(q, update_flags, DIM);
151 ASSERT(fe !=
nullptr).error(
"Mixed system must be represented by FESystem.");
153 fe_values_vec.resize(fe->
fe().size());
154 for (
unsigned int f=0; f<fe->
fe().size(); f++)
155 fe_values_vec[f].initialize(q, *fe->
fe()[f], update_flags);
159 if ( q.dim() == DIM )
161 fe_data = init_fe_data(_fe, q);
163 else if ( q.dim() + 1 == DIM )
166 for (
unsigned int sid = 0; sid < RefElement<DIM>::n_sides; sid++)
168 side_fe_data[sid] = init_fe_data(_fe, q.make_from_side<DIM>(sid));
172 ASSERT(
false)(q.dim())(DIM).error(
"Dimension mismatch in FEValues::initialize().");
177 template<
unsigned int spacedim>
178 template<
unsigned int DIM>
180 unsigned int n_points,
187 ASSERT(_fe.
n_components() == spacedim).error(
"FEVector must have spacedim components.");
189 ASSERT(_fe.
n_components() == spacedim*spacedim).error(
"FETensor must have spacedim*spacedim components.");
192 fe_sys_dofs_.clear();
193 fe_sys_n_components_.clear();
194 fe_sys_n_space_components_.clear();
197 n_points_ = n_points;
200 fe_type_ = _fe.
type_;
202 if (fe_sys !=
nullptr)
204 for (
unsigned int f=0; f<fe_sys->
fe().size(); f++)
206 fe_sys_dofs_.push_back(fe_sys->
fe_dofs(f));
207 fe_sys_n_components_.push_back(fe_sys->
fe()[f]->n_components());
208 fe_sys_n_space_components_.push_back(fe_sys->
fe()[f]->n_space_components(spacedim));
216 shape_values.resize(n_points_,
vector<double>(n_dofs_*n_components_));
219 shape_gradients.resize(n_points_,
vector<arma::vec::fixed<spacedim> >(n_dofs_*n_components_));
221 views_cache_.initialize(*
this, _fe);
226 template<
unsigned int spacedim>
227 template<
unsigned int DIM>
232 std::shared_ptr<FEInternalData> data = std::make_shared<FEInternalData>(q.
size(), n_dofs_);
235 for (
unsigned int i=0; i<q.
size(); i++)
237 for (
unsigned int j=0; j<n_dofs_; j++)
242 data->ref_shape_values[i][j] = trans(shape_values.row(j));
247 for (
unsigned int i=0; i<q.
size(); i++)
249 for (
unsigned int j=0; j<n_dofs_; j++)
255 data->ref_shape_grads[i][j] = grad;
275 template<
unsigned int spacedim>
277 const unsigned int point_no,
278 const unsigned int comp)
const
283 return shape_gradients[point_no][function_no*n_components_+comp];
492 template<
unsigned int spacedim>
497 this->fill_data_specialized<MapScalar<spacedim>>(elm_values, fe_data);
500 this->fill_data_specialized<MapVector<spacedim>>(elm_values, fe_data);
503 this->fill_data_specialized<MapContravariant<spacedim>>(elm_values, fe_data);
506 this->fill_data_specialized<MapPiola<spacedim>>(elm_values, fe_data);
509 this->fill_data_specialized<MapTensor<spacedim>>(elm_values, fe_data);
512 this->fill_data_specialized<MapSystem<spacedim>>(elm_values, fe_data);
521 template<
unsigned int spacedim>
522 template<
class MapType>
525 map_type.fill_values_vec(*
this, elm_values, fe_data);
527 map_type.update_values(*
this, elm_values, fe_data);
529 map_type.update_gradients(*
this, elm_values, fe_data);
535 template<
unsigned int spacedim>
540 if (!elm_values->cell().is_valid() ||
541 elm_values->cell() != cell)
543 elm_values->reinit(cell);
546 fill_data(*elm_values, *fe_data);
550 template<
unsigned int spacedim>
555 if (!elm_values->side().is_valid() ||
556 elm_values->side() != cell_side)
558 elm_values->reinit(cell_side);
564 fill_data(*elm_values, *(side_fe_data[sid]) );
575 fv[0].initialize(quadrature[0], *fe[0_d], flags);
576 fv[1].initialize(quadrature[1], *fe[1_d], flags);
577 fv[2].initialize(quadrature[2], *fe[2_d], flags);
578 fv[3].initialize(quadrature[3], *fe[3_d], flags);
Armor::ArmaVec< double, point_dim > point(unsigned int i) const
Returns the ith quadrature point.
~FEValues()
Correct deallocation of objects created by 'initialize' methods.
@ update_gradients
Shape function gradients.
Helper class allows update values and gradients of FEValues of FEVectorPiola type.
unsigned int n_points() const
Returns the number of quadrature points.
arma::vec::fixed< dim > shape_grad(const unsigned int i, const arma::vec::fixed< dim > &p, const unsigned int comp=0) const
Calculates the comp-th component of the gradient of the i-th shape function at the point p on the ref...
FEValues()
Default constructor with postponed initialization.
static UpdateFlags update_each(UpdateFlags flags)
Determines which additional quantities have to be computed.
Class FEValues calculates finite element data on the actual cells such as shape function values,...
@ update_values
Shape function values.
unsigned int n_dofs_
Number of finite element dofs.
unsigned int size() const
Returns number of quadrature points.
void initialize(Quadrature &_quadrature, FiniteElement< DIM > &_fe, UpdateFlags _flags)
Initialize structures and calculates cell-independent data.
unsigned int dim() const
Returns dimension of the side, that is dimension of the element minus one.
void initialize(const FEValues &fv, const FiniteElement< DIM > &fe)
Class FESystem for compound finite elements.
#define ASSERT_LT(a, b)
Definition of comparative assert macro (Less Than) only for debug mode.
Helper class allows update values and gradients of FEValues of FEVector type.
Calculates finite element data on the actual cell.
unsigned int dim_
Dimension of reference space.
unsigned int n_components() const
Returns numer of components of the basis function.
std::vector< FEValues< 3 > > mixed_fe_values(QGauss::array &quadrature, MixedPtr< FiniteElement > fe, UpdateFlags flags)
void fill_data(const ElementValues< spacedim > &elm_values, const FEInternalData &fe_data)
Computes the shape function values and gradients on the actual cell and fills the FEValues structure.
const std::vector< std::shared_ptr< FiniteElement< dim > > > & fe() const
virtual UpdateFlags update_each(UpdateFlags flags)
Decides which additional quantities have to be computed for each cell.
Structure for storing the precomputed finite element data.
ArmaMat< double, N, M > mat
#define ASSERT_PERMANENT(expr)
Allow use shorter versions of macro names if these names is not used with external library.
FEType type_
Type of FiniteElement.
std::vector< std::vector< arma::mat > > ref_shape_grads
Precomputed gradients of basis functions at the quadrature points.
Abstract class for description of finite elements.
Helper class allows update values and gradients of FEValues of FETensor type.
std::array< QGauss, 4 > array
#define ASSERT_EQ(a, b)
Definition of comparative assert macro (EQual) only for debug mode.
unsigned int side_idx() const
Returns local index of the side on the element.
Helper class allows update values and gradients of FEValues of FEMixedSystem type.
Abstract class for the description of a general finite element on a reference simplex in dim dimensio...
unsigned int n_dofs() const
Returns the number of degrees of freedom needed by the finite element.
Class for computation of data on cell and side.
std::vector< std::vector< arma::vec > > ref_shape_values
Precomputed values of basis functions at the quadrature points.
unsigned int n_points_
Number of integration points.
int LongIdx
Define type that represents indices of large arrays (elements, nodes, dofs etc.)
Helper class allows update values and gradients of FEValues of FEScalar type.
std::vector< unsigned int > fe_dofs(unsigned int fe_index)
Return dof indices belonging to given sub-FE.
void allocate(unsigned int n_points, FiniteElement< DIM > &_fe, UpdateFlags flags)
Allocates space for computed data.
Basic definitions of numerical quadrature rules.
void fill_data_specialized(const ElementValues< spacedim > &elm_values, const FEInternalData &fe_data)
Computes the shape function values and gradients on the actual cell and fills the FEValues structure....
arma::vec::fixed< spacedim > shape_grad_component(const unsigned int function_no, const unsigned int point_no, const unsigned int comp) const
Return the gradient of the function_no-th shape function at the point_no-th quadrature point.
Class ElementValues calculates data related to transformation of reference cell to actual cell (Jacob...
UpdateFlags
Enum type UpdateFlags indicates which quantities are to be recomputed on each finite element cell.
Class MappingP1 implements the affine transformation of the unit cell onto the actual cell.
void reinit(const ElementAccessor< spacedim > &cell)
Update cell-dependent data (gradients, Jacobians etc.)
Base class for quadrature rules on simplices in arbitrary dimensions.
Compound finite element on dim dimensional simplex.
std::shared_ptr< FEInternalData > init_fe_data(const FiniteElement< DIM > &fe, const Quadrature &q)
Precompute finite element data on reference element.
Helper class allows update values and gradients of FEValues of FEVectorContravariant type.
unsigned int n_space_components(unsigned int spacedim)
Number of components of FE in a mapped space with dimension spacedim.
FEInternalData(unsigned int np, unsigned int nd)
unsigned int n_points
Number of quadrature points.
double shape_value(const unsigned int i, const arma::vec::fixed< dim > &p, const unsigned int comp=0) const
Calculates the value of the comp-th component of the i-th shape function at the point p on the refere...