20 #include "headcpp.hpp"
22 #include "bispheric.hpp"
24 #include "tensor_impl.hpp"
39 if ((bound==ETA_MINUS_BC) || (bound==ETA_PLUS_BC)) {
50 if ((k==0) || (k%2==1)) {
58 double factor_galerkin ;
61 factor_galerkin = (i%2==1) ? -2. : 2. ;
64 factor_galerkin = -double(4*i+1) ;
65 for (
int ii=1 ; ii<=i ; ii++)
66 factor_galerkin *= -
double(2*ii-1)/double(2*ii) ;
69 cerr <<
"Unknown type of basis in Domain_bispheric_eta_first::export_tau_val_domain_boundary" << endl ;
73 pos_galerkin.
set(0) = 0 ;
75 factor_galerkin *
val_boundary (bound, so, pos_galerkin) ;
92 double factor_galerkin ;
95 factor_galerkin = (i%2==1) ? -2. : 2. ;
98 factor_galerkin = -double(4*i+1) ;
99 for (
int ii=1 ; ii<=i ; ii++)
100 factor_galerkin *= -
double(2*ii-1)/double(2*ii) ;
103 cerr <<
"Unknown type of basis in Domain_bispheric_eta_first::export_tau_val_domain_boundary" << endl ;
107 pos_galerkin.
set(0) = 0 ;
109 factor_galerkin *
val_boundary (bound, so, pos_galerkin) ;
114 cerr <<
"Unknown base in Domain_bispheric_eta_first::export_tau_val_domain_boundary" << endl ;
121 if (bound==OUTER_BC) {
124 if ((basep==COS) || ((k!=0) && (k!=
nbr_coefs(2)-1)))
139 if ((bound!=ETA_MINUS_BC) && (bound!=ETA_PLUS_BC) && (bound!=OUTER_BC)) {
140 cerr <<
"Unknown boundary in Domain_bispheric_eta_first::export_tau_boundary" << endl ;
158 else for (
int i=0 ; i<n_cmp ; i++) {
159 if ((*p_cmp[i])(0)==1)
161 if ((*p_cmp[i])(0)==2)
163 if ((*p_cmp[i])(0)==3)
169 cerr <<
"Unknown type of vector Domain_bispheric_eta_first::export_tau_boundary" << endl ;
186 else for (
int i=0 ; i<n_cmp ; i++) {
187 if (((*p_cmp[i])(0)==1) && ((*p_cmp[i])(1)==1))
189 if (((*p_cmp[i])(0)==1) && ((*p_cmp[i])(1)==2))
191 if (((*p_cmp[i])(0)==1) && ((*p_cmp[i])(1)==3))
193 if (((*p_cmp[i])(0)==2) && ((*p_cmp[i])(1)==2))
195 if (((*p_cmp[i])(0)==2) && ((*p_cmp[i])(1)==3))
197 if (((*p_cmp[i])(0)==3) && ((*p_cmp[i])(1)==3))
216 else for (
int i=0 ; i<n_cmp ; i++) {
217 if (((*p_cmp[i])(0)==1) && ((*p_cmp[i])(1)==1))
219 if (((*p_cmp[i])(0)==1) && ((*p_cmp[i])(1)==2))
221 if (((*p_cmp[i])(0)==1) && ((*p_cmp[i])(1)==3))
223 if (((*p_cmp[i])(0)==2) && ((*p_cmp[i])(1)==1))
225 if (((*p_cmp[i])(0)==2) && ((*p_cmp[i])(1)==2))
227 if (((*p_cmp[i])(0)==2) && ((*p_cmp[i])(1)==3))
229 if (((*p_cmp[i])(0)==3) && ((*p_cmp[i])(1)==1))
231 if (((*p_cmp[i])(0)==3) && ((*p_cmp[i])(1)==2))
233 if (((*p_cmp[i])(0)==3) && ((*p_cmp[i])(1)==3))
239 cerr <<
"Unknown type of 2-tensor Domain_bispheric_eta_first::export_tau_boundary" << endl ;
245 cerr <<
"Valence " << val <<
" not implemented in Domain_bispheric_eta_first::export_tau_boundary" << endl ;
reference set(const Index &pos)
Read/write of an element.
Bases_container bases_1d
Arrays containing the various basis of decomposition.
int get_basis(int nd) const
Read only the basis in a given domain.
virtual double val_boundary(int, const Val_domain &, const Index &) const
Computes the value of a field at a boundary.
void export_tau_val_domain_boundary(const Val_domain &eq, int bound, Array< double > &res, int &pos_res, int ncond) const
Exports all the residual equations corresponding to a tensorial one on a given boundary It makes use ...
virtual void export_tau_boundary(const Tensor &, int, int, Array< double > &, int &, const Array< int > &, int n_cmp=-1, Array< int > **p_cmp=0x0) const
Exports all the residual equations corresponding to a tensorial one on a given boundary It makes use ...
Dim_array nbr_coefs
Number of coefficients.
int type_base
Type of colocation point :
Class that gives the position inside a multi-dimensional Array.
int & set(int i)
Read/write of the position in a given dimension.
const Base_tensor & get_basis() const
Returns the vectorial basis (triad) on which the components are defined.
int get_n_comp() const
Returns the number of stored components.
int get_valence() const
Returns the valence.
Class for storing the basis of decompositions of a field and its values on both the configuration and...
bool check_if_zero() const
Check whether the logical state is zero or not.
void coef() const
Computes the coefficients.
const Base_spectral & get_base() const
Returns the basis of decomposition.