static/doxygen/domain__polar__compact__export__tau__boundary_8cpp_source.html

 /*

     Copyright 2017 Philippe Grandclement


     This file is part of Kadath.


     Kadath is free software: you can redistribute it and/or modify

     it under the terms of the GNU General Public License as published by

     the Free Software Foundation, either version 3 of the License, or

     (at your option) any later version.


     Kadath is distributed in the hope that it will be useful,

     but WITHOUT ANY WARRANTY; without even the implied warranty of

     MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the

     GNU General Public License for more details.


     You should have received a copy of the GNU General Public License

     along with Kadath.  If not, see <http://www.gnu.org/licenses/>.

 */


 #include "headcpp.hpp"

 #include "polar.hpp"

 #include "point.hpp"

 #include "array_math.hpp"

 #include "scalar.hpp"

 #include "tensor_impl.hpp"

 #include "tensor.hpp"


 namespace Kadath {

 void Domain_polar_compact::export_tau_val_domain_boundary (const Val_domain& so, int mquant, int bound, Array<double>& sec, int& pos_sec, int ncond) const {


     if (so.check_if_zero())

         pos_sec += ncond ;

     else {

     so.coef() ;

     Index pos_cf (nbr_coefs) ;

     Index pos_galerkin (nbr_coefs) ;


     // Loop on theta

     int baset = (*so.get_base().bases_1d[1]) (0) ;

     for (int j=0 ; j<nbr_coefs(1) ; j++) {

         pos_cf.set(1) = j ;

         switch (baset) {

             case COS_EVEN:

                 if (mquant==0) {

                     sec.set(pos_sec) = val_boundary(bound, so, pos_cf) ;

                     pos_sec ++ ;

                     }

                     else if (j!=0) {

                         // Galerkin base

                         pos_galerkin = pos_cf ;

                         pos_galerkin.set(1) = 0 ;

                         sec.set(pos_sec) = val_boundary(bound, so, pos_cf)

                             -2.*val_boundary(bound, so, pos_galerkin) ;

                         pos_sec ++ ;

                     }

                 break ;

             case COS_ODD:

                 if (j!=nbr_coefs(1)-1) {

                     if (mquant==0) {

                         sec.set(pos_sec) = val_boundary(bound, so, pos_cf) ;

                         pos_sec ++ ;

                     }

                     else if (j!=0) {

                         // Galerkin base

                         pos_galerkin = pos_cf ;

                         pos_galerkin.set(1) = 0 ;

                         sec.set(pos_sec) = val_boundary(bound, so, pos_cf)

                             -val_boundary(bound, so, pos_galerkin) ;

                         pos_sec ++ ;

                     }}

                 break ;

             case SIN_EVEN:

                 if ((j!=0) && (j!=nbr_coefs(1)-1)) {

                     if (mquant<=1) {

                     sec.set(pos_sec) = val_boundary(bound, so, pos_cf) ;

                     pos_sec ++ ;

                     }

                     else if (j!=1) {

                         pos_galerkin = pos_cf ;

                         pos_galerkin.set(1) = 1 ;

                         sec.set(pos_sec) = val_boundary(bound, so, pos_cf)

                             -j*val_boundary(bound, so, pos_galerkin) ;

                         pos_sec ++ ;

                     }}

                 break ;

             case SIN_ODD:

                 if (j!=nbr_coefs(1)-1) {

                     if (mquant<=1) {

                     sec.set(pos_sec) = val_boundary(bound, so, pos_cf) ;

                     pos_sec ++ ;

                     }

                     else if (j!=0) {

                         pos_galerkin = pos_cf ;

                         pos_galerkin.set(1) = 0 ;

                         sec.set(pos_sec) = val_boundary(bound, so, pos_cf)

                             -(2*j+1)*val_boundary(bound, so, pos_galerkin) ;

                         pos_sec ++ ;

                     }}

                 break ;

             default:

                 cerr << "Unknow theta basis in Domain_polar_compact::export_tau_val_domain_boundary" << endl ;

                 abort() ;

           }

         }

     }

 }


 void Domain_polar_compact::export_tau_boundary (const Tensor& tt, int dom, int bound, Array<double>& res, int& pos_res, const Array<int>& ncond,

                                         int, Array<int>**) const {


     // Check boundary

     if ((bound!=INNER_BC) && (bound!=OUTER_BC)) {

         cerr << "Unknown boundary in Domain_polar_compact::export_tau_boundary" << endl ;

         abort() ;

     }


     int val = tt.get_valence() ;

     switch (val) {

         case 0 :

             if (!tt.is_m_quant_affected())

               export_tau_val_domain_boundary (tt()(dom), 0, bound, res, pos_res, ncond(0)) ;

             else

                 export_tau_val_domain_boundary (tt()(dom), tt.get_parameters().get_m_quant(), bound, res, pos_res, ncond(0)) ;

             break ;

         default :

             cerr << "Valence " << val << " not implemented in Domain_polar_compact::export_tau_boundary" << endl ;

             break ;

     }

 }}

Kadath::Array< double >

Kadath::Array::set
reference set(const Index &pos)
Read/write of an element.
Definition: array.hpp:186

Kadath::Base_spectral::bases_1d
Bases_container bases_1d
Arrays containing the various basis of decomposition.
Definition: base_spectral.hpp:82

Kadath::Domain_polar_compact::export_tau_boundary
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 ...
Definition: domain_polar_compact_export_tau_boundary.cpp:108

Kadath::Domain_polar_compact::val_boundary
virtual double val_boundary(int, const Val_domain &, const Index &) const
Computes the value of a field at a boundary.
Definition: domain_polar_compact_systems.cpp:39

Kadath::Domain_polar_compact::export_tau_val_domain_boundary
void export_tau_val_domain_boundary(const Val_domain &eq, int mquant, 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 ...
Definition: domain_polar_compact_export_tau_boundary.cpp:29

Kadath::Domain::nbr_coefs
Dim_array nbr_coefs
Number of coefficients.
Definition: space.hpp:66

Kadath::Index
Class that gives the position inside a multi-dimensional Array.
Definition: index.hpp:38

Kadath::Index::set
int & set(int i)
Read/write of the position in a given dimension.
Definition: index.hpp:72

Kadath::Param_tensor::get_m_quant
int get_m_quant() const
Returns .
Definition: tensor.hpp:747

Kadath::Tensor
Tensor handling.
Definition: tensor.hpp:149

Kadath::Tensor::get_parameters
const Param_tensor & get_parameters() const
Returns a pointer on the possible additional parameter.
Definition: tensor.hpp:311

Kadath::Tensor::get_valence
int get_valence() const
Returns the valence.
Definition: tensor.hpp:509

Kadath::Tensor::is_m_quant_affected
bool is_m_quant_affected() const
Checks whether the additional parameter  is affected (used for boson stars for instance).
Definition: tensor.hpp:326

Kadath::Val_domain
Class for storing the basis of decompositions of a field and its values on both the configuration and...
Definition: val_domain.hpp:69

Kadath::Val_domain::check_if_zero
bool check_if_zero() const
Check whether the logical state is zero or not.
Definition: val_domain.hpp:142

Kadath::Val_domain::coef
void coef() const
Computes the coefficients.
Definition: val_domain.cpp:622

Kadath::Val_domain::get_base
const Base_spectral & get_base() const
Returns the basis of decomposition.
Definition: val_domain.hpp:122