Dune Core Modules (2.10.0)

vtksequencewriterbase.hh
1// SPDX-FileCopyrightText: Copyright © DUNE Project contributors, see file LICENSE.md in module root
2// SPDX-License-Identifier: LicenseRef-GPL-2.0-only-with-DUNE-exception
3// -*- tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*-
4// vi: set et ts=4 sw=2 sts=2:
5
6#ifndef DUNE_GRID_IO_FILE_VTK_VTKSEQUENCEWRITERBASE_HH
7#define DUNE_GRID_IO_FILE_VTK_VTKSEQUENCEWRITERBASE_HH
8
9#include <vector>
10#include <iostream>
11#include <sstream>
12#include <fstream>
13#include <iomanip>
14#include <memory>
15
17#include <dune/common/path.hh>
18
20
21namespace Dune {
22
32 template<class GridView>
34 {
35 std::shared_ptr<VTKWriter<GridView> > vtkWriter_;
36 std::vector<double> timesteps_;
37 std::string name_,path_,extendpath_;
38 int rank_;
39 int size_;
40 public:
48 const std::string& name,
49 const std::string& path,
50 const std::string& extendpath,
51 int rank,
52 int size)
53 : vtkWriter_(vtkWriter),
54 name_(name), path_(path),
55 extendpath_(extendpath),
56 rank_(rank),
57 size_(size)
58 {}
59
63 const std::shared_ptr< VTKWriter<GridView> >& vtkWriter() const
64 {
65 return vtkWriter_;
66 }
67
69 void addCellData (const std::shared_ptr<const typename VTKWriter<GridView>::VTKFunction> &p)
70 {
71 vtkWriter_->addCellData(p);
72 }
73
79 template<class V >
80 void addCellData (const V &v, const std::string &name, int ncomps=1)
81 {
82 vtkWriter_->addCellData(v, name, ncomps);
83 }
84
86 void addVertexData (const std::shared_ptr<const typename VTKWriter<GridView>::VTKFunction> &p)
87 {
88 vtkWriter_->addVertexData(p);
89 }
90
96 template<class V >
97 void addVertexData (const V &v, const std::string &name, int ncomps=1)
98 {
99 vtkWriter_->addVertexData(v, name, ncomps);
100 }
101
102
108 void write (double time, VTK::OutputType type = VTK::ascii)
109 {
110 /* remember current time step */
111 unsigned int count = timesteps_.size();
112 timesteps_.push_back(time);
113
114 /* write VTK file */
115 if(size_==1)
116 vtkWriter_->write(concatPaths(path_,seqName(count)),type);
117 else
118 vtkWriter_->pwrite(seqName(count), path_,extendpath_,type);
119
120 /* write pvd file ... only on rank 0 */
121 if (rank_==0) {
122 std::ofstream pvdFile;
123 pvdFile.exceptions(std::ios_base::badbit | std::ios_base::failbit |
124 std::ios_base::eofbit);
125 std::string pvdname = name_ + ".pvd";
126 pvdFile.open(pvdname.c_str());
127 pvdFile << "<?xml version=\"1.0\"?> \n"
128 << "<VTKFile type=\"Collection\" version=\"0.1\" byte_order=\"" << VTK::getEndiannessString() << "\"> \n"
129 << "<Collection> \n";
130 for (unsigned int i=0; i<=count; i++)
131 {
132 // filename
133 std::string piecepath;
134 std::string fullname;
135 if(size_==1) {
136 piecepath = path_;
137 fullname = vtkWriter_->getSerialPieceName(seqName(i), piecepath);
138 }
139 else {
140 piecepath = concatPaths(path_, extendpath_);
141 fullname = vtkWriter_->getParallelHeaderName(seqName(i), piecepath, size_);
142 }
143 pvdFile << "<DataSet timestep=\"" << timesteps_[i]
144 << "\" group=\"\" part=\"0\" name=\"\" file=\""
145 << fullname << "\"/> \n";
146 }
147 pvdFile << "</Collection> \n"
148 << "</VTKFile> \n" << std::flush;
149 pvdFile.close();
150 }
151 }
152
156 void clear()
157 {
158 vtkWriter_->clear();
159 }
160
164 const std::vector<double>& getTimeSteps() const
165 {
166 return timesteps_;
167 }
168
174 void setTimeSteps(const std::vector<double>& timesteps)
175 {
176 timesteps_ = timesteps;
177 }
178
179 private:
180
181 // create sequence name
182 std::string seqName(unsigned int count) const
183 {
184 std::stringstream n;
185 n.fill('0');
186 n << name_ << "-" << std::setw(5) << count;
187 return n.str();
188 }
189 };
190
191} // end namespace Dune
192
193#endif
A base class for grid functions with any return type and dimension.
Definition: function.hh:42
Base class to write pvd-files which contains a list of all collected vtk-files.
Definition: vtksequencewriterbase.hh:34
void addVertexData(const V &v, const std::string &name, int ncomps=1)
Adds a field of vertex data to the VTK file.
Definition: vtksequencewriterbase.hh:97
const std::vector< double > & getTimeSteps() const
Retrieve the current list of time steps.
Definition: vtksequencewriterbase.hh:164
const std::shared_ptr< VTKWriter< GridView > > & vtkWriter() const
Definition: vtksequencewriterbase.hh:63
void write(double time, VTK::OutputType type=VTK::ascii)
Writes VTK data for the given time,.
Definition: vtksequencewriterbase.hh:108
void addVertexData(const std::shared_ptr< const typename VTKWriter< GridView >::VTKFunction > &p)
Adds a field of vertex data to the VTK file.
Definition: vtksequencewriterbase.hh:86
void addCellData(const V &v, const std::string &name, int ncomps=1)
Adds a field of cell data to the VTK file.
Definition: vtksequencewriterbase.hh:80
VTKSequenceWriterBase(std::shared_ptr< VTKWriter< GridView > > vtkWriter, const std::string &name, const std::string &path, const std::string &extendpath, int rank, int size)
Set up the VTKSequenceWriterBase class.
Definition: vtksequencewriterbase.hh:47
void addCellData(const std::shared_ptr< const typename VTKWriter< GridView >::VTKFunction > &p)
Adds a field of cell data to the VTK file.
Definition: vtksequencewriterbase.hh:69
void setTimeSteps(const std::vector< double > &timesteps)
Set the current list of time steps.
Definition: vtksequencewriterbase.hh:174
void clear()
Clears all VTK data added to the VTK writer.
Definition: vtksequencewriterbase.hh:156
Writer for the output of grid functions in the vtk format.
Definition: vtkwriter.hh:95
Common stuff for the VTKWriter.
OutputType
How the bulk data should be stored in the file.
Definition: common.hh:43
std::string concatPaths(const std::string &base, const std::string &p)
concatenate two paths
Definition: path.cc:28
Dune namespace.
Definition: alignedallocator.hh:13
constexpr std::integral_constant< std::size_t, sizeof...(II)> size(std::integer_sequence< T, II... >)
Return the size of the sequence.
Definition: integersequence.hh:75
Utilities for handling filesystem paths.
Provides file i/o for the visualization toolkit.
Creative Commons License   |  Legal Statements / Impressum  |  Hosted by TU Dresden  |  generated with Hugo v0.111.3 (Dec 28, 23:30, 2024)