Flow123d  3.9.0-c13e246a6
assembly_convection.hh
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1 /*!
2  *
3  * Copyright (C) 2015 Technical University of Liberec. All rights reserved.
4  *
5  * This program is free software; you can redistribute it and/or modify it under
6  * the terms of the GNU General Public License version 3 as published by the
7  * Free Software Foundation. (http://www.gnu.org/licenses/gpl-3.0.en.html)
8  *
9  * This program is distributed in the hope that it will be useful, but WITHOUT
10  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
11  * FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.
12  *
13  *
14  * @file assembly_convection.hh
15  * @brief
16  */
17 
18 #ifndef ASSEMBLY_CONVECTION_HH_
19 #define ASSEMBLY_CONVECTION_HH_
20 
23 #include "transport/transport.h"
24 #include "fem/fe_p.hh"
25 #include "fem/fe_values.hh"
27 #include "coupling/balance.hh"
29 
30 
31 /**
32  * Auxiliary container class for Finite element and related objects of given dimension.
33  */
34 template <unsigned int dim>
36 {
37 public:
40 
41  static constexpr const char * name() { return "MassAssemblyConvection"; }
42 
43  /// Constructor.
44  MassAssemblyConvection(EqFields *eq_fields, EqData *eq_data)
45  : AssemblyBase<dim>(0), eq_fields_(eq_fields), eq_data_(eq_data) {
49  }
50 
51  /// Destructor.
53 
54  /// Initialize auxiliary vectors and other data members
55  void initialize(ElementCacheMap *element_cache_map) {
56  this->element_cache_map_ = element_cache_map;
57  }
58 
59 
60  /// Assemble integral over element
61  inline void cell_integral(DHCellAccessor cell, unsigned int element_patch_idx)
62  {
63  ASSERT_EQ(cell.dim(), dim).error("Dimension of element mismatch!");
64 
65  ElementAccessor<3> elm = cell.elm();
66  // we have currently zero order P_Disc FE
67  ASSERT(cell.get_loc_dof_indices().size() == 1);
68  IntIdx local_p0_dof = cell.get_loc_dof_indices()[0];
69 
70  auto p = *( this->bulk_points(element_patch_idx).begin() );
71  for (unsigned int sbi=0; sbi<eq_data_->n_substances(); ++sbi)
72  eq_data_->balance_->add_mass_values(eq_data_->subst_idx[sbi], cell, {local_p0_dof},
73  {eq_fields_->cross_section(p)*eq_fields_->water_content(p)*elm.measure()}, 0);
74 
75  VecSetValue(eq_data_->mass_diag, eq_data_->dh_->get_local_to_global_map()[local_p0_dof],
76  eq_fields_->cross_section(p)*eq_fields_->water_content(p), INSERT_VALUES);
77  }
78 
79  /// Implements @p AssemblyBase::begin.
80  void begin() override
81  {
82  VecZeroEntries(eq_data_->mass_diag);
83  eq_data_->balance_->start_mass_assembly(eq_data_->subst_idx);
84  }
85 
86  /// Implements @p AssemblyBase::end.
87  void end() override
88  {
89  eq_data_->balance_->finish_mass_assembly(eq_data_->subst_idx);
90 
91  VecAssemblyBegin(eq_data_->mass_diag);
92  VecAssemblyEnd(eq_data_->mass_diag);
93 
94  eq_data_->is_mass_diag_changed = true;
95  }
96 
97  private:
98  shared_ptr<FiniteElement<dim>> fe_; ///< Finite element for the solution of the advection-diffusion equation.
99 
100  /// Data objects shared with TransportDG
103 
104  /// Sub field set contains fields used in calculation.
106 
107  template < template<IntDim...> class DimAssembly>
108  friend class GenericAssembly;
109 
110 };
111 
112 
113 
114 /**
115  * Auxiliary container class for Finite element and related objects of given dimension.
116  */
117 template <unsigned int dim>
119 {
120 public:
123 
124  static constexpr const char * name() { return "InitCondAssemblyConvection"; }
125 
126  /// Constructor.
128  : AssemblyBase<dim>(0), eq_fields_(eq_fields), eq_data_(eq_data) {
131  }
132 
133  /// Destructor.
135 
136  /// Initialize auxiliary vectors and other data members
137  void initialize(ElementCacheMap *element_cache_map) {
138  this->element_cache_map_ = element_cache_map;
139  for (unsigned int sbi=0; sbi<eq_data_->n_substances(); sbi++) {
140  vecs_.push_back(eq_fields_->conc_mobile_fe[sbi]->vec());
141  }
142  }
143 
144 
145  /// Assemble integral over element
146  inline void cell_integral(DHCellAccessor cell, unsigned int element_patch_idx)
147  {
148  ASSERT_EQ(cell.dim(), dim).error("Dimension of element mismatch!");
149 
150  LongIdx index = cell.local_idx();
151  auto p = *( this->bulk_points(element_patch_idx).begin() );
152 
153  for (unsigned int sbi=0; sbi<eq_data_->n_substances(); sbi++) {
154  vecs_[sbi].set( index, eq_fields_->init_conc[sbi](p) );
155  }
156  }
157 
158 private:
159  shared_ptr<FiniteElement<dim>> fe_; ///< Finite element for the solution of the advection-diffusion equation.
160 
161  /// Data objects shared with TransportDG
164 
165  std::vector<VectorMPI> vecs_; ///< Set of data vectors of conc_mobile_fe objects.
166 
167  /// Sub field set contains fields used in calculation.
169 
170  template < template<IntDim...> class DimAssembly>
171  friend class GenericAssembly;
172 
173 };
174 
175 
176 /**
177  * Auxiliary container class for Finite element and related objects of given dimension.
178  *
179  * Assembles concentration sources for each substance and set boundary conditions.
180  * note: the source of concentration is multiplied by time interval (gives the mass, not the flow like before)
181  */
182 template <unsigned int dim>
184 {
185 public:
188 
189  static constexpr const char * name() { return "ConcSourcesBdrAssemblyConvection"; }
190 
191  /// Constructor.
193  : AssemblyBase<dim>(0), eq_fields_(eq_fields), eq_data_(eq_data) {
200  this->used_fields_ += eq_fields_->bc_conc;
201  }
202 
203  /// Destructor.
205 
206  /// Initialize auxiliary vectors and other data members
207  void initialize(ElementCacheMap *element_cache_map) {
208  this->element_cache_map_ = element_cache_map;
209 
210  fe_ = std::make_shared< FE_P_disc<dim> >(0);
213  }
214 
215 
216  /// Assemble integral over element
217  inline void cell_integral(DHCellAccessor cell, unsigned int element_patch_idx)
218  {
219  ASSERT_EQ(cell.dim(), dim).error("Dimension of element mismatch!");
220  if (!eq_data_->sources_changed_) return;
221 
222  // read for all substances
223  double max_cfl=0;
224  double source, diag;
225  ElementAccessor<3> elm = cell.elm();
226  // we have currently zero order P_Disc FE
227  ASSERT(cell.get_loc_dof_indices().size() == 1);
228  IntIdx local_p0_dof = cell.get_loc_dof_indices()[0];
229 
230  auto p = *( this->bulk_points(element_patch_idx).begin() );
231  for (unsigned int sbi = 0; sbi < eq_data_->n_substances(); sbi++)
232  {
233  source = eq_fields_->cross_section(p) * (eq_fields_->sources_density[sbi](p)
234  + eq_fields_->sources_sigma[sbi](p) * eq_fields_->sources_conc[sbi](p));
235  // addition to RHS
236  eq_data_->corr_vec[sbi].set(local_p0_dof, source);
237  // addition to diagonal of the transport matrix
238  diag = eq_fields_->sources_sigma[sbi](p) * eq_fields_->cross_section(p);
239  eq_data_->tm_diag[sbi].set(local_p0_dof, - diag);
240 
241  // compute maximal cfl condition over all substances
242  max_cfl = std::max(max_cfl, fabs(diag));
243 
244  eq_data_->balance_->add_source_values(sbi, elm.region().bulk_idx(), {local_p0_dof},
245  {- eq_fields_->sources_sigma[sbi](p) * elm.measure() * eq_fields_->cross_section(p)},
246  {source * elm.measure()});
247  }
248 
249  eq_data_->cfl_source_.set(local_p0_dof, max_cfl);
250  }
251 
252  /// Assembles the fluxes on the boundary.
253  inline void boundary_side_integral(DHCellSide cell_side)
254  {
255  ASSERT_EQ(cell_side.dim(), dim).error("Dimension of element mismatch!");
256  if (!cell_side.cell().is_own()) return;
257 
258  // we have currently zero order P_Disc FE
259  ASSERT(cell_side.cell().get_loc_dof_indices().size() == 1);
260  IntIdx local_p0_dof = cell_side.cell().get_loc_dof_indices()[0];
261  LongIdx glob_p0_dof = eq_data_->dh_->get_local_to_global_map()[local_p0_dof];
262 
263  fe_values_side_.reinit(cell_side.side());
264 
265  unsigned int sbi;
266  auto p_side = *( this->boundary_points(cell_side).begin() );
267  auto p_bdr = p_side.point_bdr(cell_side.cond().element_accessor() );
268  double flux = eq_fields_->side_flux(p_side, fe_values_side_);
269  if (flux < 0.0) {
270  double aij = -(flux / cell_side.element().measure() );
271 
272  for (sbi=0; sbi<eq_data_->n_substances(); sbi++)
273  {
274  double value = eq_fields_->bc_conc[sbi](p_bdr);
275 
276  VecSetValue(eq_data_->bcvcorr[sbi], glob_p0_dof, value * aij, ADD_VALUES);
277 
278  // CAUTION: It seems that PETSc possibly optimize allocated space during assembly.
279  // So we have to add also values that may be non-zero in future due to changing velocity field.
280  eq_data_->balance_->add_flux_values(eq_data_->subst_idx[sbi], cell_side,
281  {local_p0_dof}, {0.0}, flux*value);
282  }
283  } else {
284  for (sbi=0; sbi<eq_data_->n_substances(); sbi++)
285  VecSetValue(eq_data_->bcvcorr[sbi], glob_p0_dof, 0, ADD_VALUES);
286 
287  for (sbi=0; sbi<eq_data_->n_substances(); sbi++)
288  eq_data_->balance_->add_flux_values(eq_data_->subst_idx[sbi], cell_side,
289  {local_p0_dof}, {flux}, 0.0);
290  }
291  }
292 
293  /// Implements @p AssemblyBase::begin.
294  void begin() override
295  {
300 
301  //TODO: would it be possible to check the change in data for chosen substance? (may be in multifields?)
302 
303  if (eq_data_->sources_changed_) eq_data_->balance_->start_source_assembly(eq_data_->subst_idx);
304  // Assembly bcvcorr vector
305  for(unsigned int sbi=0; sbi < eq_data_->n_substances(); sbi++) VecZeroEntries(eq_data_->bcvcorr[sbi]);
306 
307  eq_data_->balance_->start_flux_assembly(eq_data_->subst_idx);
308  }
309 
310  /// Implements @p AssemblyBase::end.
311  void end() override
312  {
313  eq_data_->balance_->finish_flux_assembly(eq_data_->subst_idx);
314  if (eq_data_->sources_changed_) eq_data_->balance_->finish_source_assembly(eq_data_->subst_idx);
315 
316  for (unsigned int sbi=0; sbi<eq_data_->n_substances(); sbi++) VecAssemblyBegin(eq_data_->bcvcorr[sbi]);
317  for (unsigned int sbi=0; sbi<eq_data_->n_substances(); sbi++) VecAssemblyEnd(eq_data_->bcvcorr[sbi]);
318 
319  // we are calling set_boundary_conditions() after next_time() and
320  // we are using data from t() before, so we need to set corresponding bc time
322  }
323 
324  private:
325  shared_ptr<FiniteElement<dim>> fe_; ///< Finite element for the solution of the advection-diffusion equation.
326 
327  /// Data objects shared with ConvectionTransport
330 
331  /// Sub field set contains fields used in calculation.
333 
334  FEValues<3> fe_values_side_; ///< FEValues of object (of P disc finite element type)
335 
336  template < template<IntDim...> class DimAssembly>
337  friend class GenericAssembly;
338 
339 };
340 
341 
342 /**
343  * Auxiliary container class for Finite element and related objects of given dimension.
344  *
345  *
346  * Assembly convection term part of the matrix and boundary matrix for application of boundary conditions.
347  *
348  * Discretization of the convection term use explicit time scheme and finite volumes with full upwinding.
349  * We count on with exchange between dimensions and mixing on edges where more then two elements connect (can happen for 2D and 1D elements in
350  * 3D embedding space)
351  *
352  * In order to get multiplication matrix for explicit transport one have to scale the convection part by the acctual time step and
353  * add time term, i. e. unit matrix (see. transport_matrix_step_mpi)
354  *
355  * Updates CFL time step constrain.
356  */
357 template <unsigned int dim>
359 {
360 public:
363 
364  static constexpr const char * name() { return "MatrixMpiAssemblyConvection"; }
365 
366  /// Constructor.
368  : AssemblyBase<dim>(0), eq_fields_(eq_fields), eq_data_(eq_data) {
371  }
372 
373  /// Destructor.
375 
376  /// Initialize auxiliary vectors and other data members
377  void initialize(ElementCacheMap *element_cache_map) {
378  this->element_cache_map_ = element_cache_map;
379 
380  fe_ = std::make_shared< FE_P_disc<dim> >(0);
384  for (unsigned int sid=0; sid<eq_data_->max_edg_sides; sid++)
385  {
386  fe_values_vec_[sid].initialize(*this->quad_low_, *fe_, u);
387  }
393  dof_indices_i_.resize(1);
394  dof_indices_j_.resize(1);
395  }
396 
397  /// Assembles the fluxes between sides of elements of the same dimension.
399  ASSERT_EQ(edge_side_range.begin()->element().dim(), dim).error("Dimension of element mismatch!");
400 
401  unsigned int sid=0, s1, s2, i_col;
402  edg_flux = 0.0;
403  for( DHCellSide edge_side : edge_side_range )
404  {
405  fe_values_vec_[sid].reinit(edge_side.side());
406  edge_side.cell().get_dof_indices(dof_indices_i_);
407  side_dofs_[sid] = dof_indices_i_[0];
408  elm_meassures_[sid] = edge_side.element().measure();
409  auto p = *( this->edge_points(edge_side).begin() );
411  if (side_flux_[sid] > 0.0) {
412  eq_data_->cfl_flow_.add_global(side_dofs_[sid], -(side_flux_[sid] / edge_side.element().measure()) );
413  edg_flux += side_flux_[sid];
414  }
415  ++sid;
416  }
417 
418  unsigned int n_edge_sides = edge_side_range.begin()->n_edge_sides();
419  if (n_edge_sides<2) return; // following loop has no effect if edge contains only 1 side
420  for( s1=0; s1<n_edge_sides; s1++ )
421  {
422  for( s2=0, i_col=0; s2<n_edge_sides; s2++ )
423  {
424  if (s2==s1) continue;
425 
426  if (side_flux_[s2] > 0.0 && side_flux_[s1] < 0.0)
427  row_values_[i_col] = -(side_flux_[s1] * side_flux_[s2] / ( edg_flux * elm_meassures_[s1] ) );
428  else row_values_[i_col] = 0;
429  all_elem_dofs_[i_col++] = side_dofs_[s2];
430  }
431  MatSetValues(eq_data_->tm, 1, &(side_dofs_[s1]), n_edge_sides-1, &(all_elem_dofs_[0]), &(row_values_[0]), INSERT_VALUES);
432  }
433  }
434 
435 
436  /// Assembles the fluxes between elements of different dimensions.
437  inline void dimjoin_intergral(DHCellAccessor cell_lower_dim, DHCellSide neighb_side) {
438  if (dim == 1) return;
439  ASSERT_EQ(cell_lower_dim.dim(), dim-1).error("Dimension of element mismatch!");
440 
441  auto p_high = *( this->coupling_points(neighb_side).begin() );
442  fe_values_side_.reinit(neighb_side.side());
443 
444  cell_lower_dim.get_dof_indices(dof_indices_i_);
445  neighb_side.cell().get_dof_indices(dof_indices_j_);
447 
448  // volume source - out-flow from higher dimension
449  if (flux > 0.0) aij = flux / cell_lower_dim.elm().measure();
450  else aij=0;
451  MatSetValue(eq_data_->tm, dof_indices_i_[0], dof_indices_j_[0], aij, INSERT_VALUES);
452  // out flow from higher dim. already accounted
453 
454  // volume drain - in-flow to higher dimension
455  if (flux < 0.0) {
456  eq_data_->cfl_flow_.add_global( dof_indices_i_[0], (flux / cell_lower_dim.elm().measure()) ); // diagonal drain
457  aij = (-flux) / neighb_side.element().measure();
458  } else aij=0;
459  MatSetValue(eq_data_->tm, dof_indices_j_[0], dof_indices_i_[0], aij, INSERT_VALUES);
460  }
461 
462 
463  /// Implements @p AssemblyBase::begin.
464  void begin() override
465  {
466  MatZeroEntries(eq_data_->tm);
468  }
469 
470  /// Implements @p AssemblyBase::end.
471  void end() override
472  {
473  for ( DHCellAccessor dh_cell : eq_data_->dh_->own_range() ) {
474  dh_cell.get_dof_indices(dof_indices_i_);
475  MatSetValue(eq_data_->tm, dof_indices_i_[0], dof_indices_i_[0], eq_data_->cfl_flow_.get(dh_cell.local_idx()), INSERT_VALUES);
476 
477  eq_data_->cfl_flow_.set(dh_cell.local_idx(), fabs(eq_data_->cfl_flow_.get(dh_cell.local_idx())) );
478  }
479 
480  MatAssemblyBegin(eq_data_->tm, MAT_FINAL_ASSEMBLY);
481  MatAssemblyEnd(eq_data_->tm, MAT_FINAL_ASSEMBLY);
482  VecAssemblyBegin(eq_data_->cfl_flow_.petsc_vec());
483  VecAssemblyEnd(eq_data_->cfl_flow_.petsc_vec());
484 
487  }
488 
489 private:
490  shared_ptr<FiniteElement<dim>> fe_; ///< Finite element for the solution of the advection-diffusion equation.
491 
492  /// Data objects shared with ConvectionTransport
495 
496  /// Sub field set contains fields used in calculation.
498 
499  FEValues<3> fe_values_side_; ///< FEValues of object (of P disc finite element type)
500  vector<FEValues<3>> fe_values_vec_; ///< Vector of FEValues of object (of P disc finite element types)
501  vector<LongIdx> dof_indices_i_, dof_indices_j_; ///< Global DOF indices.
502 
508  double aij;
509  double edg_flux, flux;
510 
511  template < template<IntDim...> class DimAssembly>
512  friend class GenericAssembly;
513 
514 };
515 
516 
517 #endif /* ASSEMBLY_CONVECTION_HH_ */
ElementAccessor::dim
unsigned int dim() const
Definition: accessors.hh:188
MatrixMpiAssemblyConvection::fe_values_side_
FEValues< 3 > fe_values_side_
FEValues of object (of P disc finite element type)
Definition: assembly_convection.hh:499
ConcSourcesBdrAssemblyConvection::~ConcSourcesBdrAssemblyConvection
~ConcSourcesBdrAssemblyConvection()
Destructor.
Definition: assembly_convection.hh:204
ConcSourcesBdrAssemblyConvection::eq_data_
EqData * eq_data_
Definition: assembly_convection.hh:329
ConvectionTransport::EqData::bcvcorr
Vec * bcvcorr
Boundary condition correction vector.
Definition: transport.h:168
ConcSourcesBdrAssemblyConvection::fe_
shared_ptr< FiniteElement< dim > > fe_
Finite element for the solution of the advection-diffusion equation.
Definition: assembly_convection.hh:325
DHCellSide::side
Side side() const
Return Side of given cell and side_idx.
Definition: dh_cell_accessor.hh:198
ConvectionTransport::EqData::mass_diag
Vec mass_diag
Definition: transport.h:158
ConvectionTransport::EqData::tm_diag
vector< VectorMPI > tm_diag
additions to PETSC transport matrix on the diagonal - from sources (for each substance)
Definition: transport.h:167
MatrixMpiAssemblyConvection::elm_meassures_
std::vector< double > elm_meassures_
Definition: assembly_convection.hh:505
MatrixMpiAssemblyConvection::aij
double aij
Definition: assembly_convection.hh:508
AssemblyBase::edge_points
Range< EdgePoint > edge_points(const DHCellSide &cell_side) const
Return EdgePoint range of appropriate dimension.
Definition: assembly_base.hh:109
ConvectionTransport::EqData::subst_idx
vector< unsigned int > subst_idx
List of indices used to call balance methods for a set of quantities.
Definition: transport.h:156
TransportEqFields::cross_section
Field< 3, FieldValue< 3 >::Scalar > cross_section
Pointer to DarcyFlow field cross_section.
Definition: transport_operator_splitting.hh:150
ConcSourcesBdrAssemblyConvection
Definition: assembly_convection.hh:183
AssemblyBase::quad_low_
Quadrature * quad_low_
Quadrature used in assembling methods (dim-1).
Definition: assembly_base.hh:190
ASSERT
#define ASSERT(expr)
Definition: asserts.hh:351
MassAssemblyConvection::end
void end() override
Implements AssemblyBase::end.
Definition: assembly_convection.hh:87
TransportEqFields::flow_flux
Field< 3, FieldValue< 3 >::VectorFixed > flow_flux
Flow flux, can be result of water flow model.
Definition: transport_operator_splitting.hh:153
DHCellSide::cond
Boundary cond() const
Definition: dh_cell_accessor.hh:231
TransportEqFields::water_content
Field< 3, FieldValue< 3 >::Scalar > water_content
Water content - result of unsaturated water flow model or porosity.
Definition: transport_operator_splitting.hh:147
InitCondAssemblyConvection::used_fields_
FieldSet used_fields_
Sub field set contains fields used in calculation.
Definition: assembly_convection.hh:168
ConvectionTransport::EqData::cfl_source_
VectorMPI cfl_source_
Parallel vector for source term contribution to CFL condition.
Definition: transport.h:164
VectorMPI::zero_entries
void zero_entries()
Definition: vector_mpi.hh:82
ElementCacheMap
Directing class of FieldValueCache.
Definition: field_value_cache.hh:151
DHCellAccessor::get_dof_indices
unsigned int get_dof_indices(std::vector< LongIdx > &indices) const
Fill vector of the global indices of dofs associated to the cell.
Definition: dh_cell_accessor.hh:80
ConcSourcesBdrAssemblyConvection::EqFields
ConvectionTransport::EqFields EqFields
Definition: assembly_convection.hh:186
IntIdx
int IntIdx
Definition: index_types.hh:25
InitCondAssemblyConvection::cell_integral
void cell_integral(DHCellAccessor cell, unsigned int element_patch_idx)
Assemble integral over element.
Definition: assembly_convection.hh:146
fe_values.hh
Class FEValues calculates finite element data on the actual cells such as shape function values,...
DHCellAccessor::is_own
bool is_own() const
Return true if accessor represents own element (false for ghost element)
Definition: dh_cell_accessor.hh:130
value
static constexpr bool value
Definition: json.hpp:87
MatrixMpiAssemblyConvection::EqData
ConvectionTransport::EqData EqData
Definition: assembly_convection.hh:362
update_values
@ update_values
Shape function values.
Definition: update_flags.hh:87
ConvectionTransport::EqData::corr_vec
vector< VectorMPI > corr_vec
Definition: transport.h:163
ConcSourcesBdrAssemblyConvection::end
void end() override
Implements AssemblyBase::end.
Definition: assembly_convection.hh:311
FEValues::initialize
void initialize(Quadrature &_quadrature, FiniteElement< DIM > &_fe, UpdateFlags _flags)
Initialize structures and calculates cell-independent data.
Definition: fe_values.cc:137
MatrixMpiAssemblyConvection::eq_data_
EqData * eq_data_
Definition: assembly_convection.hh:494
std::vector< VectorMPI >
ElementAccessor< 3 >
MatrixMpiAssemblyConvection::~MatrixMpiAssemblyConvection
~MatrixMpiAssemblyConvection()
Destructor.
Definition: assembly_convection.hh:374
update_quadrature_points
@ update_quadrature_points
Transformed quadrature points.
Definition: update_flags.hh:102
ConvectionTransport::EqFields::side_flux
double side_flux(SidePoint &side_p, FEValues< 3 > &fe_side_values)
Calculate flux on given side point.
Definition: transport.h:95
ConcSourcesBdrAssemblyConvection::eq_fields_
EqFields * eq_fields_
Data objects shared with ConvectionTransport.
Definition: assembly_convection.hh:328
MatrixMpiAssemblyConvection::end
void end() override
Implements AssemblyBase::end.
Definition: assembly_convection.hh:471
ConvectionTransport::EqFields::bc_conc
BCMultiField< 3, FieldValue< 3 >::Scalar > bc_conc
Definition: transport.h:103
MatrixMpiAssemblyConvection::flux
double flux
Definition: assembly_convection.hh:509
DHCellAccessor::dim
unsigned int dim() const
Return dimension of element appropriate to cell.
Definition: dh_cell_accessor.hh:101
MassAssemblyConvection
Definition: assembly_convection.hh:35
update_normal_vectors
@ update_normal_vectors
Normal vectors.
Definition: update_flags.hh:124
InitCondAssemblyConvection::eq_data_
EqData * eq_data_
Definition: assembly_convection.hh:163
DHCellSide::dim
unsigned int dim() const
Return dimension of element appropriate to the side.
Definition: dh_cell_accessor.hh:214
ConcSourcesBdrAssemblyConvection::begin
void begin() override
Implements AssemblyBase::begin.
Definition: assembly_convection.hh:294
ConcSourcesBdrAssemblyConvection::initialize
void initialize(ElementCacheMap *element_cache_map)
Initialize auxiliary vectors and other data members.
Definition: assembly_convection.hh:207
assembly_base.hh
MassAssemblyConvection::begin
void begin() override
Implements AssemblyBase::begin.
Definition: assembly_convection.hh:80
ConvectionTransport::EqFields::init_conc
MultiField< 3, FieldValue< 3 >::Scalar > init_conc
Initial concentrations.
Definition: transport.h:106
MatrixMpiAssemblyConvection::row_values_
std::vector< double > row_values_
Definition: assembly_convection.hh:507
ConvectionTransport::EqData::balance_
std::shared_ptr< Balance > balance_
object for calculation and writing the mass balance to file, shared with EquationBase.
Definition: transport.h:147
TransportEqFields::sources_sigma
MultiField< 3, FieldValue< 3 >::Scalar > sources_sigma
Concentration sources - Robin type, in_flux = sources_sigma * (sources_conc - mobile_conc)
Definition: transport_operator_splitting.hh:158
FEValues< 3 >
fe_p.hh
Definitions of basic Lagrangean finite elements with polynomial shape functions.
VectorMPI::set
void set(unsigned int pos, double val)
Set value on given position.
Definition: vector_mpi.hh:111
InitCondAssemblyConvection
Definition: assembly_convection.hh:118
DHCellSide
Side accessor allows to iterate over sides of DOF handler cell.
Definition: dh_cell_accessor.hh:176
InitCondAssemblyConvection::fe_
shared_ptr< FiniteElement< dim > > fe_
Finite element for the solution of the advection-diffusion equation.
Definition: assembly_convection.hh:159
MassAssemblyConvection::EqFields
ConvectionTransport::EqFields EqFields
Definition: assembly_convection.hh:38
RangeConvert< DHEdgeSide, DHCellSide >
ConvectionTransport::EqData
Definition: transport.h:119
MatrixMpiAssemblyConvection::EqFields
ConvectionTransport::EqFields EqFields
Definition: assembly_convection.hh:361
ConvectionTransport::EqData::transport_matrix_time
double transport_matrix_time
Definition: transport.h:175
MatrixMpiAssemblyConvection::eq_fields_
EqFields * eq_fields_
Data objects shared with ConvectionTransport.
Definition: assembly_convection.hh:493
DHCellSide::cell
const DHCellAccessor & cell() const
Return DHCellAccessor appropriate to the side.
Definition: dh_cell_accessor.hh:204
MatrixMpiAssemblyConvection::side_dofs_
std::vector< LongIdx > side_dofs_
Definition: assembly_convection.hh:503
ConvectionTransport::EqData::max_edg_sides
unsigned int max_edg_sides
Maximal number of edge sides (evaluate from dim 1,2,3)
Definition: transport.h:180
generic_assembly.hh
quadrature_lib.hh
Definitions of particular quadrature rules on simplices.
MatrixMpiAssemblyConvection
Definition: assembly_convection.hh:358
ConvectionTransport::EqFields
Definition: transport.h:88
ConvectionTransport::EqData::n_substances
unsigned int n_substances()
Returns number of transported substances.
Definition: transport.h:126
DHCellAccessor::local_idx
unsigned int local_idx() const
Return local index to element (index of DOF handler).
Definition: dh_cell_accessor.hh:58
MatrixMpiAssemblyConvection::fe_
shared_ptr< FiniteElement< dim > > fe_
Finite element for the solution of the advection-diffusion equation.
Definition: assembly_convection.hh:490
MatrixMpiAssemblyConvection::side_flux_
std::vector< double > side_flux_
Definition: assembly_convection.hh:504
MassAssemblyConvection::~MassAssemblyConvection
~MassAssemblyConvection()
Destructor.
Definition: assembly_convection.hh:52
MassAssemblyConvection::cell_integral
void cell_integral(DHCellAccessor cell, unsigned int element_patch_idx)
Assemble integral over element.
Definition: assembly_convection.hh:61
DHCellAccessor::elm
const ElementAccessor< 3 > elm() const
Return ElementAccessor to element of loc_ele_idx_.
Definition: dh_cell_accessor.hh:71
InitCondAssemblyConvection::name
static constexpr const char * name()
Definition: assembly_convection.hh:124
ASSERT_EQ
#define ASSERT_EQ(a, b)
Definition of comparative assert macro (EQual) only for debug mode.
Definition: asserts.hh:333
MatrixMpiAssemblyConvection::edge_integral
void edge_integral(RangeConvert< DHEdgeSide, DHCellSide > edge_side_range)
Assembles the fluxes between sides of elements of the same dimension.
Definition: assembly_convection.hh:398
FieldCommon::changed
bool changed() const
Definition: field_common.hh:363
ConvectionTransport::EqData::transport_bc_time
double transport_bc_time
Time of the last update of the boundary condition terms.
Definition: transport.h:169
TimeGovernor::last_t
double last_t() const
Definition: time_governor.hh:556
FieldSet
Container for various descendants of FieldCommonBase.
Definition: field_set.hh:159
MassAssemblyConvection::eq_fields_
EqFields * eq_fields_
Data objects shared with TransportDG.
Definition: assembly_convection.hh:101
Boundary::element_accessor
ElementAccessor< 3 > element_accessor()
Definition: accessors_impl.hh:259
coupling
@ coupling
Definition: generic_assembly.hh:35
ConcSourcesBdrAssemblyConvection::fe_values_side_
FEValues< 3 > fe_values_side_
FEValues of object (of P disc finite element type)
Definition: assembly_convection.hh:334
MatrixMpiAssemblyConvection::dof_indices_i_
vector< LongIdx > dof_indices_i_
Definition: assembly_convection.hh:501
MatrixMpiAssemblyConvection::used_fields_
FieldSet used_fields_
Sub field set contains fields used in calculation.
Definition: assembly_convection.hh:497
ConvectionTransport::EqFields::conc_mobile_fe
FieldFEScalarVec conc_mobile_fe
Underlaying FieldFE for each substance of conc_mobile.
Definition: transport.h:112
MassAssemblyConvection::name
static constexpr const char * name()
Definition: assembly_convection.hh:41
DHCellSide::element
ElementAccessor< 3 > element() const
Definition: dh_cell_accessor.hh:223
MatrixMpiAssemblyConvection::dof_indices_j_
vector< LongIdx > dof_indices_j_
Global DOF indices.
Definition: assembly_convection.hh:501
ConcSourcesBdrAssemblyConvection::used_fields_
FieldSet used_fields_
Sub field set contains fields used in calculation.
Definition: assembly_convection.hh:332
AssemblyBase::bulk_points
Range< BulkPoint > bulk_points(unsigned int element_patch_idx) const
Return BulkPoint range of appropriate dimension.
Definition: assembly_base.hh:104
MatrixMpiAssemblyConvection::fe_values_vec_
vector< FEValues< 3 > > fe_values_vec_
Vector of FEValues of object (of P disc finite element types)
Definition: assembly_convection.hh:500
LongIdx
int LongIdx
Define type that represents indices of large arrays (elements, nodes, dofs etc.)
Definition: index_types.hh:24
MatrixMpiAssemblyConvection::initialize
void initialize(ElementCacheMap *element_cache_map)
Initialize auxiliary vectors and other data members.
Definition: assembly_convection.hh:377
bulk
@ bulk
Definition: generic_assembly.hh:33
ConvectionTransport::EqData::sources_changed_
bool sources_changed_
Flag indicates that sources part of equation was changed during last time.
Definition: transport.h:161
DHCellAccessor
Cell accessor allow iterate over DOF handler cells.
Definition: dh_cell_accessor.hh:43
ConcSourcesBdrAssemblyConvection::ConcSourcesBdrAssemblyConvection
ConcSourcesBdrAssemblyConvection(EqFields *eq_fields, EqData *eq_data)
Constructor.
Definition: assembly_convection.hh:192
ConvectionTransport::EqData::tm
Mat tm
PETSc transport matrix.
Definition: transport.h:166
ElementAccessor::region
Region region() const
Definition: accessors.hh:198
field_value_cache.hh
AssemblyBase::active_integrals_
int active_integrals_
Holds mask of active integrals.
Definition: assembly_base.hh:191
MassAssemblyConvection::EqData
ConvectionTransport::EqData EqData
Definition: assembly_convection.hh:39
MatrixMpiAssemblyConvection::all_elem_dofs_
std::vector< LongIdx > all_elem_dofs_
Definition: assembly_convection.hh:506
ConcSourcesBdrAssemblyConvection::name
static constexpr const char * name()
Definition: assembly_convection.hh:189
DHCellAccessor::get_loc_dof_indices
LocDofVec get_loc_dof_indices() const
Returns the local indices of dofs associated to the cell on the local process.
Definition: dh_cell_accessor.hh:88
MatrixMpiAssemblyConvection::edg_flux
double edg_flux
Definition: assembly_convection.hh:509
InitCondAssemblyConvection::EqData
ConvectionTransport::EqData EqData
Definition: assembly_convection.hh:122
InitCondAssemblyConvection::EqFields
ConvectionTransport::EqFields EqFields
Definition: assembly_convection.hh:121
InitCondAssemblyConvection::~InitCondAssemblyConvection
~InitCondAssemblyConvection()
Destructor.
Definition: assembly_convection.hh:134
ConvectionTransport::EqData::cfl_flow_
VectorMPI cfl_flow_
Parallel vector for flow contribution to CFL condition.
Definition: transport.h:165
transport.h
MatrixMpiAssemblyConvection::MatrixMpiAssemblyConvection
MatrixMpiAssemblyConvection(EqFields *eq_fields, EqData *eq_data)
Constructor.
Definition: assembly_convection.hh:367
MassAssemblyConvection::eq_data_
EqData * eq_data_
Definition: assembly_convection.hh:102
ConcSourcesBdrAssemblyConvection::boundary_side_integral
void boundary_side_integral(DHCellSide cell_side)
Assembles the fluxes on the boundary.
Definition: assembly_convection.hh:253
UpdateFlags
UpdateFlags
Enum type UpdateFlags indicates which quantities are to be recomputed on each finite element cell.
Definition: update_flags.hh:67
AssemblyBase
Definition: assembly_base.hh:34
InitCondAssemblyConvection::initialize
void initialize(ElementCacheMap *element_cache_map)
Initialize auxiliary vectors and other data members.
Definition: assembly_convection.hh:137
MassAssemblyConvection::MassAssemblyConvection
MassAssemblyConvection(EqFields *eq_fields, EqData *eq_data)
Constructor.
Definition: assembly_convection.hh:44
MatrixMpiAssemblyConvection::dimjoin_intergral
void dimjoin_intergral(DHCellAccessor cell_lower_dim, DHCellSide neighb_side)
Assembles the fluxes between elements of different dimensions.
Definition: assembly_convection.hh:437
VectorMPI::get
double get(unsigned int pos) const
Return value on given position.
Definition: vector_mpi.hh:105
balance.hh
FEValues::reinit
void reinit(const ElementAccessor< spacedim > &cell)
Update cell-dependent data (gradients, Jacobians etc.)
Definition: fe_values.cc:536
TransportEqFields::sources_density
MultiField< 3, FieldValue< 3 >::Scalar > sources_density
Concentration sources - density of substance source, only positive part is used.
Definition: transport_operator_splitting.hh:156
MassAssemblyConvection::initialize
void initialize(ElementCacheMap *element_cache_map)
Initialize auxiliary vectors and other data members.
Definition: assembly_convection.hh:55
MatrixMpiAssemblyConvection::begin
void begin() override
Implements AssemblyBase::begin.
Definition: assembly_convection.hh:464
ConcSourcesBdrAssemblyConvection::EqData
ConvectionTransport::EqData EqData
Definition: assembly_convection.hh:187
update_side_JxW_values
@ update_side_JxW_values
Transformed quadrature weight for cell sides.
Definition: update_flags.hh:153
MatrixMpiAssemblyConvection::name
static constexpr const char * name()
Definition: assembly_convection.hh:364
ConvectionTransport::EqData::time_
TimeGovernor * time_
Definition: transport.h:170
InitCondAssemblyConvection::InitCondAssemblyConvection
InitCondAssemblyConvection(EqFields *eq_fields, EqData *eq_data)
Constructor.
Definition: assembly_convection.hh:127
TransportEqFields::sources_conc
MultiField< 3, FieldValue< 3 >::Scalar > sources_conc
Definition: transport_operator_splitting.hh:159
ConvectionTransport::EqData::is_convection_matrix_scaled
bool is_convection_matrix_scaled
Flag indicates the state of object.
Definition: transport.h:177
edge
@ edge
Definition: generic_assembly.hh:34
MassAssemblyConvection::used_fields_
FieldSet used_fields_
Sub field set contains fields used in calculation.
Definition: assembly_convection.hh:105
VectorMPI::add_global
void add_global(unsigned int pos, double val)
Add value to item on given global position.
Definition: vector_mpi.hh:132
boundary
@ boundary
Definition: generic_assembly.hh:36
AssemblyBase::coupling_points
Range< CouplingPoint > coupling_points(const DHCellSide &cell_side) const
Return CouplingPoint range of appropriate dimension.
Definition: assembly_base.hh:115
RangeConvert::begin
IterConvert< ObjectIn, ObjectOut > begin()
Iterator to begin item of range.
Definition: range_wrapper.hh:44
VectorMPI::petsc_vec
Vec & petsc_vec()
Getter for PETSC vector of output data (e.g. can be used by scatters).
Definition: vector_mpi.hh:79
RegionIdx::bulk_idx
unsigned int bulk_idx() const
Returns index of the region in the bulk set.
Definition: region.hh:90
ConvectionTransport::EqData::dh_
std::shared_ptr< DOFHandlerMultiDim > dh_
Definition: transport.h:144
GenericAssembly
Generic class of assemblation.
Definition: generic_assembly.hh:160
InitCondAssemblyConvection::eq_fields_
EqFields * eq_fields_
Data objects shared with TransportDG.
Definition: assembly_convection.hh:162
AssemblyBase::boundary_points
Range< BoundaryPoint > boundary_points(const DHCellSide &cell_side) const
Return BoundaryPoint range of appropriate dimension.
Definition: assembly_base.hh:121
AssemblyBase::element_cache_map_
ElementCacheMap * element_cache_map_
ElementCacheMap shared with GenericAssembly object.
Definition: assembly_base.hh:193
ElementAccessor::measure
double measure() const
Computes the measure of the element.
Definition: accessors_impl.hh:59
InitCondAssemblyConvection::vecs_
std::vector< VectorMPI > vecs_
Set of data vectors of conc_mobile_fe objects.
Definition: assembly_convection.hh:165
ConcSourcesBdrAssemblyConvection::cell_integral
void cell_integral(DHCellAccessor cell, unsigned int element_patch_idx)
Assemble integral over element.
Definition: assembly_convection.hh:217
MassAssemblyConvection::fe_
shared_ptr< FiniteElement< dim > > fe_
Finite element for the solution of the advection-diffusion equation.
Definition: assembly_convection.hh:98
TimeGovernor::t
double t() const
Definition: time_governor.hh:542
IntDim
unsigned int IntDim
A dimension index type.
Definition: mixed.hh:19