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XdmfWriter.h
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XdmfWriter.h
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/**
* @file
* This file is part of XdmfWriter
*
* @author Sebastian Rettenberger <[email protected]>
*
* @copyright Copyright (c) 2014-2017, Technische Universitaet Muenchen.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* 3. Neither the name of the copyright holder nor the names of its
* contributors may be used to endorse or promote products derived from this
* software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#ifndef XDMFWRITER_XDMFWRITER_H
#define XDMFWRITER_XDMFWRITER_H
#ifdef USE_MPI
#include <mpi.h>
#endif // USE_MPI
#include <fstream>
#include <iomanip>
#include <limits>
#include <sstream>
#include <string>
#include <vector>
#include <type_traits>
#include "utils/env.h"
#include "utils/logger.h"
#include "utils/mathutils.h"
#include "scorep_wrapper.h"
#include "BufferFilter.h"
#include "ParallelVertexFilter.h"
#include "Topology.h"
#include "backends/Backend.h"
namespace xdmfwriter
{
/**
* Writes data in XDMF format
*/
template<TopoType Topo, typename VertexDataType, typename CellDataType = VertexDataType>
class XdmfWriter
{
private:
#ifdef USE_MPI
MPI_Comm m_comm;
#endif // USE_MPI
int m_rank;
std::string m_outputPrefix;
std::optional<std::string> m_backupTimeStamp;
std::fstream m_xdmfFile;
/** The backend for large scale I/O */
backends::Backend<VertexDataType, CellDataType> m_backend;
/** Name of a possible extra int cell variable that should be written (only once) */
std::string m_extraIntCellVariableName;
/** Names of the cell variables that should be written */
std::vector<const char*> m_cellVariableNames;
/** Names of the vertex variables that should be written */
std::vector<const char*> m_vertexVariableNames;
/** Vertex filter (only used if vertex filter is enabled) */
internal::ParallelVertexFilter<VertexDataType> m_vertexFilter;
/** The buffer filter for vertex data (only used if vertex filter is enabled) */
internal::BufferFilter<sizeof(VertexDataType)> m_vertexDataFilter;
/** Only execute the flush on certain time steps */
unsigned int m_flushInterval;
/** Output step counter */
unsigned int m_timeStep;
/** The current mesh id */
unsigned int m_meshId;
/** The timestep counter of the current mesh */
unsigned int m_meshTimeStep;
bool m_useVertexFilter;
bool m_writePartitionInfo;
bool m_writeExtraIntCellData;
/** Total number of cells/vertices */
unsigned long m_totalSize[2];
public:
/**
* @param timestep Set this to > 0 to activate append mode
*/
XdmfWriter(BackendType backendType,
const char* outputPrefix,
unsigned int timeStep = 0)
: m_rank(0), m_outputPrefix(outputPrefix),
m_backend(backendType), m_extraIntCellVariableName(""),
m_flushInterval(0),
m_timeStep(timeStep), m_meshId(0), m_meshTimeStep(0),
m_useVertexFilter(true), m_writePartitionInfo(true), m_writeExtraIntCellData(false)
{
#ifdef USE_MPI
setComm(MPI_COMM_WORLD);
#endif // USE_MPI
}
virtual ~XdmfWriter()
{
close();
}
#ifdef USE_MPI
/**
* Sets the communicator that should be used. Default is MPI_COMM_WORLD.
*/
void setComm(MPI_Comm comm)
{
m_comm = comm;
MPI_Comm_rank(comm, &m_rank);
m_backend.setComm(comm);
m_vertexFilter.setComm(comm);
}
#endif // USE_MPI
void setBackupTimeStamp(const std::string& timeStamp) {
m_backupTimeStamp = timeStamp;
m_backend.setBackupTimeStamp(timeStamp);
}
void init(const std::vector<const char*> &cellVariableNames, const std::vector<const char*> &vertexVariableNames,
const char* extraIntCellVariableName = "", bool useVertexFilter = true, bool writePartitionInfo = true)
{
m_cellVariableNames = cellVariableNames;
m_vertexVariableNames = vertexVariableNames;
m_useVertexFilter = useVertexFilter;
m_writePartitionInfo = writePartitionInfo;
m_extraIntCellVariableName = extraIntCellVariableName;
m_writeExtraIntCellData = !m_extraIntCellVariableName.empty();
int nProcs = 1;
#ifdef USE_MPI
MPI_Comm_size(m_comm, &nProcs);
#endif // USE_MPI
if (nProcs == 1)
m_useVertexFilter = false;
// Create variable data for the backend
std::vector<backends::VariableData> cellVariableData;
cellVariableData.push_back(backends::VariableData("connect", backends::UNSIGNED_LONG, internal::Topology<Topo>::size(), false));
if (writePartitionInfo)
cellVariableData.push_back(backends::VariableData("partition", backends::INT, 1, false));
if (m_writeExtraIntCellData)
cellVariableData.push_back(backends::VariableData(m_extraIntCellVariableName.c_str(), backends::INT, 1, false));
for (std::vector<const char*>::const_iterator it = cellVariableNames.begin();
it != cellVariableNames.end(); ++it) {
cellVariableData.push_back(backends::VariableData(*it, backends::FLOAT, 1, true));
}
std::vector<backends::VariableData> vertexVariableData;
vertexVariableData.push_back(backends::VariableData("geometry", backends::FLOAT, 3, false));
for (std::vector<const char*>::const_iterator it = vertexVariableNames.begin();
it != vertexVariableNames.end(); ++it) {
vertexVariableData.push_back(backends::VariableData(*it, backends::FLOAT, 1, true));
}
// Open the backend
m_backend.open(m_outputPrefix, cellVariableData, vertexVariableData, m_timeStep == 0);
backup(m_outputPrefix);
// Write the XML file
if (m_rank == 0) {
std::string xdmfName = m_outputPrefix + ".xdmf";
std::ofstream(xdmfName.c_str(), std::ios::app).close(); // Create the file (if it does not exist)
m_xdmfFile.open(xdmfName.c_str());
m_xdmfFile << "<?xml version=\"1.0\" ?>" << std::endl
<< "<!DOCTYPE Xdmf SYSTEM \"Xdmf.dtd\" []>" << std::endl
<< "<Xdmf Version=\"2.0\">" << std::endl
<< " <Domain>" << std::endl
<< " <Grid Name=\"TimeSeries\" GridType=\"Collection\" CollectionType=\"Temporal\">" << std::endl;
if (m_timeStep == 0)
closeXdmf();
else {
// Jump the correct position in the file
std::ostringstream tStartStream;
timeStepStartXdmf(m_timeStep-1, tStartStream);
std::string tStart = tStartStream.str();
// Find beginning of the (correct) time step
std::string line;
std::size_t pos;
while (getline(m_xdmfFile, line)) {
pos = line.find(tStart);
if (pos != std::string::npos)
break;
}
if (!m_xdmfFile)
logError() << "Unable to find time step for appending";
// Extract mesh id and mesh step
std::istringstream ss(line.substr(pos + tStart.size()));
ss.seekg(13, std::iostream::cur); // Skip "<!-- mesh id: "
ss >> m_meshId;
ss.seekg(13, std::iostream::cur); // Skip ", mesh step: "
ss >> m_meshTimeStep;
logInfo() << "Found mesh" << m_meshId << "in step" << m_meshTimeStep;
m_meshId++;
m_meshTimeStep++;
// Find end of this time step
while (getline(m_xdmfFile, line)) {
if (line.find("</Grid>") != std::string::npos)
break;
}
}
}
#ifdef USE_MPI
if (m_timeStep != 0) {
// Broadcast the some information if we restart
unsigned int buf[2] = {m_meshId, m_meshTimeStep};
MPI_Bcast(buf, 2, MPI_UNSIGNED, 0, m_comm);
m_meshId = buf[0];
m_meshTimeStep = buf[1];
}
#endif // USE_MPI
// Get flush interval
m_flushInterval = utils::Env::get<unsigned int>("XDMFWRITER_FLUSH_INTERVAL", 1);
}
/**
* @param restarting Set this to <code>true</code> if the codes restarts from a checkpoint
* and the XDMF writer should continue with the old mesh
*/
void setMesh(unsigned int numCells,
const unsigned int* cells,
unsigned int numVertices,
const VertexDataType *vertices,
bool restarting = false)
{
#ifdef USE_MPI
// Apply vertex filter
internal::BufferFilter<3*sizeof(VertexDataType)> vertexRemover;
if (m_useVertexFilter) {
// Filter duplicate vertices
m_vertexFilter.filter(numVertices, vertices);
if (!restarting) {
vertexRemover.init(numVertices, numVertices - m_vertexFilter.numLocalVertices(), m_vertexFilter.duplicates());
vertices = static_cast<const VertexDataType*>(vertexRemover.filter(vertices));
}
// Set the vertex data filter
if (m_backend.numVertexVars() > 0)
m_vertexDataFilter.init(numVertices, numVertices - m_vertexFilter.numLocalVertices(), m_vertexFilter.duplicates());
numVertices = m_vertexFilter.numLocalVertices();
}
#endif // USE_MPI
// Set the backend mesh
m_totalSize[0] = numCells;
m_totalSize[1] = numVertices;
unsigned long offset[2] = {numCells, numVertices};
#ifdef USE_MPI
MPI_Allreduce(MPI_IN_PLACE, m_totalSize, 2, MPI_UNSIGNED_LONG, MPI_SUM, m_comm);
MPI_Scan(MPI_IN_PLACE, offset, 2, MPI_UNSIGNED_LONG, MPI_SUM, m_comm);
#endif // USE_MPI
offset[0] -= numCells;
offset[1] -= numVertices;
// Add a new mesh to the backend
unsigned int localSize[2] = {numCells, numVertices};
// Use the old mesh id for restarts
m_backend.setMesh((restarting ? m_meshId-1 : m_meshId), m_totalSize, localSize, offset);
if (restarting)
// Can skip writing the mesh if we are restarting
return;
// Add vertex offset to all cells and convert to unsigned long
unsigned long *h5Cells = new unsigned long[numCells * internal::Topology<Topo>::size()];
#ifdef USE_MPI
if (m_useVertexFilter) {
#ifdef _OPENMP
#pragma omp parallel for schedule(static)
#endif // _OPENMP
for (size_t i = 0; i < numCells*internal::Topology<Topo>::size(); i++)
h5Cells[i] = m_vertexFilter.globalIds()[cells[i]];
} else
#endif // USE_MPI
{
#ifdef _OPENMP
#pragma omp parallel for schedule(static)
#endif // _OPENMP
for (size_t i = 0; i < numCells*internal::Topology<Topo>::size(); i++)
h5Cells[i] = cells[i] + offset[1];
}
m_backend.writeCellData(0, 0, h5Cells);
delete [] h5Cells;
if (m_writePartitionInfo) {
// Create partition information
unsigned int *partInfo = new unsigned int[numCells];
#ifdef _OPENMP
#pragma omp parallel for schedule(static)
#endif // _OPENMP
for (unsigned int i = 0; i < numCells; i++)
partInfo[i] = m_rank;
m_backend.writeCellData(0, 1, partInfo);
delete [] partInfo;
}
m_backend.writeVertexData(0, 0, vertices);
m_meshId++;
m_meshTimeStep = 0;
}
/**
* Add a new output time step
*/
void addTimeStep(double time)
{
if (m_rank == 0) {
unsigned long alignedSize[2] = {m_backend.numAlignedCells(), m_backend.numAlignedVertices()};
m_xdmfFile << " ";
timeStepStartXdmf(m_timeStep, m_xdmfFile);
// Generate information for restarting (WARNING: if this line is modified the initialization has to be adapted)
m_xdmfFile << "<!-- mesh id: " << (m_meshId-1) << ", mesh step: " << m_meshTimeStep << " -->";
m_xdmfFile << std::endl;
m_xdmfFile << " <Topology TopologyType=\"" << internal::Topology<Topo>::name() << "\" NumberOfElements=\"" << m_totalSize[0] << "\">" << std::endl
// This should be UInt but for some reason this does not work with binary data
<< " <DataItem NumberType=\"Int\" Precision=\"8\" Format=\""
<< m_backend.format() << "\" Dimensions=\"" << m_totalSize[0] << " " << internal::Topology<Topo>::size() << "\">"
<< m_backend.cellDataLocation(m_meshId-1, "connect")
<< "</DataItem>" << std::endl
<< " </Topology>" << std::endl
<< " <Geometry name=\"geo\" GeometryType=\"XYZ\" NumberOfElements=\"" << m_totalSize[1] << "\">" << std::endl
<< " <DataItem NumberType=\"Float\" Precision=\"" << sizeof(VertexDataType) << "\" Format=\""
<< m_backend.format() << "\" Dimensions=\"" << m_totalSize[1] << " 3\">"
<< m_backend.vertexDataLocation(m_meshId-1, "geometry")
<< "</DataItem>" << std::endl
<< " </Geometry>" << std::endl
<< " <Time Value=\"" << time << "\"/>" << std::endl;
if (m_writePartitionInfo) {
m_xdmfFile << " <Attribute Name=\"partition\" Center=\"Cell\">" << std::endl
<< " <DataItem NumberType=\"Int\" Precision=\"4\" Format=\""
<< m_backend.format() << "\" Dimensions=\"" << m_totalSize[0] << "\">"
<< m_backend.cellDataLocation(m_meshId-1, "partition")
<< "</DataItem>" << std::endl
<< " </Attribute>" << std::endl;
}
if (m_writeExtraIntCellData) {
m_xdmfFile << " <Attribute Name=\"" << m_extraIntCellVariableName.c_str() << "\" Center=\"Cell\">" << std::endl
<< " <DataItem NumberType=\"Int\" Precision=\"4\" Format=\""
<< m_backend.format() << "\" Dimensions=\"" << m_totalSize[0] << "\">"
<< m_backend.cellDataLocation(m_meshId-1, m_extraIntCellVariableName.c_str())
<< "</DataItem>" << std::endl
<< " </Attribute>" << std::endl;
}
for (size_t i = 0; i < m_cellVariableNames.size(); i++) {
m_xdmfFile << " <Attribute Name=\"" << m_cellVariableNames[i] << "\" Center=\"Cell\">" << std::endl
<< " <DataItem ItemType=\"HyperSlab\" Dimensions=\"" << m_totalSize[0] << "\">" << std::endl
<< " <DataItem NumberType=\"UInt\" Precision=\"4\" Format=\"XML\" Dimensions=\"3 2\">"
<< m_meshTimeStep << " 0 1 1 1 " << m_totalSize[0] << "</DataItem>" << std::endl
<< " <DataItem NumberType=\"Float\" Precision=\"" << sizeof(CellDataType) << "\" Format=\""
<< m_backend.format() << "\" Dimensions=\""
<< (m_meshTimeStep + 1) << ' ' << alignedSize[0] << "\">"
<< m_backend.cellDataLocation(m_meshId-1, m_cellVariableNames[i])
<< "</DataItem>" << std::endl
<< " </DataItem>" << std::endl
<< " </Attribute>" << std::endl;
}
for (size_t i = 0; i < m_vertexVariableNames.size(); i++) {
m_xdmfFile << " <Attribute Name=\"" << m_vertexVariableNames[i] << "\" Center=\"Node\">" << std::endl
<< " <DataItem ItemType=\"HyperSlab\" Dimensions=\"" << m_totalSize[1] << "\">" << std::endl
<< " <DataItem NumberType=\"UInt\" Precision=\"4\" Format=\"XML\" Dimensions=\"3 2\">"
<< m_meshTimeStep << " 0 1 1 1 " << m_totalSize[1] << "</DataItem>" << std::endl
<< " <DataItem NumberType=\"Float\" Precision=\"" << sizeof(VertexDataType) << "\" Format=\""
<< m_backend.format() << "\" Dimensions=\""
<< (m_meshTimeStep + 1) << ' ' << alignedSize[1] << "\">"
<< m_backend.vertexDataLocation(m_meshId-1, m_vertexVariableNames[i])
<< "</DataItem>" << std::endl
<< " </DataItem>" << std::endl
<< " </Attribute>" << std::endl;
}
m_xdmfFile << " </Grid>" << std::endl;
closeXdmf();
}
m_timeStep++;
m_meshTimeStep++;
}
/**
* Write extra int cell (e.g. fault tag, clustering) data for each cell
*
* @param data comes from the caller
*/
void writeExtraIntCellData(const unsigned int *data)
{
SCOREP_USER_REGION("XDMFWriter_ExtraIntCellData", SCOREP_USER_REGION_TYPE_FUNCTION);
if (m_writeExtraIntCellData) {
const int ExtraIntCellId = (m_writePartitionInfo ? 2 : 1);
m_backend.writeCellData(0, ExtraIntCellId, data);
}
}
/**
* Write cell data for one variable at the current time step
*
* @param id The number of the variable that should be written
*/
void writeCellData(unsigned int id, const CellDataType *data)
{
SCOREP_USER_REGION("XDMFWriter_writeCellData", SCOREP_USER_REGION_TYPE_FUNCTION);
int idShift = (m_writePartitionInfo ? 2 : 1);
idShift += (m_writeExtraIntCellData ? 1 : 0);
m_backend.writeCellData(m_meshTimeStep-1, id + idShift, data);
}
/**
* Write vertex data for one variable at the current time step
*
* @param id The number of the variable that should be written
*/
void writeVertexData(unsigned int id, const VertexDataType *data)
{
SCOREP_USER_REGION("XDMFWriter_writeCellData", SCOREP_USER_REGION_TYPE_FUNCTION);
// Filter duplicates if the vertex filter is enabled
const void* tmp = data;
if (m_useVertexFilter)
tmp = m_vertexDataFilter.filter(data);
m_backend.writeVertexData(m_meshTimeStep-1, id + 1, tmp);
}
/**
* Flushes the data to disk
*/
void flush()
{
SCOREP_USER_REGION("XDMFWriter_flush", SCOREP_USER_REGION_TYPE_FUNCTION);
if (m_timeStep % m_flushInterval == 0)
m_backend.flush();
}
/**
* Closes the HDF5 file (should be done before MPI_Finalize is called)
*/
void close()
{
// Close backend
m_backend.close();
}
/**
* @return The current time step of the output file
*/
unsigned int timestep() const
{
return m_timeStep;
}
private:
void closeXdmf()
{
size_t contPos = m_xdmfFile.tellp();
m_xdmfFile << " </Grid>" << std::endl
<< " </Domain>" << std::endl
<< "</Xdmf>" << std::endl;
m_xdmfFile.seekp(contPos);
}
private:
/**
* Write the beginning of a time step to the stream
*/
static void timeStepStartXdmf(unsigned int timestep, std::ostream &s)
{
s << "<Grid Name=\"step_" << std::setw(MAX_TIMESTEP_SPACE) << std::setfill('0') << timestep << std::setfill(' ')
<< "\" GridType=\"Uniform\">";
}
/**
* Backup an existing xdmf file
*/
void backup(const std::string &prefix)
{
if (m_timeStep != 0) {
return;
}
std::string fileName = prefix + ".xdmf";
// Backup any existing file
struct stat statBuffer;
if (m_rank == 0 && stat(fileName.c_str(), &statBuffer) == 0) {
logWarning() << fileName << "already exists. Creating backup.";
if (!m_backupTimeStamp.has_value()) {
m_backupTimeStamp = utils::TimeUtils::timeAsString("%Y-%m-%d_%H-%M-%S", time(0L));
}
std::string newFile = prefix + ".bak_" + m_backupTimeStamp.value() + ".xdmf";
std::ifstream in(fileName);
if (!in) {
logError() << "Could not open " << fileName;
}
std::ofstream out(newFile);
if (!out) {
logError() << "Could not open " << newFile;
}
size_t pos = prefix.find_last_of('/');
std::string wordToReplacePrefix = (pos != std::string::npos) ? prefix.substr(pos+1) : prefix;
auto replace = [&](std::string& line, std::string const& wordToReplace) {
std::string wordToReplaceWith = wordToReplace + ".bak_" + m_backupTimeStamp.value();
size_t len = wordToReplace.length();
size_t pos = line.find(wordToReplace);
if (pos != std::string::npos) {
line.replace(pos, len, wordToReplaceWith);
}
};
std::string line;
while (getline(in, line)) {
replace(line, wordToReplacePrefix + "_cell");
replace(line, wordToReplacePrefix + "_vertex");
out << line << std::endl;
}
remove(fileName.c_str());
}
}
private:
static const unsigned int MAX_TIMESTEP_SPACE = 12;
};
}
#endif // XDMFWRITER_XDMFWRITER_H