KADATH
ope_dt.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 "ope_eq.hpp"
21 #include "scalar.hpp"
22 #include "tensor_impl.hpp"
23 namespace Kadath {
24 Ope_dt::Ope_dt (const System_of_eqs* zesys, Ope_eq* target) : Ope_eq(zesys, target->get_dom(), 1) {
25  parts[0] = target ;
26 }
27 
28 Ope_dt::~Ope_dt() {
29 }
30 
31 Term_eq Ope_dt::action() const {
32 
33  Term_eq target (parts[0]->action()) ;
34  // Check it is a tensor
35  if (target.type_data != TERM_T) {
36  cerr << "Ope_dt only defined with respect for a tensor" << endl ;
37  abort() ;
38  }
39  int valence = target.val_t->get_valence() ;
40 
41  // The value
42  Tensor resval (*target.val_t, false) ;
43 
44  for (int i=0 ; i<target.val_t->get_n_comp() ; i++) {
45  Array<int> ind (target.val_t->indices(i)) ;
46  Val_domain value ((*target.val_t)(ind)(dom)) ;
47  if (value.check_if_zero())
48  resval.set(ind).set_domain(dom).set_zero() ;
49  else {
50  Val_domain auxi (value.get_domain()->dt(value)) ;
51  resval.set(ind).set_domain(dom) = auxi ;
52  }
53  }
54 
55  // Put name indices :
56  if (target.val_t->is_name_affected()) {
57  resval.set_name_affected() ;
58  for (int ncmp = 0 ; ncmp<valence ; ncmp++)
59  resval.set_name_ind (ncmp, target.val_t->get_name_ind()[ncmp]) ;
60  }
61 
62  if (target.der_t!=0x0) {
63  Tensor resder (*target.der_t, false) ;
64  for (int i=0 ; i<target.der_t->get_n_comp() ; i++) {
65  Array<int> ind (target.der_t->indices(i)) ;
66  Val_domain value ((*target.der_t)(ind)(dom)) ;
67  if (value.check_if_zero())
68  resder.set(ind).set_domain(dom).set_zero() ;
69  else {
70  Val_domain auxi (value.get_domain()->dt(value)) ;
71  resder.set(ind).set_domain(dom) = auxi ;
72  }
73  }
74  // Put name indices :
75  if (target.der_t->is_name_affected()) {
76  resder.set_name_affected() ;
77  for (int ncmp = 0 ; ncmp<valence ; ncmp++)
78  resder.set_name_ind (ncmp, target.der_t->get_name_ind()[ncmp]) ;
79  }
80  Term_eq res (dom, resval, resder) ;
81  return res ;
82  }
83  else {
84  Term_eq res (dom, resval) ;
85  return res ;
86  }
87 }}
Kadath::Domain::dt
virtual Val_domain dt(const Val_domain &so) const
Compute the derivative with respect to of a scalar field.
Definition: domain.cpp:1468
Kadath::Ope_dt::action
Term_eq action() const override
Computes the action of the current Ope_eq using its various parts.
Definition: ope_dt.cpp:31
Kadath::Ope_dt::~Ope_dt
~Ope_dt() override
Destructor.
Definition: ope_dt.cpp:28
Kadath::Ope_dt::Ope_dt
Ope_dt(const System_of_eqs *syst, Ope_eq *so)
Constructor.
Definition: ope_dt.cpp:24
Kadath::Ope_eq
Abstract class that describes the various operators that can appear in the equations.
Definition: ope_eq.hpp:32
Kadath::Ope_eq::parts
MMPtr_array< Ope_eq > parts
Pointers of the various parts of the current operator.
Definition: ope_eq.hpp:38
Kadath::Ope_eq::dom
int dom
Index of the Domain where the operator is defined.
Definition: ope_eq.hpp:36
Kadath::Scalar::set_domain
Val_domain & set_domain(int)
Read/write of a particular Val_domain.
Definition: scalar.hpp:555
Kadath::System_of_eqs
Class used to describe and solve a system of equations.
Definition: system_of_eqs.hpp:60
Kadath::Tensor
Tensor handling.
Definition: tensor.hpp:149
Kadath::Tensor::set_name_ind
void set_name_ind(int dd, char name)
Sets the name of one index ; the names must have been affected first.
Definition: tensor_impl.hpp:186
Kadath::Tensor::set_name_affected
void set_name_affected()
Affects the name of the indices.
Definition: tensor.hpp:435
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_name_ind
char const * get_name_ind() const
Definition: tensor.hpp:424
Kadath::Tensor::get_n_comp
int get_n_comp() const
Returns the number of stored components.
Definition: tensor.hpp:514
Kadath::Tensor::indices
virtual Array< int > indices(int pos) const
Gives the values of the indices corresponding to a location in the array used for storage of the comp...
Definition: tensor.hpp:484
Kadath::Tensor::get_valence
int get_valence() const
Returns the valence.
Definition: tensor.hpp:509
Kadath::Tensor::is_name_affected
bool is_name_affected() const
Check whether the names of the indices have been affected.
Definition: tensor.hpp:429
Kadath::Term_eq
This class is intended to describe the manage objects appearing in the equations.
Definition: term_eq.hpp:62
Kadath::Term_eq::der_t
Tensor * der_t
Pointer on the variation, if the Term_eq is a Tensor.
Definition: term_eq.hpp:69
Kadath::Term_eq::type_data
const int type_data
Flag describing the type of data :
Definition: term_eq.hpp:75
Kadath::Term_eq::val_t
Tensor * val_t
Pointer on the value, if the Term_eq is a Tensor.
Definition: term_eq.hpp:68
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::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::get_domain
const Domain * get_domain() const
Definition: val_domain.hpp:111