Flow123d  master-130ae5c
msh_vtkreader.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 msh_vtkreader.cc
15  * @brief
16  * @author dalibor
17  */
18 
19 
20 #include <iostream>
21 #include <vector>
22 #include <pugixml.hpp>
23 #include "boost/lexical_cast.hpp"
24 
25 #include "msh_vtkreader.hh"
26 #include "system/system.hh"
27 #include "system/index_types.hh"
28 #include "mesh/bih_tree.hh"
29 #include "mesh/mesh.h"
30 #include "mesh/accessors.hh"
31 
32 #include "config.h"
33 #include <zlib.h>
34 
35 
36 /*******************************************************************
37  * Helper methods
38  */
39 template<typename T>
40 T read_binary_value(std::istream &data_stream)
41 {
42  T val;
43  data_stream.read(reinterpret_cast<char *>(&val), sizeof(val));
44  return val;
45 }
46 
47 
48 uint64_t read_header_type(DataType data_header_type, std::istream &data_stream)
49 {
50  if (data_header_type == DataType::uint64)
51  return read_binary_value<uint64_t>(data_stream);
52  else if (data_header_type == DataType::uint32)
53  return (uint64_t)read_binary_value<unsigned int>(data_stream);
54  else {
55  ASSERT_PERMANENT(false).error("Unsupported header_type!\n"); //should not happen
56  return 0;
57  }
58 }
59 
60 
61 /*******************************************************************
62  * implementation of VtkMeshReader
63  */
64 const double VtkMeshReader::point_tolerance = 1E-10;
65 
66 
68 : BaseMeshReader(file_name),
69  time_step_(0.0)
70 {
71  data_section_name_ = "DataArray";
72  has_compatible_mesh_ = false;
74 }
75 
76 
77 
78 VtkMeshReader::VtkMeshReader(const FilePath &file_name, std::shared_ptr<ElementDataFieldMap> element_data_values, double time_step)
79 : BaseMeshReader(file_name, element_data_values),
80  time_step_(time_step)
81 {
82  data_section_name_ = "DataArray";
83  has_compatible_mesh_ = false;
85 }
86 
87 
88 
90 {
91  delete data_stream_;
92 }
93 
94 
95 
96 void VtkMeshReader::read_base_vtk_attributes(pugi::xml_node vtk_node, unsigned int &n_nodes, unsigned int &n_elements)
97 {
98  try {
99  // header type of appended data
100  header_type_ = this->get_data_type( vtk_node.attribute("header_type").as_string() );
101  } catch(ExcWrongType &e) {
102  e << EI_SectionTypeName("base parameter header_type");
103  }
104  // data format
106  data_format_ = DataFormat::ascii;
107  } else {
109  // Allowable values of header type are only 'UInt64' or 'UInt32'
110  THROW( ExcWrongType() << EI_ErrMessage("Forbidden") << EI_SectionTypeName("base parameter header_type")
111  << EI_VTKFile(tok_.f_name()));
112  }
113  std::string compressor = vtk_node.attribute("compressor").as_string();
114  if (compressor == "vtkZLibDataCompressor")
115  data_format_ = DataFormat::binary_zlib;
116  else
117  data_format_ = DataFormat::binary_uncompressed;
118  }
119  // size of node and element vectors
120  pugi::xml_node piece_node = vtk_node.child("UnstructuredGrid").child("Piece");
121  n_nodes = piece_node.attribute("NumberOfPoints").as_uint();
122  n_elements = piece_node.attribute("NumberOfCells").as_uint();
123 }
124 
125 
126 
128  Tokenizer::Position appended_pos;
129 
130  {
131  // find line by tokenizer
132  tok_.set_position( Tokenizer::Position() );
133  if (! tok_.skip_to("AppendedData"))
134  THROW(ExcMissingTag() << EI_TagType("tag") << EI_TagName("AppendedData") << EI_VTKFile(tok_.f_name()) );
135  else {
136  appended_pos = tok_.get_position();
137  }
138  }
139 
140  // find exact position of appended data (starts with '_')
141  char c;
142  data_stream_->seekg(appended_pos.file_position_);
143  do {
144  data_stream_->get(c);
145  } while (c!='_');
146  appended_pos.file_position_ = data_stream_->tellg();
147  appended_pos.line_counter_++;
148  delete data_stream_; // close stream
149 
150  // reopen stream in binary mode
151  data_stream_ = new std::ifstream( tok_.f_name(), std::ios_base::in | std::ios_base::binary );
152 
153  return appended_pos;
154 }
155 
156 
157 BaseMeshReader::MeshDataHeader VtkMeshReader::create_header(pugi::xml_node node, unsigned int n_entities, Tokenizer::Position pos,
159 {
160  MeshDataHeader header;
161  header.field_name = node.attribute("Name").as_string();
162  header.time = this->time_step_;
163  try {
164  header.type = this->get_data_type( node.attribute("type").as_string() );
165  } catch(ExcWrongType &e) {
166  e << EI_SectionTypeName("DataArray " + header.field_name);
167  }
168  header.discretization = disc;
169  if (disc == OutputTime::DiscreteSpace::NATIVE_DATA) {
170  header.n_components = node.attribute("n_dofs_per_element").as_uint();
171  header.dof_handler_hash = node.attribute("dof_handler_hash").as_uint();
172  } else {
173  header.n_components = node.attribute("NumberOfComponents").as_uint(1);
174  }
175  header.n_entities = n_entities;
176  std::string format = node.attribute("format").as_string();
177  if (format=="appended") {
178  if (data_format_ == DataFormat::ascii)
179  THROW(ExcInvalidFormat() << EI_FieldName(header.field_name) << EI_ExpectedFormat("ascii") << EI_VTKFile(tok_.f_name()) );
180  std::streampos file_pos = pos.file_position_;
181  file_pos += node.attribute("offset").as_uint();
182  header.position = Tokenizer::Position( file_pos, pos.line_counter_, pos.line_position_ );
183  } else if (format=="ascii") {
184  if (data_format_ != DataFormat::ascii)
185  THROW(ExcInvalidFormat() << EI_FieldName(header.field_name) << EI_ExpectedFormat("appended") << EI_VTKFile(tok_.f_name()) );
186 
187  tok_.set_position( Tokenizer::Position() );
188  bool is_point = (header.field_name=="");
189  std::string found_str = (is_point) ? "<Points>" : "Name=\"" + header.field_name + "\"";
190  if (! tok_.skip_to(found_str))
191  THROW(ExcMissingTag() << EI_TagType("DataArray tag") << EI_TagName(header.field_name) << EI_VTKFile(tok_.f_name()) );
192  else {
193  if (is_point) tok_.skip_to("DataArray");
194  header.position = tok_.get_position();
195  }
196  } else {
197  THROW(ExcUnknownFormat() << EI_FieldName(header.field_name) << EI_VTKFile(tok_.f_name()) );
198  }
199 
200  return header;
201 }
202 
203 
205 {
206  pugi::xml_document doc;
207  doc.load_file( tok_.f_name().c_str() );
208  unsigned int n_nodes, n_elements;
209  this->read_base_vtk_attributes( doc.child("VTKFile"), n_nodes, n_elements );
210 
211  // open ifstream for find position
212  data_stream_ = new std::ifstream( tok_.f_name() );
213 
214  // data of appended tag
215  Tokenizer::Position appended_pos;
217  // no AppendedData tag
218  } else {
219  appended_pos = get_appended_position();
220  }
221 
222  pugi::xml_node node = doc.child("VTKFile").child("UnstructuredGrid").child("Piece");
223 
224  header_table_.clear();
225 
226  // create headers of Points and Cells DataArrays
227  auto points_header = create_header( node.child("Points").child("DataArray"), n_nodes, appended_pos,
228  OutputTime::DiscreteSpace::MESH_DEFINITION );
229  points_header.field_name = "Points";
230  header_table_.insert( std::pair<std::string, MeshDataHeader>("Points", points_header) );
231  auto con_header = create_header( node.child("Cells").find_child_by_attribute("DataArray", "Name", "connectivity"),
232  n_elements, appended_pos, OutputTime::DiscreteSpace::MESH_DEFINITION );
233  header_table_.insert( std::pair<std::string, MeshDataHeader>("connectivity", con_header) );
234  auto offsets_header = create_header( node.child("Cells").find_child_by_attribute("DataArray", "Name", "offsets"),
235  n_elements, appended_pos, OutputTime::DiscreteSpace::MESH_DEFINITION );
236  header_table_.insert( std::pair<std::string, MeshDataHeader>("offsets", offsets_header) );
237  auto types_header = create_header( node.child("Cells").find_child_by_attribute("DataArray", "Name", "types"), n_elements,
238  appended_pos, OutputTime::DiscreteSpace::MESH_DEFINITION );
239  header_table_.insert( std::pair<std::string, MeshDataHeader>("types", types_header) );
240 
241  pugi::xml_node point_node = node.child("PointData");
242  for (pugi::xml_node subnode = point_node.child("DataArray"); subnode; subnode = subnode.next_sibling("DataArray")) {
243  auto header = create_header( subnode, n_nodes, appended_pos, OutputTime::DiscreteSpace::NODE_DATA );
244  header_table_.insert( std::pair<std::string, MeshDataHeader>(header.field_name, header) );
245  }
246 
247  pugi::xml_node cell_node = node.child("CellData");
248  for (pugi::xml_node subnode = cell_node.child("DataArray"); subnode; subnode = subnode.next_sibling("DataArray")) {
249  auto header = create_header( subnode, n_elements, appended_pos, OutputTime::DiscreteSpace::ELEM_DATA );
250  header_table_.insert( std::pair<std::string, MeshDataHeader>(header.field_name, header) );
251  }
252 
253  pugi::xml_node native_node = node.child("Flow123dData");
254  for (pugi::xml_node subnode = native_node.child("DataArray"); subnode; subnode = subnode.next_sibling("DataArray")) {
255  auto header = create_header( subnode, n_elements, appended_pos, OutputTime::DiscreteSpace::NATIVE_DATA );
256  header_table_.insert( std::pair<std::string, MeshDataHeader>(header.field_name, header) );
257  }
258 }
259 
260 
262 {
263  unsigned int count = header_table_.count(header_query.field_name);
264 
265  if (count == 0) {
266  // no data found
267  THROW( ExcFieldNameNotFound() << EI_FieldName(header_query.field_name) << EI_MeshFile(tok_.f_name()));
268  } else if (count == 1) {
269  HeaderTable::iterator table_it = header_table_.find(header_query.field_name);
270 
271  // check discretization
272  if (header_query.discretization != table_it->second.discretization) {
273  if (header_query.discretization != OutputTime::DiscreteSpace::UNDEFINED) {
274  WarningOut().fmt(
275  "Invalid value of 'input_discretization' for field '{}', time: {}.\nCorrect discretization type will be used.\n",
276  header_query.field_name, header_query.time);
277  }
278  header_query.discretization = table_it->second.discretization;
279  }
280 
281  if (header_query.discretization == OutputTime::DiscreteSpace::NATIVE_DATA)
282  if (header_query.dof_handler_hash != table_it->second.dof_handler_hash) {
283  THROW(ExcInvalidDofHandler() << EI_FieldName(header_query.field_name) << EI_VTKFile(tok_.f_name()) );
284  }
285  return table_it->second;
286  } else {
287  /*HeaderTable::iterator table_it;
288  for (table_it=header_table_.equal_range(header_query.field_name).first; table_it!=header_table_.equal_range(header_query.field_name).second; ++table_it) {
289  if (header_query.discretization != table_it->second.discretization) {
290  header_query.dof_handler_hash = table_it->second.dof_handler_hash;
291  actual_header_ = table_it->second;
292  }
293  }*/
294  THROW( ExcMissingFieldDiscretization() << EI_FieldName(header_query.field_name) << EI_Time(header_query.time) << EI_MeshFile(tok_.f_name()));
295  }
296 }
297 
298 
299 
300 DataType VtkMeshReader::get_data_type(std::string type_str) {
301  // names of types in DataArray section
302  static const std::map<std::string, DataType> types = {
303  {"Int8", DataType::int8},
304  {"UInt8", DataType::uint8},
305  {"Int16", DataType::int16},
306  {"UInt16", DataType::uint16},
307  {"Int32", DataType::int32},
308  {"UInt32", DataType::uint32},
309  {"Int64", DataType::int64},
310  {"UInt64", DataType::uint64},
311  {"Float32", DataType::float32},
312  {"Float64", DataType::float64},
313  {"", DataType::undefined}
314  };
315 
317  if (it != types.end()) {
318  return it->second;
319  } else {
320  THROW( ExcWrongType() << EI_ErrMessage("Unknown") << EI_VTKFile(tok_.f_name()));
321  return DataType::uint32;
322  }
323 
324 }
325 
326 
327 
329 {
330  static const std::vector<unsigned int> sizes = { 1, 1, 2, 2, 4, 4, 8, 8, 4, 8, 0 };
331 
332  return sizes[data_type];
333 }
334 
335 
336 
338 
339  switch (data_format_) {
340  case DataFormat::ascii: {
341  parse_ascii_data( data_cache, header.n_components, header.n_entities, header.position );
342  break;
343  }
344  case DataFormat::binary_uncompressed: {
345  ASSERT_PTR(data_stream_).error();
346  parse_binary_data( data_cache, header.n_components, header.n_entities, header.position);
347  break;
348  }
349  case DataFormat::binary_zlib: {
350  ASSERT_PTR(data_stream_).error();
351  parse_compressed_data( data_cache, header.n_components, header.n_entities, header.position);
352  break;
353  }
354  default: {
355  ASSERT_PERMANENT(false).error(); // should not happen
356  break;
357  }
358  }
359 
360  LogOut().fmt("time: {}; {} entities of field {} read.\n",
361  header.time, n_read_, header.field_name);
362 }
363 
364 
365 void VtkMeshReader::parse_ascii_data(ElementDataCacheBase &data_cache, unsigned int n_components, unsigned int n_entities,
366  Tokenizer::Position pos)
367 {
368  n_read_ = 0;
369 
370  tok_.set_position( pos );
371  try {
372  tok_.next_line();
373  for (unsigned int i_row = 0; i_row < n_entities; ++i_row) {
374  data_cache.read_ascii_data(tok_, n_components, i_row);
375  n_read_++;
376  }
377  } catch (boost::bad_lexical_cast &) {
378  THROW(ExcWrongFormat() << EI_Type("DataArray tag") << EI_TokenizerMsg(tok_.position_msg())
379  << EI_MeshFile(tok_.f_name()) );
380  }
381 }
382 
383 
384 void VtkMeshReader::parse_binary_data(ElementDataCacheBase &data_cache, unsigned int n_components, unsigned int n_entities,
385  Tokenizer::Position pos)
386 {
387  n_read_ = 0;
388 
389  data_stream_->seekg(pos.file_position_);
391 
392  for (unsigned int i_row = 0; i_row < n_entities; ++i_row) {
393  data_cache.read_binary_data(*data_stream_, n_components, i_row);
394  n_read_++;
395  }
396 }
397 
398 
399 void VtkMeshReader::parse_compressed_data(ElementDataCacheBase &data_cache, unsigned int n_components, unsigned int n_entities,
400  Tokenizer::Position pos)
401 {
402  data_stream_->seekg(pos.file_position_);
403  uint64_t n_blocks = read_header_type(header_type_, *data_stream_);
404  uint64_t u_size = read_header_type(header_type_, *data_stream_);
405  uint64_t p_size = read_header_type(header_type_, *data_stream_);
406 
407  std::vector<uint64_t> block_sizes;
408  block_sizes.reserve(n_blocks);
409  for (uint64_t i = 0; i < n_blocks; ++i) {
410  block_sizes.push_back( read_header_type(header_type_, *data_stream_) );
411  }
412 
413  stringstream decompressed_data;
414  uint64_t decompressed_data_size = 0;
415  for (uint64_t i = 0; i < n_blocks; ++i) {
416  uint64_t decompressed_block_size = (i==n_blocks-1 && p_size>0) ? p_size : u_size;
417  uint64_t compressed_block_size = block_sizes[i];
418 
419  std::vector<char> data_block(compressed_block_size);
420  data_stream_->read(&data_block[0], compressed_block_size);
421 
422  std::vector<char> buffer(decompressed_block_size);
423 
424  // set zlib object
425  z_stream strm;
426  strm.zalloc = 0;
427  strm.zfree = 0;
428  strm.next_in = (Bytef *)(&data_block[0]);
429  strm.avail_in = compressed_block_size;
430  strm.next_out = (Bytef *)(&buffer[0]);
431  strm.avail_out = decompressed_block_size;
432 
433  // decompression of data
434  inflateInit(&strm);
435  inflate(&strm, Z_NO_FLUSH);
436  inflateEnd(&strm);
437 
438  // store decompressed data to stream
439  decompressed_data << std::string(buffer.begin(), buffer.end());
440  decompressed_data_size += decompressed_block_size;
441  }
442 
443  n_read_ = 0;
444 
445  for (unsigned int i_row = 0; i_row < n_entities; ++i_row) {
446  data_cache.read_binary_data(decompressed_data, n_components, i_row);
447  n_read_++;
448  }
449 }
450 
451 
453  // will be implemented later
454  // ASSERT_PERMANENT(0).error("Not implemented!");
455 }
456 
457 
460 
461  ElementDataFieldMap::iterator it=element_data_values_->find("Points");
462  ASSERT(it != element_data_values_->end()).error("Missing cache of Points section. Did you call create_node_element_caches()?\n");
463 
464  // create nodes of mesh
465  std::vector<double> &vect = *( dynamic_cast<ElementDataCache<double> &>(*(it->second)).get_data().get() );
466  unsigned int n_nodes = vect.size()/3;
467  mesh->init_node_vector( n_nodes );
468  arma::vec3 point;
469  for (unsigned int i=0, ivec=0; i<n_nodes; ++i) {
470  point(0)=vect[ivec]; ++ivec;
471  point(1)=vect[ivec]; ++ivec;
472  point(2)=vect[ivec]; ++ivec;
473  mesh->add_node(i, point);
474  }
475 
476  bulk_elements_id_.clear();
477 }
478 
479 
481  // read offset section in VTK file
482  ElementDataFieldMap::iterator offset_it=element_data_values_->find("offsets");
483  ASSERT(offset_it != element_data_values_->end()).error("Missing cache of offsets section. Did you call create_node_element_caches()?\n");
484  std::vector<unsigned int> &offsets_vec = *( dynamic_cast<ElementDataCache<unsigned int> &>(*(offset_it->second)).get_data().get() );
485 
486  // read connectivity data section
487  ElementDataFieldMap::iterator conn_it=element_data_values_->find("connectivity");
488  ASSERT(conn_it != element_data_values_->end()).error("Missing cache of offsets section. Did you call create_node_element_caches()?\n");
489  std::vector<unsigned int> &connectivity_vec = *( dynamic_cast<ElementDataCache<unsigned int> &>(*(conn_it->second)).get_data().get() );
490 
491  // iterate trough connectivity data, create bulk elements
492  // fill bulk_elements_id_ vector
493  bulk_elements_id_.clear();
494  bulk_elements_id_.resize(offsets_vec.size());
495  mesh->init_element_vector(offsets_vec.size());
496  unsigned int i_con = 0, last_offset=0, dim;
497  vector<unsigned int> node_list;
498  for (unsigned int i=0; i<offsets_vec.size(); ++i) { // iterate trough offset - one value for every element
499  dim = offsets_vec[i] - last_offset - 1; // dimension of vtk element
500  for ( ; i_con<offsets_vec[i]; ++i_con ) { // iterate trough all nodes of any element
501  node_list.push_back( connectivity_vec[i_con] );
502  }
503  mesh->add_element(i, dim, dim, 0, node_list); // TODO need to set region_id (3rd parameter, now is created from dim)
504  bulk_elements_id_[i] = (LongIdx)i;
505  node_list.clear();
506  last_offset = offsets_vec[i];
507  }
508 }
509 
510 
512  ElementDataFieldMap::iterator it=element_data_values_->find("Points");
513  if ( it != element_data_values_->end() ) {
514  // prevents repeat call of read_nodes
515  return;
516  }
517 
518  has_compatible_mesh_ = true;
519 
520  // read Points data section
521  HeaderQuery header_params("Points", 0.0, OutputTime::DiscreteSpace::MESH_DEFINITION);
522  auto point_header = this->find_header(header_params);
523  this->get_element_data<double>(point_header, point_header.n_entities, point_header.n_components, point_header.n_entities);
524 
525  // read offset data section
526  HeaderQuery offsets_params("offsets", 0.0, OutputTime::DiscreteSpace::MESH_DEFINITION);
527  auto offset_header = this->find_header(offsets_params);
528  std::vector<unsigned int> &offsets_vec = *( this->get_element_data<unsigned int>(offset_header, offset_header.n_entities, offset_header.n_components, offset_header.n_entities) );
529 
530  // read connectivity data section
531  HeaderQuery con_params("connectivity", 0.0, OutputTime::DiscreteSpace::MESH_DEFINITION);
532  auto con_header = this->find_header(con_params);
533  con_header.n_entities = offsets_vec[offsets_vec.size()-1];
534  this->get_element_data<unsigned int>(con_header, con_header.n_entities, con_header.n_components, con_header.n_entities);
535 
536  has_compatible_mesh_ = false;
537 }
538 
539 
540 
541 // explicit instantiation of template methods
542 template unsigned int read_binary_value<unsigned int>(std::istream &data_stream);
543 template uint64_t read_binary_value<uint64_t>(std::istream &data_stream);
#define ASSERT(expr)
Definition: asserts.hh:351
#define ASSERT_PERMANENT(expr)
Allow use shorter versions of macro names if these names is not used with external library.
Definition: asserts.hh:348
#define ASSERT_PTR(ptr)
Definition of assert macro checking non-null pointer (PTR) only for debug mode.
Definition: asserts.hh:341
vector< LongIdx > bulk_elements_id_
Tokenizer tok_
Tokenizer used for reading ASCII file format.
std::string data_section_name_
Store name of field data section specify for type of mesh file.
std::shared_ptr< ElementDataFieldMap > element_data_values_
Cache with last read element data.
virtual void read_ascii_data(Tokenizer &tok, unsigned int n_components, unsigned int i_row)=0
virtual void read_binary_data(std::istream &data_stream, unsigned int n_components, unsigned int i_row)=0
CacheData get_data()
Return underlying vector of element data.
Dedicated class for storing path to input and output files.
Definition: file_path.hh:54
void init_element_vector(unsigned int size)
Initialize element_vec_, set size and reset counters of boundary and bulk elements.
Definition: mesh.cc:1142
void init_node_vector(unsigned int size)
Initialize node_vec_, set size.
Definition: mesh.cc:1152
Definition: mesh.h:362
void add_node(unsigned int node_id, arma::vec3 coords)
Add new node of given id and coordinates to mesh.
Definition: mesh.cc:1086
void add_element(unsigned int elm_id, unsigned int dim, unsigned int region_id, unsigned int partition_id, std::vector< unsigned int > node_ids)
Add new element of given id to mesh.
Definition: mesh.cc:1094
void read_element_data(ElementDataCacheBase &data_cache, MeshDataHeader header) override
VtkMeshReader(const FilePath &file_name)
void parse_binary_data(ElementDataCacheBase &data_cache, unsigned int n_components, unsigned int n_entities, Tokenizer::Position pos)
Parse binary data to data cache.
virtual ~VtkMeshReader()
Destructor.
DataFormat data_format_
variants of data format (ascii, appended, compressed appended)
Tokenizer::Position get_appended_position()
Get position of AppendedData tag in VTK file.
void read_elements(Mesh *mesh)
MeshDataHeader create_header(pugi::xml_node node, unsigned int n_entities, Tokenizer::Position pos, OutputTime::DiscreteSpace disc)
Helper method that create DataArray header of given xml node (used from make_header_table)
HeaderTable header_table_
Table with data of DataArray headers.
static const double point_tolerance
Tolerance during comparison point data with GMSH nodes.
double time_step_
time of VTK file (getting only during initialization from PVD reader)
std::istream * data_stream_
input stream allow read appended data, used only if this tag exists
void parse_ascii_data(ElementDataCacheBase &data_cache, unsigned int n_components, unsigned int n_entities, Tokenizer::Position pos)
Parse ascii data to data cache.
void parse_compressed_data(ElementDataCacheBase &data_cache, unsigned int n_components, unsigned int n_entities, Tokenizer::Position pos)
Uncompress and parse binary compressed data to data cache.
unsigned int type_value_size(DataType data_type)
Return size of value of data_type.
void make_header_table() override
Reads table of DataArray headers through pugixml interface.
DataType get_data_type(std::string type_str)
Get DataType by value of string.
unsigned int n_read_
store count of read entities
DataType header_type_
header type of VTK file (only for appended data)
void read_nodes(Mesh *mesh)
void read_base_vtk_attributes(pugi::xml_node vtk_node, unsigned int &n_nodes, unsigned int &n_elements)
Set base attributes of VTK and get count of nodes and elements.
void create_node_element_caches()
void read_physical_names(Mesh *mesh) override
MeshDataHeader & find_header(HeaderQuery &header_query) override
#define THROW(whole_exception_expr)
Wrapper for throw. Saves the throwing point.
Definition: exceptions.hh:53
int LongIdx
Define type that represents indices of large arrays (elements, nodes, dofs etc.)
Definition: index_types.hh:24
#define WarningOut()
Macro defining 'warning' record of log.
Definition: logger.hh:278
#define LogOut()
Macro defining 'log' record of log.
Definition: logger.hh:281
manipulators::Array< T, Delim > format(T const &deduce, Delim delim=", ")
Definition: logger.hh:325
DataType
Types of VTK data (value 'undefined' for empty value)
@ float32
@ int64
@ uint16
@ int8
@ float64
@ int16
@ uint32
@ int32
@ uint64
@ uint8
@ undefined
template uint64_t read_binary_value< uint64_t >(std::istream &data_stream)
template unsigned int read_binary_value< unsigned int >(std::istream &data_stream)
uint64_t read_header_type(DataType data_header_type, std::istream &data_stream)
T read_binary_value(std::istream &data_stream)
std::string field_name
Name of field.
OutputTime::DiscreteSpace discretization
Flag determinate type of discrete of Field (typically is used for native data of VTK)
double time
Time of field data (used only for GMSH and PVD reader)
std::size_t dof_handler_hash
Hash of DOF handler object.
unsigned int n_components
Number of values on one row.
std::size_t dof_handler_hash
Hash of DOF handler object (only for native data of VTK file)
unsigned int n_entities
Number of rows.
OutputTime::DiscreteSpace discretization
Flag marks input discretization of data of VTK file.
Tokenizer::Position position
Position of data in mesh file.
DataType type
Type of data (used only for VTK reader)
double time
Time of field data (used only for GMSH reader)
std::string field_name
Name of field.