KADATH
domain_polar_periodic_shell_affecte_tau_one_coef.cpp
1 /*
2  Copyright 2017 Philippe Grandclement
3 
4  This file is part of Kadath.
5 
6  Kadath is free software: you can redistribute it and/or modify
7  it under the terms of the GNU General Public License as published by
8  the Free Software Foundation, either version 3 of the License, or
9  (at your option) any later version.
10 
11  Kadath is distributed in the hope that it will be useful,
12  but WITHOUT ANY WARRANTY; without even the implied warranty of
13  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14  GNU General Public License for more details.
15 
16  You should have received a copy of the GNU General Public License
17  along with Kadath. If not, see <http://www.gnu.org/licenses/>.
18 */
19 
20 #include "headcpp.hpp"
21 #include "polar_periodic.hpp"
22 #include "point.hpp"
23 #include "array_math.hpp"
24 #include "scalar.hpp"
25 #include "tensor_impl.hpp"
26 #include "tensor.hpp"
27 namespace Kadath {
28 void Domain_polar_periodic_shell::affecte_tau_one_coef_val_domain (Val_domain& so, int cc, int& conte) const {
29 
30  so.is_zero = false ;
31  so.allocate_coef() ;
32  *so.cf=0. ;
33  Index pos_cf(nbr_coefs) ;
34 
35  bool found = false ;
36 
37  int basetime = (*so.get_base().bases_1d[2]) (0) ;
38 int mink, maxk ;
39  switch (basetime) {
40  case COS :
41  mink=0 ;
42  maxk=nbr_coefs(2) ;
43  break ;
44  case SIN :
45  mink=1 ;
46  maxk=nbr_coefs(2)-1 ;
47  break ;
48  default :
49  cerr << "Unknown basis in Domain_polar_periodic_shell_affecte_tau_val_domain" << endl ;
50  abort() ;
51  }
52  // Loop on time
53  for (int k=mink ; k<maxk ; k++) {
54 
55  pos_cf.set(2) = k ;
56  // Loop on theta
57  int baset = (*so.get_base().bases_1d[1]) (k) ;
58  int minj, maxj ;
59  switch (baset) {
60  case COS_EVEN :
61  minj=0 ;
62  maxj=nbr_coefs(1) ;
63  break ;
64  case COS_ODD :
65  minj=0 ;
66  maxj=nbr_coefs(1)-1 ;
67  break ;
68  case SIN_EVEN :
69  minj=1 ;
70  maxj=nbr_coefs(1)-1 ;
71  break ;
72  case SIN_ODD :
73  minj=0 ;
74  maxj=nbr_coefs(1)-1 ;
75  break ;
76 
77  default :
78  cerr << "Unknown theta basis in Domain_polar_periodic_shell_affecte_tau_val_domain" << endl ;
79  abort() ;
80  }
81 
82  for (int j=minj ; j<maxj ; j++) {
83  int baser = (*so.get_base().bases_1d[0]) (j,k) ;
84 
85  pos_cf.set(1) = j ;
86  // Loop on r :
87  for (int i=0 ; i<nbr_coefs(0) ; i++) {
88  pos_cf.set(0) = i ;
89  // No garlekin
90  if (conte==cc) {
91  found = true ;
92  so.cf->set(pos_cf) = 1. ;
93  }
94  conte ++ ;
95  } // end loop i
96  } // end loop j
97  } // end loop k
98  // If not found put to zero :
99  if (!found)
100  so.set_zero() ;
101 }
102 
103 
104 void Domain_polar_periodic_shell::affecte_tau_one_coef (Tensor& tt, int dom, int cc, int& pos_cf) const {
105 
106  // Check right domain
107  assert (tt.get_space().get_domain(dom)==this) ;
108 
109  int val = tt.get_valence() ;
110  switch (val) {
111  case 0 :
112  affecte_tau_one_coef_val_domain (tt.set().set_domain(dom), cc, pos_cf) ;
113  break ;
114  case 1 :
115  affecte_tau_one_coef_val_domain (tt.set(1).set_domain(dom), cc, pos_cf) ;
116  affecte_tau_one_coef_val_domain (tt.set(2).set_domain(dom), cc, pos_cf) ;
117  affecte_tau_one_coef_val_domain (tt.set(3).set_domain(dom), cc, pos_cf) ;
118  break ;
119  case 2 :
120  // symetric
121  if (tt.get_n_comp()==6) {
122  affecte_tau_one_coef_val_domain (tt.set(1,1).set_domain(dom), cc, pos_cf) ;
123  affecte_tau_one_coef_val_domain (tt.set(1,2).set_domain(dom), cc, pos_cf) ;
124  affecte_tau_one_coef_val_domain (tt.set(1,3).set_domain(dom), cc, pos_cf) ;
125  affecte_tau_one_coef_val_domain (tt.set(2,2).set_domain(dom), cc, pos_cf) ;
126  affecte_tau_one_coef_val_domain (tt.set(2,3).set_domain(dom), cc, pos_cf) ;
127  affecte_tau_one_coef_val_domain (tt.set(3,3).set_domain(dom), cc, pos_cf) ;
128  }
129  // not symetric
130  if (tt.get_n_comp()==9) {
131  affecte_tau_one_coef_val_domain (tt.set(1,1).set_domain(dom), cc, pos_cf) ;
132  affecte_tau_one_coef_val_domain (tt.set(1,2).set_domain(dom), cc, pos_cf) ;
133  affecte_tau_one_coef_val_domain (tt.set(1,3).set_domain(dom), cc, pos_cf) ;
134  affecte_tau_one_coef_val_domain (tt.set(2,1).set_domain(dom), cc, pos_cf) ;
135  affecte_tau_one_coef_val_domain (tt.set(2,2).set_domain(dom), cc, pos_cf) ;
136  affecte_tau_one_coef_val_domain (tt.set(2,3).set_domain(dom), cc, pos_cf) ;
137  affecte_tau_one_coef_val_domain (tt.set(3,1).set_domain(dom), cc, pos_cf) ;
138  affecte_tau_one_coef_val_domain (tt.set(3,2).set_domain(dom), cc, pos_cf) ;
139  affecte_tau_one_coef_val_domain (tt.set(3,3).set_domain(dom), cc, pos_cf) ;
140  }
141  break ;
142  default :
143  cerr << "Valence " << val << " not implemented in Domain_polar_shell::affecte_tau" << endl ;
144  abort() ;
145  break ;
146  }
147 }}
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_periodic_shell::affecte_tau_one_coef_val_domain
void affecte_tau_one_coef_val_domain(Val_domain &so, int cc, int &pos_cf) const
Sets at most one coefficient of a Val_domain to 1.
Definition: domain_polar_periodic_shell_affecte_tau_one_coef.cpp:28
Kadath::Domain_polar_periodic_shell::affecte_tau_one_coef
virtual void affecte_tau_one_coef(Tensor &, int, int, int &) const
Sets at most one coefficient of a Tensor to 1.
Definition: domain_polar_periodic_shell_affecte_tau_one_coef.cpp:104
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::Scalar::set_domain
Val_domain & set_domain(int)
Read/write of a particular Val_domain.
Definition: scalar.hpp:555
Kadath::Space::get_domain
const Domain * get_domain(int i) const
returns a pointer on the domain.
Definition: space.hpp:1385
Kadath::Tensor
Tensor handling.
Definition: tensor.hpp:149
Kadath::Tensor::set
Scalar & set(const Array< int > &ind)
Returns the value of a component (read/write version).
Definition: tensor_impl.hpp:91
Kadath::Tensor::get_n_comp
int get_n_comp() const
Returns the number of stored components.
Definition: tensor.hpp:514
Kadath::Tensor::get_valence
int get_valence() const
Returns the valence.
Definition: tensor.hpp:509
Kadath::Tensor::get_space
const Space & get_space() const
Returns the Space.
Definition: tensor.hpp:499
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::set_zero
void set_zero()
Sets the Val_domain to zero (logical state to zero and arrays destroyed).
Definition: val_domain.cpp:223
Kadath::Val_domain::allocate_coef
void allocate_coef()
Allocates the values in the coefficient space and destroys the values in the configuration space.
Definition: val_domain.cpp:216
Kadath::Val_domain::cf
Array< double > * cf
Pointer on the Array of the values in the coefficients space.
Definition: val_domain.hpp:77
Kadath::Val_domain::is_zero
bool is_zero
Indicator used for null fields (for speed issues).
Definition: val_domain.hpp:74
Kadath::Val_domain::get_base
const Base_spectral & get_base() const
Returns the basis of decomposition.
Definition: val_domain.hpp:122