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balance.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 balance.hh
15  * @brief
16  */
17 
18 #ifndef BALANCE_HH_
19 #define BALANCE_HH_
20 
21 
22 #include <fstream> // for ofstream
23 #include <string> // for string
24 #include <vector> // for vector
25 #include <unordered_map> // for unordered_map
26 #include "mesh/accessors.hh" // for SideIter
27 #include "tools/unit_si.hh" // for UnitSI
28 #include "input/accessors.hh" // for Record
29 #include "petscmat.h" // for Mat, _p_Mat
30 #include "petscvec.h" // for Vec, _p_Vec
31 #include "system/file_path.hh" // for FilePath
32 #include "tools/time_marks.hh" // for TimeMark, TimeMark::Type
33 #include "system/index_types.hh" // for LongIdx
34 
35 class Mesh;
36 class TimeGovernor;
37 class DOFHandlerMultiDim;
38 class DHCellSide;
39 class DHCellAccessor;
40 namespace Input {
41  namespace Type {
42  class Record;
43  class Selection;
44  }
45 }
46 
47 
48 
49 
50 
51 /**
52  * Design of balance class - serves as storage and writer.
53  * Equations themselves call methods of Balance that add/modify mass, source and flux
54  * of various quantities and generate output.
55  *
56  * One instance of Balance can handle several conservative quantities of the same type
57  * (e.g. mass of several substances or their phases).
58  *
59  * The mass, flux and source are calculated as follows:
60  *
61  * m(q,r) = ( M'(q) * solution + mv(q) )[r]
62  * f(q,r) = -( R' * ( F(q) * solution + fv(q) ) )[r]
63  * s(q,r) = ( S'(q) * solution + sv(q) )[r]
64  *
65  * where M' stands for matrix transpose,
66  *
67  * m(q,r)...mass of q-th substance in region r
68  * f(q,r)...incoming flux of q-th substance in region r
69  * s(q,r)...source of q-th substance in region r
70  *
71  * and
72  *
73  * M(q)...region_mass_matrix_ n_dofs x n_bulk_regions
74  * F(q)...be_flux_matrix_ n_boundary_edges x n_dofs
75  * S(q)...region_source_matrix_ n_dofs x n_bulk_regions
76  * SV(q)..region_source_rhs_ n_dofs x n_bulk_regions
77  * mv(q)..region_mass_vec_ n_bulk_regions
78  * fv(q)..be_flux_vec_ n_boundary_edges
79  * sv(q)..region_source_vec_ n_bulk_regions
80  * R......region_be_matrix_ n_boundary_edges x n_boundary_regions
81  *
82  * Remark: Matrix F and the vector fv are such that F*solution+fv produces _outcoming_ fluxes per boundary edge.
83  * However we write to output _incoming_ flux due to users' convention and consistently with input interface.
84  *
85  * Note that it holds:
86  *
87  * sv(q) = column sum of SV(q)
88  *
89  * Except for that, we also provide information on positive/negative flux and source:
90  *
91  * fp(q,r) = ( R' * EFP(q) )[r], EFP(q)[e] = max{ 0, ( F(q) * solution + fv(q) )[e] }
92  * fn(q,r) = ( R' * EFN(q) )[r], EFN(q)[e] = min{ 0, ( F(q) * solution + fv(q) )[e] }
93  * sp(q,r) = sum_{i in DOFS } max{ 0, ( S(q)[i,r] * solution[i] + SV(q)[i,r] ) }
94  * sn(q,r) = sum_{i in DOFS } min{ 0, ( S(q)[i,r] * solution[i] + SV(q)[i,r] ) }
95  *
96  * where
97  *
98  * fp(q,r)...positive (inward) flux of q-th quantity in region r
99  * fn(q,r)...negative (outward) flux of q-th quantity in region r
100  * sp(q,r)...positive source (spring) of q-th quantity in region r
101  * sn(q,r)...negative source (sink) of q-th quantity in region r
102  *
103  * Remark: The matrix R is needed only for calculation of signed fluxes.
104  * The reason is that to determine sign, we decompose flux to sum of local contributions
105  * per each boundary element and check its sign. It is not possible to decompose flux
106  * using shape functions, since their normal derivatives may have any sign.
107  *
108  *
109  *
110  * Output values (if not relevant, zero is supplied):
111  *
112  * #time bulk_region quantity 0 0 0 mass source source_in source_out 0 0 0
113  * #time boundary_region quantity flux flux_in flux_out 0 0 0 0 0 0 0
114  * #time ALL quantity flux flux_in flux_out mass source source_in source_out integrated_flux integrated_source error
115  *
116  * error = current_mass - (initial_mass + integrated_source - integrated_flux)
117  *
118  */
119 class Balance {
120 public:
121 
122  /**
123  * Class for storing internal data about conservative quantities handled by the Balance object.
124  * In the future we may store additional data or support definition of derived quantities
125  * (e.g. linear combinations of quantities).
126  */
127  class Quantity {
128  public:
129 
130  Quantity(const unsigned int index, const string &name)
131  : name_(name),
132  index_(index)
133  {}
134 
135  /// Name of quantity (for output).
136  string name_;
137 
138  /// Internal index within list of quantities.
139  const unsigned int index_;
140 
141  };
142 
143  /**
144  * Possible formats of output file.
145  */
147  {
148  legacy,//!< legacy
149  txt, //!< csv
150  gnuplot//!< gnuplot
151  };
152 
153  /// Main balance input record type.
154  static const Input::Type::Record & get_input_type();
155 
156  /// Input selection for file format.
157  static const Input::Type::Selection & get_format_selection_input_type();
158 
159  /// Set global variable to output balance files into YAML format (in addition to the table format).
160  static void set_yaml_output();
161 
162  /**
163  * Constructor.
164  * @param file_prefix Prefix of output file name.
165  * @param mesh Mesh.
166  */
167  Balance(const std::string &file_prefix, const Mesh *mesh);
168 
169  /**
170  * Destructor.
171  */
172  ~Balance();
173 
174 
175  /**
176  * Initialize the balance object according to the input.
177  * The balance output time marks are set according to the already existing output time marks of the same equation.
178  * So, this method must be called after Output::
179  *
180  * @param in_rec Input record of balance.
181  * @param tg TimeGovernor of the equation. We need just equation mark type.
182  *
183  */
184  void init_from_input(const Input::Record &in_rec, TimeGovernor &tg);
185 
186  /// Setter for units of conserved quantities.
187  void units(const UnitSI &unit);
188 
189  /// Getter for cumulative_.
190  inline bool cumulative() const { return cumulative_; }
191 
192 
193  /**
194  * Define a single conservative quantity.
195  * @param name Name of the quantity.
196  * @return Quantity's internal index.
197  */
198  unsigned int add_quantity(const string &name);
199 
200  /**
201  * Define a set of conservative quantities.
202  * @param names List of quantities' names.
203  * @return List of quantities' indices.
204  */
205  std::vector<unsigned int> add_quantities(const std::vector<string> &names);
206 
207  /**
208  * Allocates matrices and vectors for balance based on DofHandler.
209  * @param dh DofHandler of the corresponding linear system (and solution).
210  * @param max_dofs_per_boundary Number of dofs contributing to one boundary edge.
211  */
212  void allocate(const std::shared_ptr<DOFHandlerMultiDim>& dh,
213  unsigned int max_dofs_per_boundary);
214 
215  /**
216  * Allocates matrices and vectors for balance.
217  * @param n_loc_dofs Number of solution dofs on the local process.
218  * @param max_dofs_per_boundary Number of dofs contributing to one boundary edge.
219  */
220  void allocate(unsigned int n_loc_dofs,
221  unsigned int max_dofs_per_boundary);
222 
223  /// Returns true if the current time step is marked for the balance output.
224  bool is_current();
225 
226  /**
227  * This method must be called before assembling the matrix for computing mass.
228  * It actually erases the matrix.
229  */
230  void start_mass_assembly(unsigned int quantity_idx);
231 
232  /// Variant of the start_mass_assembly() method for a set of quantities.
234  {
235  for (auto idx : q_idx_vec)
236  start_mass_assembly(idx);
237  }
238 
239  /**
240  * This method must be called before assembling the matrix and vector for fluxes.
241  * It actually erases the matrix and vector.
242  */
243  void start_flux_assembly(unsigned int quantity_idx);
244 
245  /// Variant of the start_flux_assembly() method for a set of quantities.
247  {
248  for (auto idx : q_idx_vec)
249  start_flux_assembly(idx);
250  }
251 
252  /**
253  * This method must be called before assembling the matrix and vectors for sources.
254  * It actually erases the matrix and vectors.
255  */
256  void start_source_assembly(unsigned int quantity_idx);
257 
258  /// Variant of the start_source_assembly() method for a set of quantities.
260  {
261  for (auto idx : q_idx_vec)
262  start_source_assembly(idx);
263  }
264 
265 
266  /**
267  * Adds elements into matrix for computing mass.
268  * The mass matrix M is in format [n_dofs x n_bulk_regions] for each quantity.
269  * The mass vector mv is in format [n_bulk_regions] for each quantity.
270  * The region mass is later computed using transpose multiplication (M'*u + mv)[r].
271  * See class @p Balance description above for details.
272  * @param quantity_idx Index of quantity.
273  * @param dh_cell Dofhandler cell accessor.
274  * @param loc_dof_indices Local dof indices (to the solution vector) to be added.
275  * @param mat_values Values to be added into matrix M.
276  * @param vec_value Value to be added into vector mv.
277  */
278  void add_mass_values(unsigned int quantity_idx,
279  const DHCellAccessor &dh_cell,
280  const LocDofVec &loc_dof_indices,
281  const std::vector<double> &mat_values,
282  double vec_value);
283 
284  /**
285  * Adds elements into matrix for computing (outgoing) flux.
286  * The flux matrix F is in format [n_boundary_edges x n_dofs] for each quantity.
287  * The flux vector fv is in format [n_boundary_edges] for each quantity.
288  * See class @p Balance description above for details.
289  * @param quantity_idx Index of quantity.
290  * @param side DHCellSide iterator.
291  * @param loc_dof_indices Local dof indices (to the solution vector) to be added.
292  * @param mat_values Values to be added into matrix F.
293  * @param vec_value Value to be added into vector fv.
294  */
295  void add_flux_values(unsigned int quantity_idx,
296  const DHCellSide &side,
297  const LocDofVec &loc_dof_indices,
298  const std::vector<double> &mat_values,
299  double vec_value);
300 
301  /**
302  * Adds elements into matrix and vector for computing source.
303  * The source region matrix S is in format [n_dofs x n_bulk_regions] for each quantity (multiplies solution).
304  * The source region rhs matrix SV is in format [n_dofs x n_bulk_regions] for each quantity (addition).
305  * The region source is then computed as (S'(q) * solution + sv(q))[r], while sv(q) being column sum of SV(q).
306  * The source term for a specific region and quantity is then
307  * @param quantity_idx Index of quantity.
308  * @param region_idx Index of bulk region.
309  * @param loc_dof_indices Local dof indices (to the solution vector) to be added.
310  * @param mult_mat_values Values to be added into matrix S.
311  * @param add_mat_values Values to be added into matrix SV.
312  */
313  void add_source_values(unsigned int quantity_idx,
314  unsigned int region_idx,
315  const LocDofVec &loc_dof_indices,
316  const std::vector<double> &mult_mat_values,
317  const std::vector<double> &add_mat_values);
318 
319 
320  /// This method must be called after assembling the matrix for computing mass.
321  void finish_mass_assembly(unsigned int quantity_idx);
322 
323  /// Variant of the finish_mass_assembly() method for a set of quantities.
325  {
326  for (auto idx : q_idx_vec)
327  finish_mass_assembly(idx);
328  }
329 
330  /// This method must be called after assembling the matrix and vector for computing flux.
331  void finish_flux_assembly(unsigned int quantity_idx);
332 
333  /// Variant of the finish_flux_assembly() method for a set of quantities.
335  {
336  for (auto idx : q_idx_vec)
337  finish_flux_assembly(idx);
338  }
339 
340  /// This method must be called after assembling the matrix and vectors for computing source.
341  void finish_source_assembly(unsigned int quantity_idx);
342 
343  /// Variant of the finish_source_assembly() method for a set of quantities.
345  {
346  for (auto idx : q_idx_vec)
347  finish_source_assembly(idx);
348  }
349 
350  /**
351  * Updates cumulative quantities for balance.
352  * This method can be called in substeps even if no output is generated.
353  * It calculates the sum of source and sum of (incoming) flux over time interval.
354  * @param quantity_idx Index of quantity.
355  * @param solution Solution vector.
356  */
357  void calculate_cumulative(unsigned int quantity_idx,
358  const Vec &solution);
359 
360  /**
361  * Calculates actual mass and save it to given vector.
362  * @param quantity_idx Index of quantity.
363  * @param solution Solution vector.
364  * @param output_array Vector of output masses per region.
365  */
366  void calculate_mass(unsigned int quantity_idx,
367  const Vec &solution,
368  vector<double> &output_array);
369 
370  /**
371  * Calculates actual mass, incoming flux and source.
372  * @param quantity_idx Index of quantity.
373  * @param solution Solution vector.
374  */
375  void calculate_instant(unsigned int quantity_idx,
376  const Vec &solution);
377 
378  /**
379  * Adds provided values to the cumulative sources.
380  * @param quantity_idx Index of quantity.
381  * @param sources Sources per region.
382  * @param dt Actual time step.
383  */
384  void add_cumulative_source(unsigned int quantity_idx, double source);
385 
386  /// Perform output to file for given time instant.
387  void output();
388 
389 private:
390  /// Size of column in output (used if delimiter is space)
391  static const unsigned int output_column_width = 20;
392  /**
393  * Postponed allocation and initialization to allow calling setters in arbitrary order.
394  * In particular we need to perform adding of output times after the output time marks are set.
395  * On the other hand we need to read the input before we make the allocation.
396  *
397  * The initialization is done during the first call of any start_*_assembly method.
398  */
399  void lazy_initialize();
400 
401  /// Perform output in old format (for compatibility)
402  void output_legacy(double time);
403 
404  /// Perform output in csv format
405  void output_csv(double time, char delimiter, const std::string& comment_string, unsigned int repeat = 0);
406 
407  /// Perform output in yaml format
408  void output_yaml(double time);
409 
410  /// Return part of output represented by zero values. Count of zero values is given by cnt parameter.
411  std::string csv_zero_vals(unsigned int cnt, char delimiter);
412 
413  /// Print output header
414  void format_csv_output_header(char delimiter, const std::string& comment_string);
415 
416  /// Format string value of csv output. Wrap string into quotes and if delimiter is space, align text to column.
417  std::string format_csv_val(std::string val, char delimiter, bool initial = false);
418 
419  /// Format double value of csv output. If delimiter is space, align text to column.
420  std::string format_csv_val(double val, char delimiter, bool initial = false);
421 
422  /** Computes unique id of local boundary edge from local element index and element side index
423  *
424  * @param side is a side of locally owned element
425  */
427  { return 4*side->elem_idx() + side->side_idx();} // 4 is maximum of sides per element
428 
429  //**********************************************
430 
431  static bool do_yaml_output_;
432 
433  /// Allocation parameters. Set by the allocate method used in the lazy_initialize.
434  unsigned int n_loc_dofs_par_;
435  unsigned int n_loc_dofs_seq_;
437 
438 
439  /// Save prefix passed in in constructor.
440  std::string file_prefix_;
441 
442  /// File path for output_ stream.
444 
445  /// Handle for file for output in given OutputFormat of balance and total fluxes over individual regions and region sets.
446  std::ofstream output_;
447 
448  // The same as the previous case, but for output in YAML format.
449  std::ofstream output_yaml_;
450 
451  /// Format of output file.
453 
454  /// Names of conserved quantities.
456 
457  const Mesh *mesh_;
458 
459  /// Units of conserved quantities.
461 
462 
463  /// Matrices for calculation of mass (n_dofs x n_bulk_regions).
465 
466  /// Matrices for calculation of flux (n_boundary_edges x n_dofs).
468 
469  /// Matrices for calculation of source (n_dofs x n_bulk_regions).
471 
472  /// Matrices for calculation of signed source (n_dofs x n_bulk_regions).
474 
475  /// Vectors for calculation of flux (n_boundary_edges).
477 
478  /// Vectors for calculation of mass (n_bulk_regions).
480 
481  /** Maps unique identifier of (local bulk element idx, side idx) returned by @p get_boundary_edge_uid(side)
482  * to local boundary edge.
483  * Example usage:
484  * be_id = be_id_map_[get_boundary_edge_uid(side)]
485  */
486  std::unordered_map<LongIdx, unsigned int> be_id_map_;
487 
488  /// Maps local boundary edge to its region boundary index.
490 
491  /// Offset for local part of vector of boundary edges.
493 
494 
495  // Vectors storing mass and balances of fluxes and volumes.
496  // substance, phase, region
503 
504  // Sums of the above vectors over phases and regions
513 
514  // time integrated quantities
519 
520  /// time of last calculated balance
521  double last_time_;
522 
523  /// TimeMark type for balance output of particular equation.
525 
526  /// TimeMark type for output of particular equation.
528 
529  /// true before calculating the mass at initial time, otherwise false
530  bool initial_;
531 
532  /// if true then cumulative balance is computed
534 
535  /// true before allocating necessary internal structures (Petsc matrices etc.)
537 
538  /// If the balance is on. Balance is off in the case of no balance output time marks.
540 
541  /// Add output time marks to balance output time marks.
543 
544 
545  /// MPI rank.
546  int rank_;
547 
548  /// hold count of line printed into output_
549  unsigned int output_line_counter_;
550 
551  /// marks whether YAML output has printed header
553 
554  /// Record for current balance
556 
558 
559 
560 };
561 
562 
563 
564 
565 
566 #endif // BALANCE_HH_
UnitSI units_
Units of conserved quantities.
Definition: balance.hh:460
unsigned int n_loc_dofs_par_
Allocation parameters. Set by the allocate method used in the lazy_initialize.
Definition: balance.hh:434
std::vector< double > integrated_sources_
Definition: balance.hh:515
std::vector< double > sum_fluxes_out_
Definition: balance.hh:507
LongIdx get_boundary_edge_uid(SideIter side)
Definition: balance.hh:426
TimeMark::Type output_mark_type_
TimeMark type for output of particular equation.
Definition: balance.hh:527
arma::Col< IntIdx > LocDofVec
Definition: index_types.hh:28
TimeMark::Type balance_output_type_
TimeMark type for balance output of particular equation.
Definition: balance.hh:524
unsigned int side_idx() const
Returns local index of the side on the element.
Definition: accessors.hh:415
bool initial_
true before calculating the mass at initial time, otherwise false
Definition: balance.hh:530
Abstract linear system class.
Definition: balance.hh:40
void start_mass_assembly(std::vector< unsigned int > q_idx_vec)
Variant of the start_mass_assembly() method for a set of quantities.
Definition: balance.hh:233
std::vector< std::vector< double > > sources_in_
Definition: balance.hh:501
void finish_mass_assembly(std::vector< unsigned int > q_idx_vec)
Variant of the finish_mass_assembly() method for a set of quantities.
Definition: balance.hh:324
std::vector< std::vector< double > > fluxes_in_
Definition: balance.hh:498
std::vector< double > sum_fluxes_in_
Definition: balance.hh:506
std::vector< std::vector< double > > fluxes_out_
Definition: balance.hh:499
const TimeGovernor * time_
Definition: balance.hh:557
Mat * region_source_rhs_
Matrices for calculation of signed source (n_dofs x n_bulk_regions).
Definition: balance.hh:473
Definition: mesh.h:78
Input::Record input_record_
Record for current balance.
Definition: balance.hh:555
Cell accessor allow iterate over DOF handler cells.
bool cumulative() const
Getter for cumulative_.
Definition: balance.hh:190
bool allocation_done_
true before allocating necessary internal structures (Petsc matrices etc.)
Definition: balance.hh:536
Basic time management functionality for unsteady (and steady) solvers (class Equation).
std::vector< double > sum_fluxes_
Definition: balance.hh:505
string name_
Name of quantity (for output).
Definition: balance.hh:136
bool balance_on_
If the balance is on. Balance is off in the case of no balance output time marks. ...
Definition: balance.hh:539
std::vector< double > increment_sources_
Definition: balance.hh:518
const unsigned int index_
Internal index within list of quantities.
Definition: balance.hh:139
Vec * be_flux_vec_
Vectors for calculation of flux (n_boundary_edges).
Definition: balance.hh:476
std::vector< double > integrated_fluxes_
Definition: balance.hh:516
std::vector< Quantity > quantities_
Names of conserved quantities.
Definition: balance.hh:455
std::vector< std::vector< double > > sources_out_
Definition: balance.hh:502
Mat * be_flux_matrix_
Matrices for calculation of flux (n_boundary_edges x n_dofs).
Definition: balance.hh:467
double last_time_
time of last calculated balance
Definition: balance.hh:521
std::vector< std::vector< double > > fluxes_
Definition: balance.hh:497
std::ofstream output_
Handle for file for output in given OutputFormat of balance and total fluxes over individual regions ...
Definition: balance.hh:446
void finish_flux_assembly(std::vector< unsigned int > q_idx_vec)
Variant of the finish_flux_assembly() method for a set of quantities.
Definition: balance.hh:334
int rank_
MPI rank.
Definition: balance.hh:546
Accessor to the data with type Type::Record.
Definition: accessors.hh:292
void start_flux_assembly(std::vector< unsigned int > q_idx_vec)
Variant of the start_flux_assembly() method for a set of quantities.
Definition: balance.hh:246
Provides the numbering of the finite element degrees of freedom on the computational mesh...
Definition: dofhandler.hh:151
Mat * region_mass_matrix_
Matrices for calculation of mass (n_dofs x n_bulk_regions).
Definition: balance.hh:464
std::vector< double > sum_sources_out_
Definition: balance.hh:511
unsigned int max_dofs_per_boundary_
Definition: balance.hh:436
bool cumulative_
if true then cumulative balance is computed
Definition: balance.hh:533
unsigned int n_loc_dofs_seq_
Definition: balance.hh:435
Mat * region_source_matrix_
Matrices for calculation of source (n_dofs x n_bulk_regions).
Definition: balance.hh:470
std::vector< double > increment_fluxes_
Definition: balance.hh:517
void finish_source_assembly(std::vector< unsigned int > q_idx_vec)
Variant of the finish_source_assembly() method for a set of quantities.
Definition: balance.hh:344
static bool do_yaml_output_
Definition: balance.hh:431
Dedicated class for storing path to input and output files.
Definition: file_path.hh:54
const Mesh * mesh_
Definition: balance.hh:457
int LongIdx
Define type that represents indices of large arrays (elements, nodes, dofs etc.)
Definition: index_types.hh:24
std::vector< double > sum_sources_
Definition: balance.hh:509
std::vector< double > initial_mass_
Definition: balance.hh:512
Quantity(const unsigned int index, const string &name)
Definition: balance.hh:130
std::ofstream output_yaml_
Definition: balance.hh:449
std::vector< unsigned int > be_regions_
Maps local boundary edge to its region boundary index.
Definition: balance.hh:489
OutputFormat output_format_
Format of output file.
Definition: balance.hh:452
std::unordered_map< LongIdx, unsigned int > be_id_map_
Definition: balance.hh:486
int be_offset_
Offset for local part of vector of boundary edges.
Definition: balance.hh:492
std::vector< std::vector< double > > masses_
Definition: balance.hh:500
void start_source_assembly(std::vector< unsigned int > q_idx_vec)
Variant of the start_source_assembly() method for a set of quantities.
Definition: balance.hh:259
unsigned int elem_idx() const
Returns index of element in Mesh::element_vec_.
Definition: accessors.hh:419
Record type proxy class.
Definition: type_record.hh:182
std::vector< double > sum_masses_
Definition: balance.hh:508
Vec * region_mass_vec_
Vectors for calculation of mass (n_bulk_regions).
Definition: balance.hh:479
unsigned int output_line_counter_
hold count of line printed into output_
Definition: balance.hh:549
bool add_output_times_
Add output time marks to balance output time marks.
Definition: balance.hh:542
Class for representation SI units of Fields.
Definition: unit_si.hh:40
OutputFormat
Definition: balance.hh:146
Template for classes storing finite set of named values.
Side accessor allows to iterate over sides of DOF handler cell.
FilePath balance_output_file_
File path for output_ stream.
Definition: balance.hh:443
std::string file_prefix_
Save prefix passed in in constructor.
Definition: balance.hh:440
bool output_yaml_header_
marks whether YAML output has printed header
Definition: balance.hh:552
std::vector< double > sum_sources_in_
Definition: balance.hh:510