openEMS/FDTD/processfields.cpp

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/*
* Copyright (C) 2010 Thorsten Liebig (Thorsten.Liebig@gmx.de)
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "processfields.h"
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#include <iomanip>
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#include <H5Cpp.h>
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ProcessFields::ProcessFields(Operator* op, Engine* eng) : Processing(op, eng)
{
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m_DumpMode = NO_INTERPOLATION;
m_DumpType = E_FIELD_DUMP;
// vtk-file is default
m_fileType = VTK_FILETYPE;
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SetSubSampling(1);
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SetPrecision(6);
for (int n=0;n<3;++n)
{
numLines[n]=0;
discDLines[n]=NULL;
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discLines[n]=NULL;
}
}
ProcessFields::~ProcessFields()
{
for (int n=0;n<3;++n)
{
delete[] discDLines[n];
discDLines[n]=NULL;
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delete[] discLines[n];
discLines[n]=NULL;
}
}
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void ProcessFields::InitProcess()
{
if (Enabled==false) return;
//get the correct direction names for all coordinate systems
string names[] = {Op->GetDirName(0),Op->GetDirName(1),Op->GetDirName(2)};
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if (m_fileType==HDF5_FILETYPE)
{
unsigned int* NrLines;
double** Lines;
if (m_DumpMode==CELL_INTERPOLATE)
{
NrLines = numDLines;
Lines = discDLines;
}
else if (m_DumpMode==NO_INTERPOLATION)
{
NrLines = numLines;
Lines = discLines;
}
else
return;
m_fileName+= ".h5";
H5::H5File* file = new H5::H5File( m_fileName , H5F_ACC_TRUNC );
H5::Group* group = new H5::Group( file->createGroup( "/Mesh" ));
for (int n=0;n<3;++n)
{
hsize_t dimsf[1]; // dataset dimensions
dimsf[0] = NrLines[n];
H5::DataSpace dataspace( 1, dimsf );
H5::FloatType datatype( H5::PredType::NATIVE_FLOAT );
H5::DataSet dataset = group->createDataSet( names[n].c_str(), datatype, dataspace );
//convert to float...
float* array = new float[NrLines[n]];
for (unsigned int i=0;i<NrLines[n];++i)
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array[i] = Lines[n][i];
//write to dataset
dataset.write( array, H5::PredType::NATIVE_FLOAT );
}
delete group;
group = new H5::Group( file->createGroup( "/FieldData" ));
delete group;
delete file;
}
}
string ProcessFields::GetFieldNameByType(DumpType type)
{
switch (type)
{
case E_FIELD_DUMP:
return "E-Field";
case H_FIELD_DUMP:
return "H-Field";
}
return "unknown field";
}
void ProcessFields::DefineStartStopCoord(double* dstart, double* dstop)
{
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vector<double> lines;
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if (m_DumpMode==NO_INTERPOLATION)
{
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if (Op->SnapToMesh(dstart,start)==false) cerr << "ProcessFields::DefineStartStopCoord: Warning: Snapping problem, check start value!!" << endl;
if (Op->SnapToMesh(dstop,stop)==false) cerr << "ProcessFields::DefineStartStopCoord: Warning: Snapping problem, check stop value!!" << endl;
//create dual mesh
for (int n=0;n<3;++n)
{
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// cerr << "start " << start[n] << "stop " << stop[n];
if (start[n]>stop[n])
{
unsigned int help = start[n];
start[n]=stop[n];
stop[n]=help;
}
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lines.clear();
for (unsigned int i=start[n];i<=stop[n];i+=subSample[n])
{
lines.push_back(Op->GetDiscLine(n,i));//Op->discLines[n][i]);
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}
numLines[n] = lines.size();
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delete[] discLines[n];
discLines[n] = new double[numLines[n]];
for (unsigned int i=0;i<numLines[n];++i)
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discLines[n][i] = lines.at(i);
}
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}
else if (m_DumpMode==NODE_INTERPOLATE)
{
if (Op->SnapToMesh(dstart,start)==false) cerr << "ProcessFields::DefineStartStopCoord: Warning: Snapping problem, check start value!!" << endl;
if (Op->SnapToMesh(dstop,stop)==false) cerr << "ProcessFields::DefineStartStopCoord: Warning: Snapping problem, check stop value!!" << endl;
//create mesh
for (int n=0;n<3;++n)
{
if (start[n]>stop[n])
{
unsigned int help = start[n];
start[n]=stop[n];
stop[n]=help;
}
if (stop[n]==Op->GetNumberOfLines(n)-1)
--stop[n];
// cerr << "start " << start[n] << "stop " << stop[n];
lines.clear();
for (unsigned int i=start[n];i<=stop[n];i+=subSample[n])
{
lines.push_back(Op->GetDiscLine(n,i));//0.5*(Op->discLines[n][i+1] + Op->discLines[n][i]));
}
numLines[n] = lines.size();
delete[] discLines[n];
discLines[n] = new double[numLines[n]];
for (unsigned int i=0;i<numLines[n];++i)
discLines[n][i] = lines.at(i);
}
}
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else if (m_DumpMode==CELL_INTERPOLATE)
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{
if (Op->SnapToMesh(dstart,start,true)==false) cerr << "ProcessFields::DefineStartStopCoord: Warning: Snapping problem, check start value!!" << endl;
if (Op->SnapToMesh(dstop,stop,true)==false) cerr << "ProcessFields::DefineStartStopCoord: Warning: Snapping problem, check stop value!!" << endl;
//create dual mesh
for (int n=0;n<3;++n)
{
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// cerr << "start " << start[n] << "stop " << stop[n];
if (start[n]>stop[n])
{
unsigned int help = start[n];
start[n]=stop[n];
stop[n]=help;
}
++stop[n];
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lines.clear();
for (unsigned int i=start[n];i<stop[n];i+=subSample[n])
{
lines.push_back(Op->GetDiscLine(n,i,true));//0.5*(Op->discLines[n][i+1] + Op->discLines[n][i]));
}
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numDLines[n] = lines.size();
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delete[] discDLines[n];
discDLines[n] = new double[numDLines[n]];
for (unsigned int i=0;i<numDLines[n];++i)
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discDLines[n][i] = lines.at(i);
}
}
}
double ProcessFields::CalcTotalEnergy() const
{
if (!Eng)
return 0;
double energy=0;
unsigned int pos[3];
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for (pos[0]=0;pos[0]<Op->GetNumberOfLines(0);++pos[0])
{
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for (pos[1]=0;pos[1]<Op->GetNumberOfLines(1);++pos[1])
{
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for (pos[2]=0;pos[2]<Op->GetNumberOfLines(2);++pos[2])
{
energy+=fabs(Eng->GetVolt(0,pos[0],pos[1],pos[2]) * Eng->GetCurr(1,pos[0],pos[1],pos[2]));
energy+=fabs(Eng->GetVolt(0,pos[0],pos[1],pos[2]) * Eng->GetCurr(2,pos[0],pos[1],pos[2]));
energy+=fabs(Eng->GetVolt(1,pos[0],pos[1],pos[2]) * Eng->GetCurr(0,pos[0],pos[1],pos[2]));
energy+=fabs(Eng->GetVolt(1,pos[0],pos[1],pos[2]) * Eng->GetCurr(2,pos[0],pos[1],pos[2]));
energy+=fabs(Eng->GetVolt(2,pos[0],pos[1],pos[2]) * Eng->GetCurr(0,pos[0],pos[1],pos[2]));
energy+=fabs(Eng->GetVolt(2,pos[0],pos[1],pos[2]) * Eng->GetCurr(1,pos[0],pos[1],pos[2]));
}
}
}
return energy*0.5;
}
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void ProcessFields::SetSubSampling(unsigned int subSampleRate, int dir)
{
if (dir>2) return;
if (dir<0)
{
subSample[0]=subSampleRate;
subSample[1]=subSampleRate;
subSample[2]=subSampleRate;
}
else subSample[dir]=subSampleRate;
}
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void ProcessFields::WriteVTKHeader(ofstream &file, double const* const* discLines, unsigned int const* numLines, unsigned int precision)
{
file << "# vtk DataFile Version 2.0" << endl;
file << "Rectilinear Grid openEMS_ProcessFields" << endl;
file << "ASCII" << endl;
file << "DATASET RECTILINEAR_GRID " << endl;
file << "DIMENSIONS " << numLines[0] << " " << numLines[1] << " " << numLines[2] << endl;
file << "X_COORDINATES " << numLines[0] << " float" << endl;
for (unsigned int i=0;i<numLines[0];++i)
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file << setprecision(precision) << discLines[0][i] << " ";
file << endl;
file << "Y_COORDINATES " << numLines[1] << " float" << endl;
for (unsigned int i=0;i<numLines[1];++i)
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file << setprecision(precision) << discLines[1][i] << " ";
file << endl;
file << "Z_COORDINATES " << numLines[2] << " float" << endl;
for (unsigned int i=0;i<numLines[2];++i)
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file << setprecision(precision) << discLines[2][i] << " ";
file << endl << endl;
file << "POINT_DATA " << numLines[0]*numLines[1]*numLines[2] << endl;
}
void ProcessFields::WriteVTKVectorArray(ofstream &file, string name, FDTD_FLOAT const* const* const* const* array, unsigned int const* numLines, unsigned int precision)
{
file << "VECTORS " << name << " float " << endl;
unsigned int pos[3];
for (pos[2]=0;pos[2]<numLines[2];++pos[2])
{
for (pos[1]=0;pos[1]<numLines[1];++pos[1])
{
for (pos[0]=0;pos[0]<numLines[0];++pos[0])
{
//in x
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file << setprecision(precision) << array[0][pos[0]][pos[1]][pos[2]] << " ";
//in y
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file << setprecision(precision) << array[1][pos[0]][pos[1]][pos[2]] << " ";
//in z
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file << setprecision(precision) << array[2][pos[0]][pos[1]][pos[2]] << endl;
}
}
}
}
bool ProcessFields::DumpVectorArray2VTK(ofstream &file, string name, FDTD_FLOAT const* const* const* const* array, double const* const* discLines, unsigned int const* numLines, unsigned int precision)
{
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WriteVTKHeader(file, discLines, numLines, precision);
WriteVTKVectorArray(file, name, array, numLines, precision);
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return true;
}
bool ProcessFields::DumpMultiVectorArray2VTK(ofstream &file, string names[], FDTD_FLOAT const* const* const* const* const* array, unsigned int numFields, double const* const* discLines, unsigned int const* numLines, unsigned int precision)
{
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WriteVTKHeader(file, discLines, numLines, precision);
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for (unsigned int n=0;n<numFields;++n)
{
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WriteVTKVectorArray(file, names[n], array[n], numLines, precision);
file << endl;
}
return true;
}
void ProcessFields::WriteVTKScalarArray(ofstream &file, string name, FDTD_FLOAT const* const* const* array, unsigned int const* numLines, unsigned int precision)
{
file << "SCALARS " << name << " float " << 1 << endl;
file << "LOOKUP_TABLE default" << endl;
unsigned int pos[3];
int count=0;
for (pos[2]=0;pos[2]<numLines[2];++pos[2])
{
for (pos[1]=0;pos[1]<numLines[1];++pos[1])
{
for (pos[0]=0;pos[0]<numLines[0];++pos[0])
{
file << setprecision(precision) << array[pos[0]][pos[1]][pos[2]] << " ";
++count;
if (count%10==0)
file << endl;
}
}
}
}
bool ProcessFields::DumpScalarArray2VTK(ofstream &file, string name, FDTD_FLOAT const* const* const* array, double const* const* discLines, unsigned int const* numLines, unsigned int precision)
{
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WriteVTKHeader(file, discLines, numLines, precision);
WriteVTKScalarArray(file, name, array, numLines, precision);
return true;
}
bool ProcessFields::DumpMultiScalarArray2VTK(ofstream &file, string names[], FDTD_FLOAT const* const* const* const* array, unsigned int numFields, double const* const* discLines, unsigned int const* numLines, unsigned int precision)
{
WriteVTKHeader(file, discLines, numLines);
for (unsigned int n=0;n<numFields;++n)
{
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WriteVTKScalarArray(file, names[n], array[n], numLines, precision);
file << endl;
}
return true;
}
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bool ProcessFields::DumpVectorArray2HDF5(string filename, string name, FDTD_FLOAT const* const* const* const* array, unsigned int const* numLines, float time)
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{
const H5std_string FILE_NAME(filename);
const H5std_string DATASET_NAME( name );
H5::H5File file( FILE_NAME, H5F_ACC_RDWR );
H5::Group group( file.openGroup( "/FieldData" ));
hsize_t dimsf[4]; // dataset dimensions
dimsf[0] = 3;
dimsf[1] = numLines[2];
dimsf[2] = numLines[1];
dimsf[3] = numLines[0];
H5::DataSpace dataspace( 4, dimsf );
H5::FloatType datatype( H5::PredType::NATIVE_FLOAT );
// datatype.setOrder( H5T_ORDER_LE );
H5::DataSet dataset = group.createDataSet( DATASET_NAME, datatype, dataspace );
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hsize_t t_dimsf[] = {1};
H5::DataSpace t_dataspace( 1, t_dimsf );
H5::Attribute attr = dataset.createAttribute("time",H5::PredType::NATIVE_FLOAT,t_dataspace);
attr.write( H5::PredType::NATIVE_FLOAT , &time);
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// I have not the slightest idea why this array-copy action is necessary... but it's the only way hdf5 does what it is supposed to do anyway!!
// at least it is save in case FDTD_FLOAT was defined as double...
// why does hdf5 write the dimensions backwards??? or matlab???
float hdf5array[3][numLines[2]][numLines[1]][numLines[0]];
for (int n=0;n<3;++n)
{
for (unsigned int i=0;i<numLines[0];++i)
{
for (unsigned int j=0;j<numLines[1];++j)
{
for (unsigned int k=0;k<numLines[2];++k)
{
hdf5array[n][k][j][i] = array[n][i][j][k];
}
}
}
}
dataset.write( hdf5array, H5::PredType::NATIVE_FLOAT );
return true;
}