Flow123d  JS_before_hm-2081-g08ad9c456
transport_dg.cc
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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 transport_dg.cc
15 * @brief Discontinuous Galerkin method for equation of transport with dispersion.
16 * @author Jan Stebel
17 */
18 
19 #include "system/index_types.hh"
20 #include "system/sys_profiler.hh"
22 
23 #include "io/output_time.hh"
25 #include "fem/fe_values.hh"
26 #include "fem/fe_p.hh"
27 #include "fem/fe_rt.hh"
28 #include "fem/dh_cell_accessor.hh"
29 #include "fields/field_fe.hh"
31 #include "la/linsys_PETSC.hh"
32 #include "coupling/balance.hh"
36 #include "transport/heat_model.hh"
37 #include "transport/assembly_dg.hh"
38 
39 #include "fields/multi_field.hh"
40 #include "fields/generic_field.hh"
41 #include "input/factory.hh"
43 #include "mesh/accessors.hh"
44 
45 FLOW123D_FORCE_LINK_IN_CHILD(concentrationTransportModel)
47 
48 
49 
50 using namespace Input::Type;
51 
52 template<class Model>
54  return Selection("DG_variant", "Type of penalty term.")
55  .add_value(non_symmetric, "non-symmetric", "non-symmetric weighted interior penalty DG method")
56  .add_value(incomplete, "incomplete", "incomplete weighted interior penalty DG method")
57  .add_value(symmetric, "symmetric", "symmetric weighted interior penalty DG method")
58  .close();
59 }
60 
61 /*
62 * Should be removed
63 template<class Model>
64 const Selection & TransportDG<Model>::EqData::get_output_selection() {
65  return Model::ModelEqData::get_output_selection_input_type(
66  "DG",
67  "Implicit in time Discontinuous Galerkin solver")
68  .copy_values(EqData().make_output_field_selection("").close())
69  ConvectionTransport::EqData().output_fields
70  .make_output_field_selection(
71  "ConvectionTransport_output_fields",
72  "Selection of output fields for Convection Solute Transport model.")
73  .close()),
74  .close();
75 }
76 */
77 
78 template<class Model>
80  std::string equation_name = std::string(Model::ModelEqData::name()) + "_DG";
81  return Model::get_input_type("DG", "Discontinuous Galerkin (DG) solver")
83  "Solver for the linear system.")
84  .declare_key("input_fields", Array(
86  .make_field_descriptor_type(equation_name)),
88  "Input fields of the equation.")
90  "Variant of the interior penalty discontinuous Galerkin method.")
91  .declare_key("dg_order", Integer(0,3), Default("1"),
92  "Polynomial order for the finite element in DG method (order 0 is suitable if there is no diffusion/dispersion).")
93  .declare_key("init_projection", Bool(), Default("true"),
94  "If true, use DG projection of the initial condition field."
95  "Otherwise, evaluate initial condition field directly (well suited for reading native data).")
96  .declare_key("output",
97  EqFields().output_fields.make_output_type(equation_name, ""),
98  IT::Default("{ \"fields\": [ " + Model::ModelEqData::default_output_field() + "] }"),
99  "Specification of output fields and output times.")
100  .close();
101 }
102 
103 template<class Model>
105  Input::register_class< TransportDG<Model>, Mesh &, const Input::Record>(std::string(Model::ModelEqData::name()) + "_DG") +
107 
108 
109 
110 template<class Model>
112 {
113  *this+=fracture_sigma
114  .name("fracture_sigma")
115  .description(
116  "Coefficient of diffusive transfer through fractures (for each substance).")
118  .input_default("1.0")
120 
121  *this+=dg_penalty
122  .name("dg_penalty")
123  .description(
124  "Penalty parameter influencing the discontinuity of the solution (for each substance). "
125  "Its default value 1 is sufficient in most cases. Higher value diminishes the inter-element jumps.")
127  .input_default("1.0")
129 
130  *this += region_id.name("region_id")
133  .description("Region ids.");
134 
135  *this += subdomain.name("subdomain")
138  .description("Subdomain ids of the domain decomposition.");
139 
140 
141  // add all input fields to the output list
142  output_fields += *this;
143 
144 }
145 
146 
147 
148 // return the ratio of longest and shortest edge
149 template<class Model>
151 {
152  double h_max = 0, h_min = numeric_limits<double>::infinity();
153  for (unsigned int i=0; i<e->n_nodes(); i++)
154  for (unsigned int j=i+1; j<e->n_nodes(); j++)
155  {
156  double dist = arma::norm(*e.node(i) - *e.node(j));
157  h_max = max(h_max, dist);
158  h_min = min(h_min, dist);
159  }
160  return h_max/h_min;
161 }
162 
163 
164 
165 template<class Model>
167  const int K_size,
168  const vector<arma::mat33> &K,
169  const double flux,
170  const arma::vec3 &normal_vector,
171  const double alpha,
172  double &gamma)
173 {
174  double delta = 0, h = 0;
175 
176  // calculate the side diameter
177  if (side.dim() == 0)
178  {
179  h = 1;
180  }
181  else
182  {
183  for (unsigned int i=0; i<side.n_nodes(); i++)
184  for (unsigned int j=i+1; j<side.n_nodes(); j++) {
185  double dist = arma::norm(*side.node(i) - *side.node(j));
186  h = max(h, dist);
187  }
188 
189  }
190 
191  // delta is set to the average value of Kn.n on the side
192  for (int k=0; k<K_size; k++)
193  delta += dot(K[k]*normal_vector,normal_vector);
194  delta /= K_size;
195 
196  gamma = 0.5*fabs(flux) + alpha/h*delta*elem_anisotropy(side.element());
197 }
198 
199 
200 
201 template<typename Model>
203  : Model(init_mesh, in_rec),
204  input_rec(in_rec),
205  allocation_done(false)
206 {
207  // Can not use name() + "constructor" here, since START_TIMER only accepts const char *
208  // due to constexpr optimization.
209  START_TIMER(Model::ModelEqData::name());
210  // Check that Model is derived from AdvectionDiffusionModel.
212 
213  eq_data_ = make_shared<EqData>();
214  eq_fields_ = make_shared<EqFields>();
215  eq_fields_->add_coords_field();
216  this->eq_fieldset_ = eq_fields_.get();
217  Model::init_balance(in_rec);
218 
219 
220  // Set up physical parameters.
221  eq_fields_->set_mesh(init_mesh);
222  eq_fields_->region_id = GenericField<3>::region_id(*Model::mesh_);
223  eq_fields_->subdomain = GenericField<3>::subdomain(*Model::mesh_);
224 
225 
226  // DG data parameters
227  eq_data_->dg_variant = in_rec.val<DGVariant>("dg_variant");
228  eq_data_->dg_order = in_rec.val<unsigned int>("dg_order");
229 
230  Model::init_from_input(in_rec);
231 
232  MixedPtr<FE_P_disc> fe(eq_data_->dg_order);
233  shared_ptr<DiscreteSpace> ds = make_shared<EqualOrderDiscreteSpace>(Model::mesh_, fe);
234  eq_data_->dh_ = make_shared<DOFHandlerMultiDim>(*Model::mesh_);
235  eq_data_->dh_->distribute_dofs(ds);
236  //DebugOut().fmt("TDG: solution size {}\n", eq_data_->dh_->n_global_dofs());
237 
238 }
239 
240 
241 template<class Model>
243 {
244  eq_fields_->set_components(eq_data_->substances_.names());
245  eq_fields_->set_input_list( input_rec.val<Input::Array>("input_fields"), *(Model::time_) );
246  eq_data_->set_time_governor(Model::time_);
247  eq_data_->balance_ = this->balance();
248  eq_fields_->initialize();
249 
250  // DG stabilization parameters on boundary edges
251  eq_data_->gamma.resize(eq_data_->n_substances());
252  for (unsigned int sbi=0; sbi<eq_data_->n_substances(); sbi++)
253  eq_data_->gamma[sbi].resize(Model::mesh_->boundary_.size());
254 
255  // Resize coefficient arrays
256  eq_data_->max_edg_sides = max(Model::mesh_->max_edge_sides(1), max(Model::mesh_->max_edge_sides(2), Model::mesh_->max_edge_sides(3)));
257  ret_sources.resize(eq_data_->n_substances());
258  ret_sources_prev.resize(eq_data_->n_substances());
259 
260  eq_data_->output_vec.resize(eq_data_->n_substances());
261  eq_fields_->output_field.set_components(eq_data_->substances_.names());
262  eq_fields_->output_field.set_mesh(*Model::mesh_);
263  eq_fields_->output_fields.set_mesh(*Model::mesh_);
264  eq_fields_->output_type(OutputTime::CORNER_DATA);
265 
266  eq_fields_->output_field.setup_components();
267  for (unsigned int sbi=0; sbi<eq_data_->n_substances(); sbi++)
268  {
269  // create shared pointer to a FieldFE, pass FE data and push this FieldFE to output_field on all regions
270  auto output_field_ptr = create_field_fe< 3, FieldValue<3>::Scalar >(eq_data_->dh_);
271  eq_fields_->output_field[sbi].set(output_field_ptr, 0);
272  eq_data_->output_vec[sbi] = output_field_ptr->vec();
273  }
274 
275  // set time marks for writing the output
276  eq_fields_->output_fields.initialize(Model::output_stream_, Model::mesh_, input_rec.val<Input::Record>("output"), this->time());
277 
278  // equation default PETSc solver options
279  std::string petsc_default_opts;
280  if (eq_data_->dh_->distr()->np() == 1)
281  petsc_default_opts = "-ksp_type bcgs -pc_type ilu -pc_factor_levels 2 -ksp_diagonal_scale_fix -pc_factor_fill 6.0";
282  else
283  petsc_default_opts = "-ksp_type bcgs -ksp_diagonal_scale_fix -pc_type asm -pc_asm_overlap 4 -sub_pc_type ilu -sub_pc_factor_levels 3 -sub_pc_factor_fill 6.0";
284 
285  // allocate matrix and vector structures
286  eq_data_->ls = new LinSys*[eq_data_->n_substances()];
287  eq_data_->ls_dt = new LinSys*[eq_data_->n_substances()];
288  eq_data_->conc_fe.resize(eq_data_->n_substances());
289 
290  MixedPtr<FE_P_disc> fe(0);
291  shared_ptr<DiscreteSpace> ds = make_shared<EqualOrderDiscreteSpace>(Model::mesh_, fe);
292  eq_data_->dh_p0 = make_shared<DOFHandlerMultiDim>(*Model::mesh_);
293  eq_data_->dh_p0->distribute_dofs(ds);
294 
295  stiffness_matrix.resize(eq_data_->n_substances(), nullptr);
296  mass_matrix.resize(eq_data_->n_substances(), nullptr);
297  rhs.resize(eq_data_->n_substances(), nullptr);
298  mass_vec.resize(eq_data_->n_substances(), nullptr);
299  eq_data_->ret_vec.resize(eq_data_->n_substances(), nullptr);
300 
301  for (unsigned int sbi = 0; sbi < eq_data_->n_substances(); sbi++) {
302  eq_data_->ls[sbi] = new LinSys_PETSC(eq_data_->dh_->distr().get(), petsc_default_opts);
303  ( (LinSys_PETSC *)eq_data_->ls[sbi] )->set_from_input( input_rec.val<Input::Record>("solver") );
304  eq_data_->ls[sbi]->set_solution(eq_data_->output_vec[sbi].petsc_vec());
305 
306  eq_data_->ls_dt[sbi] = new LinSys_PETSC(eq_data_->dh_->distr().get(), petsc_default_opts);
307  ( (LinSys_PETSC *)eq_data_->ls_dt[sbi] )->set_from_input( input_rec.val<Input::Record>("solver") );
308 
309  eq_data_->conc_fe[sbi] = create_field_fe< 3, FieldValue<3>::Scalar >(eq_data_->dh_p0);
310 
311  VecDuplicate(eq_data_->ls[sbi]->get_solution(), &eq_data_->ret_vec[sbi]);
312  }
313 
314 
315  init_projection = input_rec.val<bool>("init_projection");
316 
317  // create assemblation object, finite element structures and distribute DOFs
318  mass_assembly_ = new GenericAssembly< MassAssemblyDim >(eq_fields_.get(), eq_data_.get());
319  stiffness_assembly_ = new GenericAssembly< StiffnessAssemblyDim >(eq_fields_.get(), eq_data_.get());
320  sources_assembly_ = new GenericAssembly< SourcesAssemblyDim >(eq_fields_.get(), eq_data_.get());
321  bdr_cond_assembly_ = new GenericAssembly< BdrConditionAssemblyDim >(eq_fields_.get(), eq_data_.get());
322 
323  if(init_projection)
324  init_assembly_ = new GenericAssembly< InitProjectionAssemblyDim >(eq_fields_.get(), eq_data_.get());
325  else
326  init_assembly_ = new GenericAssembly< InitConditionAssemblyDim >(eq_fields_.get(), eq_data_.get());
327 
328  // initialization of balance object
329  Model::balance_->allocate(eq_data_->dh_->distr()->lsize(), mass_assembly_->eval_points()->max_size());
330 
331  int qsize = mass_assembly_->eval_points()->max_size();
332  eq_data_->dif_coef.resize(eq_data_->n_substances());
333  for (unsigned int sbi=0; sbi<eq_data_->n_substances(); sbi++)
334  {
335  eq_data_->dif_coef[sbi].resize(qsize);
336  }
337 
338  eq_fields_->init_condition.setup_components();
339  for (unsigned int sbi=0; sbi<eq_data_->n_substances(); sbi++)
340  {
341  eq_fields_->init_condition[sbi].add_factory( std::make_shared<FieldFE<3, FieldValue<3>::Scalar>::NativeFactory>(sbi, eq_data_->dh_));
342  }
343 }
344 
345 
346 template<class Model>
348 {
349  delete Model::time_;
350 
351  if (eq_data_->gamma.size() > 0) {
352  // initialize called
353 
354  for (unsigned int i=0; i<eq_data_->n_substances(); i++)
355  {
356  delete eq_data_->ls[i];
357  delete eq_data_->ls_dt[i];
358 
359  if (stiffness_matrix[i])
360  chkerr(MatDestroy(&stiffness_matrix[i]));
361  if (mass_matrix[i])
362  chkerr(MatDestroy(&mass_matrix[i]));
363  if (rhs[i])
364  chkerr(VecDestroy(&rhs[i]));
365  if (mass_vec[i])
366  chkerr(VecDestroy(&mass_vec[i]));
367  if (eq_data_->ret_vec[i])
368  chkerr(VecDestroy(&eq_data_->ret_vec[i]));
369  }
370  delete[] eq_data_->ls;
371  delete[] eq_data_->ls_dt;
372  //delete[] stiffness_matrix;
373  //delete[] mass_matrix;
374  //delete[] rhs;
375  //delete[] mass_vec;
376  //delete[] ret_vec;
377 
378  delete mass_assembly_;
379  delete stiffness_assembly_;
380  delete sources_assembly_;
381  delete bdr_cond_assembly_;
382  delete init_assembly_;
383  }
384 
385 }
386 
387 
388 template<class Model>
390 {
391  START_TIMER(Model::ModelEqData::name());
392  eq_fields_->mark_input_times( *(Model::time_) );
393  eq_fields_->set_time(Model::time_->step(), LimitSide::left);
394  std::stringstream ss; // print warning message with table of uninitialized fields
395  if ( FieldCommon::print_message_table(ss, "transport DG") ) {
396  WarningOut() << ss.str();
397  }
398 
399 
400  // set initial conditions
401  set_initial_condition();
402  for (unsigned int sbi = 0; sbi < eq_data_->n_substances(); sbi++)
403  ( (LinSys_PETSC *)eq_data_->ls[sbi] )->set_initial_guess_nonzero();
404 
405  // check first time assembly - needs preallocation
406  if (!allocation_done) preallocate();
407 
408  // after preallocation we assemble the matrices and vectors required for mass balance
409  for (unsigned int sbi=0; sbi<eq_data_->n_substances(); ++sbi)
410  {
411  Model::balance_->calculate_instant(eq_data_->subst_idx_[sbi], eq_data_->ls[sbi]->get_solution());
412 
413  // add sources due to sorption
414  ret_sources_prev[sbi] = 0;
415  }
416 
417  output_data();
418 }
419 
420 
421 template<class Model>
423 {
424  // preallocate system matrix
425  for (unsigned int i=0; i<eq_data_->n_substances(); i++)
426  {
427  // preallocate system matrix
428  eq_data_->ls[i]->start_allocation();
429  stiffness_matrix[i] = NULL;
430  rhs[i] = NULL;
431 
432  // preallocate mass matrix
433  eq_data_->ls_dt[i]->start_allocation();
434  mass_matrix[i] = NULL;
435  VecZeroEntries(eq_data_->ret_vec[i]);
436  }
437  stiffness_assembly_->assemble(eq_data_->dh_);
438  mass_assembly_->assemble(eq_data_->dh_);
439  sources_assembly_->assemble(eq_data_->dh_);
440  bdr_cond_assembly_->assemble(eq_data_->dh_);
441  for (unsigned int i=0; i<eq_data_->n_substances(); i++)
442  {
443  VecAssemblyBegin(eq_data_->ret_vec[i]);
444  VecAssemblyEnd(eq_data_->ret_vec[i]);
445  }
446 
447  allocation_done = true;
448 }
449 
450 
451 
452 template<class Model>
454 {
455  START_TIMER("DG-ONE STEP");
456 
457  Model::time_->next_time();
458  Model::time_->view("TDG");
459 
460  START_TIMER("data reinit");
461  eq_fields_->set_time(Model::time_->step(), LimitSide::left);
462  END_TIMER("data reinit");
463 
464  // assemble mass matrix
465  if (mass_matrix[0] == NULL || eq_fields_->subset(FieldFlag::in_time_term).changed() )
466  {
467  for (unsigned int i=0; i<eq_data_->n_substances(); i++)
468  {
469  eq_data_->ls_dt[i]->start_add_assembly();
470  eq_data_->ls_dt[i]->mat_zero_entries();
471  VecZeroEntries(eq_data_->ret_vec[i]);
472  }
473  mass_assembly_->assemble(eq_data_->dh_);
474  for (unsigned int i=0; i<eq_data_->n_substances(); i++)
475  {
476  eq_data_->ls_dt[i]->finish_assembly();
477  VecAssemblyBegin(eq_data_->ret_vec[i]);
478  VecAssemblyEnd(eq_data_->ret_vec[i]);
479  // construct mass_vec for initial time
480  if (mass_matrix[i] == NULL)
481  {
482  VecDuplicate(eq_data_->ls[i]->get_solution(), &mass_vec[i]);
483  MatMult(*(eq_data_->ls_dt[i]->get_matrix()), eq_data_->ls[i]->get_solution(), mass_vec[i]);
484  MatConvert(*( eq_data_->ls_dt[i]->get_matrix() ), MATSAME, MAT_INITIAL_MATRIX, &mass_matrix[i]);
485  }
486  else
487  MatCopy(*( eq_data_->ls_dt[i]->get_matrix() ), mass_matrix[i], DIFFERENT_NONZERO_PATTERN);
488  }
489  }
490 
491  // assemble stiffness matrix
492  if (stiffness_matrix[0] == NULL
493  || eq_fields_->subset(FieldFlag::in_main_matrix).changed()
494  || eq_fields_->flow_flux.changed())
495  {
496  // new fluxes can change the location of Neumann boundary,
497  // thus stiffness matrix must be reassembled
498  for (unsigned int i=0; i<eq_data_->n_substances(); i++)
499  {
500  eq_data_->ls[i]->start_add_assembly();
501  eq_data_->ls[i]->mat_zero_entries();
502  }
503  stiffness_assembly_->assemble(eq_data_->dh_);
504  for (unsigned int i=0; i<eq_data_->n_substances(); i++)
505  {
506  eq_data_->ls[i]->finish_assembly();
507 
508  if (stiffness_matrix[i] == NULL)
509  MatConvert(*( eq_data_->ls[i]->get_matrix() ), MATSAME, MAT_INITIAL_MATRIX, &stiffness_matrix[i]);
510  else
511  MatCopy(*( eq_data_->ls[i]->get_matrix() ), stiffness_matrix[i], DIFFERENT_NONZERO_PATTERN);
512  }
513  }
514 
515  // assemble right hand side (due to sources and boundary conditions)
516  if (rhs[0] == NULL
517  || eq_fields_->subset(FieldFlag::in_rhs).changed()
518  || eq_fields_->flow_flux.changed())
519  {
520  for (unsigned int i=0; i<eq_data_->n_substances(); i++)
521  {
522  eq_data_->ls[i]->start_add_assembly();
523  eq_data_->ls[i]->rhs_zero_entries();
524  }
525  sources_assembly_->assemble(eq_data_->dh_);
526  bdr_cond_assembly_->assemble(eq_data_->dh_);
527  for (unsigned int i=0; i<eq_data_->n_substances(); i++)
528  {
529  eq_data_->ls[i]->finish_assembly();
530 
531  if (rhs[i] == nullptr) VecDuplicate(*( eq_data_->ls[i]->get_rhs() ), &rhs[i]);
532  VecCopy(*( eq_data_->ls[i]->get_rhs() ), rhs[i]);
533  }
534  }
535 
536  /* Apply backward Euler time integration.
537  *
538  * Denoting A the stiffness matrix and M the mass matrix, the algebraic system at the k-th time level reads
539  *
540  * (1/dt M + A)u^k = f + 1/dt M.u^{k-1}
541  *
542  * Hence we modify at each time level the right hand side:
543  *
544  * f^k = f + 1/dt M u^{k-1},
545  *
546  * where f stands for the term stemming from the force and boundary conditions.
547  * Accordingly, we set
548  *
549  * A^k = A + 1/dt M.
550  *
551  */
552  Mat m;
553  START_TIMER("solve");
554  for (unsigned int i=0; i<eq_data_->n_substances(); i++)
555  {
556  MatConvert(stiffness_matrix[i], MATSAME, MAT_INITIAL_MATRIX, &m);
557  MatAXPY(m, 1./Model::time_->dt(), mass_matrix[i], SUBSET_NONZERO_PATTERN);
558  eq_data_->ls[i]->set_matrix(m, DIFFERENT_NONZERO_PATTERN);
559  Vec w;
560  VecDuplicate(rhs[i], &w);
561  VecWAXPY(w, 1./Model::time_->dt(), mass_vec[i], rhs[i]);
562  eq_data_->ls[i]->set_rhs(w);
563 
564  VecDestroy(&w);
565  chkerr(MatDestroy(&m));
566 
567  eq_data_->ls[i]->solve();
568 
569  // update mass_vec due to possible changes in mass matrix
570  MatMult(*(eq_data_->ls_dt[i]->get_matrix()), eq_data_->ls[i]->get_solution(), mass_vec[i]);
571  }
572  END_TIMER("solve");
573 
574  // Possibly output matrices for debug reasons.
575  // for (unsigned int i=0; i<eq_data_->n_substances(); i++){
576  // string conc_name = eq_data_->substances().names()[i] + "_" + std::to_string(eq_data_->time_->step().index());
577  // eq_data_->ls[i]->view("stiff_" + conc_name);
578  // eq_data_->ls_dt[i]->view("mass_" + conc_name);
579  // }
580 
581  calculate_cumulative_balance();
582 
583  END_TIMER("DG-ONE STEP");
584 }
585 
586 
587 template<class Model>
589 {
590  // calculate element averages of solution
591  for (auto cell : eq_data_->dh_->own_range() )
592  {
593  LocDofVec loc_dof_indices = cell.get_loc_dof_indices();
594  unsigned int n_dofs=loc_dof_indices.n_rows;
595 
596  DHCellAccessor dh_p0_cell = eq_data_->dh_p0->cell_accessor_from_element(cell.elm_idx());
597  IntIdx dof_p0 = dh_p0_cell.get_loc_dof_indices()[0];
598 
599  for (unsigned int sbi=0; sbi<eq_data_->n_substances(); ++sbi)
600  {
601  eq_data_->conc_fe[sbi]->vec().set(dof_p0, 0);
602 
603  for (unsigned int j=0; j<n_dofs; ++j)
604  eq_data_->conc_fe[sbi]->vec().add( dof_p0, eq_data_->ls[sbi]->get_solution_array()[loc_dof_indices[j]] );
605 
606  eq_data_->conc_fe[sbi]->vec().set( dof_p0, max(eq_data_->conc_fe[sbi]->vec().get(dof_p0)/n_dofs, 0.) );
607  }
608  }
609 }
610 
611 
612 
613 
614 template<class Model>
616 {
617  //if (!Model::time_->is_current( Model::time_->marks().type_output() )) return;
618 
619 
620  START_TIMER("DG-OUTPUT");
621 
622  // gather the solution from all processors
623  eq_fields_->output_fields.set_time( this->time().step(), LimitSide::left);
624  //if (eq_fields_->output_fields.is_field_output_time(eq_fields_->output_field, this->time().step()) )
625  eq_fields_->output_fields.output(this->time().step());
626 
627  Model::output_data();
628 
629  START_TIMER("TOS-balance");
630  for (unsigned int sbi=0; sbi<eq_data_->n_substances(); ++sbi)
631  Model::balance_->calculate_instant(eq_data_->subst_idx_[sbi], eq_data_->ls[sbi]->get_solution());
632  Model::balance_->output();
633  END_TIMER("TOS-balance");
634 
635  END_TIMER("DG-OUTPUT");
636 }
637 
638 
639 template<class Model>
641 {
642  if (Model::balance_->cumulative())
643  {
644  for (unsigned int sbi=0; sbi<eq_data_->n_substances(); ++sbi)
645  {
646  Model::balance_->calculate_cumulative(eq_data_->subst_idx_[sbi], eq_data_->ls[sbi]->get_solution());
647 
648  // update source increment due to retardation
649  VecDot(eq_data_->ret_vec[sbi], eq_data_->ls[sbi]->get_solution(), &ret_sources[sbi]);
650 
651  Model::balance_->add_cumulative_source(eq_data_->subst_idx_[sbi], (ret_sources[sbi]-ret_sources_prev[sbi])/Model::time_->dt());
652  ret_sources_prev[sbi] = ret_sources[sbi];
653  }
654  }
655 }
656 
657 
658 
659 
660 template<class Model>
662 {
663  if(init_projection)
664  {
665  for (unsigned int sbi=0; sbi<eq_data_->n_substances(); sbi++)
666  eq_data_->ls[sbi]->start_allocation();
667 
668  init_assembly_->assemble(eq_data_->dh_);
669 
670  for (unsigned int sbi=0; sbi<eq_data_->n_substances(); sbi++)
671  eq_data_->ls[sbi]->start_add_assembly();
672 
673  init_assembly_->assemble(eq_data_->dh_);
674 
675  for (unsigned int sbi=0; sbi<eq_data_->n_substances(); sbi++)
676  {
677  eq_data_->ls[sbi]->finish_assembly();
678  eq_data_->ls[sbi]->solve();
679  }
680  }
681  else
682  init_assembly_->assemble(eq_data_->dh_);
683 }
684 
685 
686 template<class Model>
688 {
689  if (solution_changed)
690  {
691  for (auto cell : eq_data_->dh_->own_range() )
692  {
693  LocDofVec loc_dof_indices = cell.get_loc_dof_indices();
694  unsigned int n_dofs=loc_dof_indices.n_rows;
695 
696  DHCellAccessor dh_p0_cell = eq_data_->dh_p0->cell_accessor_from_element(cell.elm_idx());
697  IntIdx dof_p0 = dh_p0_cell.get_loc_dof_indices()[0];
698 
699  for (unsigned int sbi=0; sbi<eq_data_->n_substances(); ++sbi)
700  {
701  double old_average = 0;
702  for (unsigned int j=0; j<n_dofs; ++j)
703  old_average += eq_data_->ls[sbi]->get_solution_array()[loc_dof_indices[j]];
704  old_average /= n_dofs;
705 
706  for (unsigned int j=0; j<n_dofs; ++j)
707  eq_data_->ls[sbi]->get_solution_array()[loc_dof_indices[j]]
708  += eq_data_->conc_fe[sbi]->vec().get(dof_p0) - old_average;
709  }
710  }
711  }
712  // update mass_vec for the case that mass matrix changes in next time step
713  for (unsigned int sbi=0; sbi<eq_data_->n_substances(); ++sbi)
714  MatMult(*(eq_data_->ls_dt[sbi]->get_matrix()), eq_data_->ls[sbi]->get_solution(), mass_vec[sbi]);
715 }
716 
717 
718 
719 
720 
721 
723 template class TransportDG<HeatTransferModel>;
724 
725 
726 
727 
FieldCommon::units
FieldCommon & units(const UnitSI &units)
Set basic units of the field.
Definition: field_common.hh:152
FieldFlag::in_rhs
static constexpr Mask in_rhs
A field is part of the right hand side of the equation.
Definition: field_flag.hh:51
LocDofVec
arma::Col< IntIdx > LocDofVec
Definition: index_types.hh:28
Input::Type::Bool
Class for declaration of the input of type Bool.
Definition: type_base.hh:452
fe_rt.hh
Definitions of Raviart-Thomas finite elements.
UnitSI::dimensionless
static UnitSI & dimensionless()
Returns dimensionless unit.
Definition: unit_si.cc:55
TransportDG::EqFields::dg_penalty
MultiField< 3, FieldValue< 3 >::Scalar > dg_penalty
Penalty enforcing inter-element continuity of solution (for each substance).
Definition: transport_dg.hh:153
factory.hh
LinSys
Definition: la_linsys_new.hh:169
transport_dg.hh
Discontinuous Galerkin method for equation of transport with dispersion.
TransportDG::input_rec
Input::Record input_rec
Array for storing the output solution data.
Definition: transport_dg.hh:392
Input::Type::Integer
Class for declaration of the integral input data.
Definition: type_base.hh:483
Input::Record::val
const Ret val(const string &key) const
Definition: accessors_impl.hh:31
IntIdx
int IntIdx
Definition: index_types.hh:25
EquationBase::time
TimeGovernor & time()
Definition: equation.hh:149
Input::Type::Selection::close
const Selection & close() const
Close the Selection, no more values can be added.
Definition: type_selection.cc:65
fe_values.hh
Class FEValues calculates finite element data on the actual cells such as shape function values,...
value
static constexpr bool value
Definition: json.hpp:87
chkerr
void chkerr(unsigned int ierr)
Replacement of new/delete operator in the spirit of xmalloc.
Definition: system.hh:142
FLOW123D_FORCE_LINK_IN_CHILD
#define FLOW123D_FORCE_LINK_IN_CHILD(x)
Definition: global_defs.h:157
LinSys_PETSC
Definition: linsys_PETSC.hh:43
TransportDG::EqFields::EqFields
EqFields()
Definition: transport_dg.cc:111
Side::dim
unsigned int dim() const
Returns dimension of the side, that is dimension of the element minus one.
Definition: accessors_impl.hh:192
std::vector
Definition: doxy_dummy_defs.hh:7
TransportDG::update_solution
void update_solution() override
Computes the solution in one time instant.
Definition: transport_dg.cc:453
ElementAccessor< 3 >
arma::vec3
Definition: doxy_dummy_defs.hh:17
FieldCommon::flags
FieldCommon & flags(FieldFlag::Flags::Mask mask)
Definition: field_common.hh:191
advection_diffusion_model.hh
Discontinuous Galerkin method for equation of transport with dispersion.
field_fe.hh
linsys_PETSC.hh
Solver based on the original PETSc solver using MPIAIJ matrix and succesive Schur complement construc...
TransportDG::set_initial_condition
void set_initial_condition()
Calculates the dispersivity (diffusivity) tensor from the velocity field.
Definition: transport_dg.cc:661
TransportDG::EqData::set_DG_parameters_boundary
void set_DG_parameters_boundary(Side side, const int K_size, const std::vector< arma::mat33 > &K, const double flux, const arma::vec3 &normal_vector, const double alpha, double &gamma)
Sets up parameters of the DG method on a given boundary edge.
Definition: transport_dg.cc:166
index_types.hh
TransportDG::calculate_cumulative_balance
void calculate_cumulative_balance()
Definition: transport_dg.cc:640
TransportDG::compute_p0_interpolation
void compute_p0_interpolation()
Compute P0 interpolation of the solution (used in reaction term).
Definition: transport_dg.cc:588
FieldFlag::equation_external_output
static constexpr Mask equation_external_output
Match an output field, that can be also copy of other field.
Definition: field_flag.hh:58
TransportDG::EqFields::region_id
Field< 3, FieldValue< 3 >::Scalar > region_id
Definition: transport_dg.hh:154
TransportDG::TransportDG
TransportDG(Mesh &init_mesh, const Input::Record in_rec)
Constructor.
Definition: transport_dg.cc:202
fe_p.hh
Definitions of basic Lagrangean finite elements with polynomial shape functions.
FieldCommon::flags_add
FieldCommon & flags_add(FieldFlag::Flags::Mask mask)
Definition: field_common.hh:197
Input::Type::Default
Class Input::Type::Default specifies default value of keys of a Input::Type::Record.
Definition: type_record.hh:61
equation_output.hh
EquationBase::balance
std::shared_ptr< Balance > balance() const
Definition: equation.hh:185
TransportDG::output_data
void output_data()
Postprocesses the solution and writes to output file.
Definition: transport_dg.cc:615
LimitSide::left
@ left
dh_cell_accessor.hh
accessors.hh
TransportDG::eq_fields_
std::shared_ptr< EqFields > eq_fields_
Fields for model parameters.
Definition: transport_dg.hh:359
Input::Record
Accessor to the data with type Type::Record.
Definition: accessors.hh:291
sys_profiler.hh
generic_assembly.hh
quadrature_lib.hh
Definitions of particular quadrature rules on simplices.
TransportDG::initialize
void initialize() override
Definition: transport_dg.cc:242
output_time.hh
TransportDG::get_dg_variant_selection_input_type
static const Input::Type::Selection & get_dg_variant_selection_input_type()
Input type for the DG variant selection.
Definition: transport_dg.cc:53
TransportDG::preallocate
void preallocate()
Definition: transport_dg.cc:422
Side
Definition: accessors.hh:396
GenericField::subdomain
static auto subdomain(Mesh &mesh) -> IndexField
Definition: generic_field.impl.hh:58
TransportOperatorSplitting::output_data
void output_data() override
Write computed fields.
Definition: transport_operator_splitting.cc:242
Input::Type::Default::obligatory
static Default obligatory()
The factory function to make an empty default value which is obligatory.
Definition: type_record.hh:110
FieldCommon::print_message_table
static bool print_message_table(ostream &stream, std::string equation_name)
Definition: field_common.cc:96
Input::Type::Record::declare_key
Record & declare_key(const string &key, std::shared_ptr< TypeBase > type, const Default &default_value, const string &description, TypeBase::attribute_map key_attributes=TypeBase::attribute_map())
Declares a new key of the Record.
Definition: type_record.cc:503
Side::element
ElementAccessor< 3 > element() const
Returns iterator to the element of the side.
Definition: accessors_impl.hh:212
TransportDG::allocation_done
bool allocation_done
Indicates whether matrices have been preallocated.
Definition: transport_dg.hh:415
TransportDG::EqFields
Definition: transport_dg.hh:147
Input::Type::Selection
Template for classes storing finite set of named values.
Definition: type_selection.hh:65
Side::n_nodes
unsigned int n_nodes() const
Returns number of nodes of the side.
Definition: accessors.hh:442
ElementAccessor::node
NodeAccessor< 3 > node(unsigned int ni) const
Definition: accessors.hh:233
Input::Type::Record::close
Record & close() const
Close the Record for further declarations of keys.
Definition: type_record.cc:304
heat_model.hh
Discontinuous Galerkin method for equation of transport with dispersion.
generic_field.hh
Input::Type
Definition: balance.hh:41
Input::Type::Record
Record type proxy class.
Definition: type_record.hh:182
TransportDG
Transport with dispersion implemented using discontinuous Galerkin method.
Definition: transport_dg.hh:134
TransportDG::EqFields::fracture_sigma
MultiField< 3, FieldValue< 3 >::Scalar > fracture_sigma
Transition parameter for diffusive transfer on fractures (for each substance).
Definition: transport_dg.hh:152
GenericField::region_id
static auto region_id(Mesh &mesh) -> IndexField
Definition: generic_field.impl.hh:39
FieldFlag::in_main_matrix
static constexpr Mask in_main_matrix
A field is part of main "stiffness matrix" of the equation.
Definition: field_flag.hh:49
FieldCommon::input_default
FieldCommon & input_default(const string &input_default)
Definition: field_common.hh:139
FieldFE
Definition: field.hh:61
TransportDG::eq_data_
std::shared_ptr< EqData > eq_data_
Data for model parameters.
Definition: transport_dg.hh:362
TransportDG::DGVariant
DGVariant
Definition: transport_dg.hh:244
Mesh
Definition: mesh.h:355
multi_field.hh
Input::Type::Array
Class for declaration of inputs sequences.
Definition: type_base.hh:339
TransportDG::update_after_reactions
void update_after_reactions(bool solution_changed)
Definition: transport_dg.cc:687
Model
Definition: field_model.hh:338
DHCellAccessor
Cell accessor allow iterate over DOF handler cells.
Definition: dh_cell_accessor.hh:43
Input::Array
Accessor to input data conforming to declared Array.
Definition: accessors.hh:566
WarningOut
#define WarningOut()
Macro defining 'warning' record of log.
Definition: logger.hh:278
fe_value_handler.hh
TransportDG::EqFields::subdomain
Field< 3, FieldValue< 3 >::Scalar > subdomain
Definition: transport_dg.hh:155
OutputTime::CORNER_DATA
@ CORNER_DATA
Definition: output_time.hh:110
MixedPtr< FE_P_disc >
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
assembly_dg.hh
concentration_model.hh
Discontinuous Galerkin method for equation of transport with dispersion.
EquationBase::eq_fieldset_
FieldSet * eq_fieldset_
Definition: equation.hh:227
TransportDG::zero_time_step
void zero_time_step() override
Initialize solution in the zero time.
Definition: transport_dg.cc:389
TransportDG::~TransportDG
~TransportDG() override
Destructor.
Definition: transport_dg.cc:347
balance.hh
FieldCommon::description
FieldCommon & description(const string &description)
Definition: field_common.hh:127
TransportDG::get_input_type
static const Input::Type::Record & get_input_type()
Declare input record type for the equation TransportDG.
Definition: transport_dg.cc:79
Side::node
NodeAccessor< 3 > node(unsigned int i) const
Returns node for given local index i on the side.
Definition: accessors_impl.hh:206
Input::Type::Selection::add_value
Selection & add_value(const int value, const std::string &key, const std::string &description="", TypeBase::attribute_map attributes=TypeBase::attribute_map())
Adds one new value with name given by key to the Selection.
Definition: type_selection.cc:50
FieldFlag::in_time_term
static constexpr Mask in_time_term
A field is part of time term of the equation.
Definition: field_flag.hh:47
START_TIMER
#define START_TIMER(tag)
Starts a timer with specified tag.
Definition: sys_profiler.hh:115
TransportDG::EqData::elem_anisotropy
double elem_anisotropy(ElementAccessor< 3 > e) const
Compute and return anisotropy of given element.
Definition: transport_dg.cc:150
GenericAssembly
Generic class of assemblation.
Definition: generic_assembly.hh:160
TransportDG::EqFields::output_fields
EquationOutput output_fields
Definition: transport_dg.hh:157
LinSys_PETSC::get_input_type
static const Input::Type::Record & get_input_type()
Definition: linsys_PETSC.cc:32
END_TIMER
#define END_TIMER(tag)
Ends a timer with specified tag.
Definition: sys_profiler.hh:149
Element::n_nodes
unsigned int n_nodes() const
Definition: elements.h:125
FieldCommon::name
FieldCommon & name(const string &name)
Definition: field_common.hh:120
FieldValue
Definition: field_values.hh:645