/* * 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 . */ #ifndef PROCESSFIELDS_H #define PROCESSFIELDS_H #include "processing.h" #include "../tools/array_ops.h" class ProcessFields : public Processing { public: ProcessFields(Operator* op, Engine* eng); virtual ~ProcessFields(); enum FileType { VTK_FILETYPE, HDF5_FILETYPE}; enum DumpType { E_FIELD_DUMP, H_FIELD_DUMP}; enum DumpMode { NO_INTERPOLATION, NODE_INTERPOLATE, CELL_INTERPOLATE}; virtual void InitProcess(); virtual void DefineStartStopCoord(double* dstart, double* dstop); //! Define a field dump sub sampling rate for a given direction (default: dir = -1 means all directions) virtual void SetSubSampling(unsigned int subSampleRate, int dir=-1); //! Used file pattern e.g. pattern="tmp/efield_" --> "tmp/efield_000045.vtk" for timestep 45 or "tmp/efield_2.40000e9.vtk" for 2.4GHz E-field dump. (VTK FileType only) \sa SetFileType void SetFilePattern(string fp) {m_filename=filePattern=fp;} //! Set the filename for a hdf5 data group file (HDF5 FileType only) \sa SetFileType void SetFileName(string fn) {m_filename=m_fileName=fn;} //! Define the Dump-Mode void SetDumpMode(DumpMode mode) {m_DumpMode=mode;} //! This methode will dump all fields in the center of a main cell (dual-node) using 4 E-field and 2 H-fields per direction. (default) void SetDumpMode2Cell() {m_DumpMode=CELL_INTERPOLATE;} //! Set dump type: 0 for E-fields, 1 for H-fields, 2 for D-fields, 3 for B-fields, 4 for J-fields, etc... void SetDumpType(DumpType type) {m_DumpType=type;} static bool DumpVectorArray2VTK(ofstream &file, string name, FDTD_FLOAT const* const* const * const* array, double const* const* discLines, unsigned int const* numLines, unsigned int precision=12); static bool 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=12); static bool DumpScalarArray2VTK(ofstream &file, string name, FDTD_FLOAT const* const* const* array, double const* const* discLines, unsigned int const* numLines, unsigned int precision=12); static bool 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=12); static bool DumpVectorArray2HDF5(string filename, string name, FDTD_FLOAT const* const* const* const* array, unsigned int const* numLines); double CalcTotalEnergy() const; void SetFileType(FileType fileType) {m_fileType=fileType;} // virtual void Process(); protected: static void WriteVTKHeader(ofstream &file, double const* const* discLines, unsigned int const* numLines, unsigned int precision=12); static void WriteVTKVectorArray(ofstream &file, string name, FDTD_FLOAT const* const* const* const* array, unsigned int const* numLines, unsigned int precision=12); static void WriteVTKScalarArray(ofstream &file, string name, FDTD_FLOAT const* const* const* array, unsigned int const* numLines, unsigned int precision=12); static string GetFieldNameByType(DumpType type); DumpMode m_DumpMode; DumpType m_DumpType; string filePattern; string m_fileName; FileType m_fileType; //! field dump sub-sampling unsigned int subSample[3]; //! dump mesh unsigned int numLines[3]; double* discLines[3]; //! dual dump mesh unsigned int numDLines[3]; double* discDLines[3]; }; #endif // PROCESSFIELDS_H