an efficient C++ finite element environment
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Go to the documentation of this file. 1 #ifndef _RHEOLEF_BASIS_RAW_MONOMIAL_H
2 #define _RHEOLEF_BASIS_RAW_MONOMIAL_H
34 #include "rheolef/basis_raw.h"
35 #include "rheolef/ad3.h"
64 Eigen::Matrix<T,Eigen::Dynamic,1>&
value)
const;
80 std::vector<point_basic<size_type> >,
83 Eigen::Matrix<point_basic<T>,Eigen::Dynamic,1>,
86 Eigen::Matrix<point_basic<ad3_basic<T> >,Eigen::Dynamic,1>,
91 #endif // _RHEOLEF_BASIS_RAW_MONOMIAL_H
reference_element::size_type size_type
size_type ndof(reference_element hat_K) const
void evaluate(reference_element hat_K, const point_basic< T > &hat_x, Eigen::Matrix< T, Eigen::Dynamic, 1 > &value) const
void grad_evaluate(reference_element hat_K, const point_basic< T > &hat_x, Eigen::Matrix< point_basic< T >, Eigen::Dynamic, 1 > &value) const
see the reference_element page for the full documentation
base::size_type size_type
std::string family_name() const
std::array< Eigen::Matrix< point_basic< T >, Eigen::Dynamic, 1 >, reference_element::max_variant > _hat_x_pow
This file is part of Rheolef.
std::array< std::vector< point_basic< size_type > >, reference_element::max_variant > _power_index
std::array< Eigen::Matrix< point_basic< ad3_basic< T > >, Eigen::Dynamic, 1 >, reference_element::max_variant > _hat_x_ad_pow
static const variant_type max_variant
void _initialize(reference_element hat_K) const
field::size_type size_type
basis_raw_monomial(std::string name)
bool is_hierarchical() const