/usr/include/vtk-5.10/vtkMFIXReader.h is in libvtk5-dev 5.10.1+dfsg-2.1build1.
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Program: Visualization Toolkit
Module: vtkMFIXReader.h
Copyright (c) Ken Martin, Will Schroeder, Bill Lorensen
All rights reserved.
See Copyright.txt or http://www.kitware.com/Copyright.htm for details.
This software is distributed WITHOUT ANY WARRANTY; without even
the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
PURPOSE. See the above copyright notice for more information.
=========================================================================*/
// .NAME vtkMFIXReader - reads a dataset in MFIX file format
// .SECTION Description
// vtkMFIXReader creates an unstructured grid dataset. It reads a restart
// file and a set of sp files. The restart file contains the mesh
// information. MFIX meshes are either cylindrical or rectilinear, but
// this reader will convert them to an unstructured grid. The sp files
// contain transient data for the cells. Each sp file has one or more
// variables stored inside it.
// .SECTION Thanks
// Thanks to Phil Nicoletti and Brian Dotson at the National Energy
// Technology Laboratory who developed this class.
// Please address all comments to Brian Dotson (brian.dotson@netl.doe.gov)
// .SECTION See Also
// vtkGAMBITReader
#ifndef __vtkMFIXReader_h
#define __vtkMFIXReader_h
#include "vtkUnstructuredGridAlgorithm.h"
class vtkDataArraySelection;
class vtkDoubleArray;
class vtkStringArray;
class vtkIntArray;
class vtkFloatArray;
class vtkXMLUnstructuredGridWriter;
class vtkWedge;
class vtkQuad;
class vtkHexahedron;
class vtkPoints;
class vtkStdString;
class VTK_IO_EXPORT vtkMFIXReader : public vtkUnstructuredGridAlgorithm
{
public:
static vtkMFIXReader *New();
vtkTypeMacro(vtkMFIXReader,vtkUnstructuredGridAlgorithm);
void PrintSelf(ostream& os, vtkIndent indent);
// Description:
// Specify the file name of the MFIX Restart data file to read.
vtkSetStringMacro(FileName);
vtkGetStringMacro(FileName);
// Description:
// Get the total number of cells. The number of cells is only valid after a
// successful read of the data file is performed.
vtkGetMacro(NumberOfCells,int);
// Description:
// Get the total number of nodes. The number of nodes is only valid after a
// successful read of the data file is performed.
vtkGetMacro(NumberOfPoints,int);
// Description:
// Get the number of data components at the nodes and cells.
vtkGetMacro(NumberOfCellFields,int);
// Description:
// Which TimeStep to read.
vtkSetMacro(TimeStep, int);
vtkGetMacro(TimeStep, int);
// Description:
// Returns the number of timesteps.
vtkGetMacro(NumberOfTimeSteps, int);
// Description:
// Which TimeStepRange to read
vtkGetVector2Macro(TimeStepRange, int);
vtkSetVector2Macro(TimeStepRange, int);
// Description
// Get the number of cell arrays available in the input.
int GetNumberOfCellArrays(void);
// Description:
// Get the name of the cell array with the given index in
// the input.
const char* GetCellArrayName(int index);
// Description:
// Get/Set whether the cell array with the given name is to
// be read.
int GetCellArrayStatus(const char* name);
void SetCellArrayStatus(const char* name, int status);
// Description:
// Turn on/off all cell arrays.
void DisableAllCellArrays();
void EnableAllCellArrays();
// Description:
// Get the range of cell data.
void GetCellDataRange(int cellComp, int index, float *min, float *max);
protected:
vtkMFIXReader();
~vtkMFIXReader();
int RequestInformation(vtkInformation *,
vtkInformationVector **, vtkInformationVector *);
int RequestData(vtkInformation *,
vtkInformationVector **, vtkInformationVector *);
//
// ParaView Variables
//
char *FileName;
int RequestInformationFlag;
int MakeMeshFlag;
int NumberOfPoints;
int NumberOfCells;
int NumberOfCellFields;
vtkIntArray *VectorLength;
vtkFloatArray *Minimum;
vtkFloatArray *Maximum;
vtkDataArraySelection *CellDataArraySelection;
int TimeStep;
int ActualTimeStep;
int CurrentTimeStep;
int NumberOfTimeSteps;
int *TimeSteps;
int TimeStepRange[2];
int TimeStepWasReadOnce;
//
// MFIX Variables
//
vtkFloatArray **CellDataArray; // Arrays for variables that will
//attach to mesh
vtkPoints *Points; // Points array for building grid
vtkUnstructuredGrid *Mesh; // Unstructured Grid
vtkHexahedron *AHexahedron; // Hexahedron type cell
vtkWedge *AWedge; // Wedge type cell
vtkQuad *AQuad; // Quad type cell
vtkIntArray *Flag; // Cell Flag array
vtkDoubleArray *Dx; // Cell widths in x axis
vtkDoubleArray *Dy; // Cell widths in y axis
vtkDoubleArray *Dz; // Cell widths in z axis
vtkIntArray *NMax; // Array to hold number of species per phase
vtkDoubleArray *C; // Array used to parse restart file
vtkIntArray *TempI; // Array used to parse restart file
vtkDoubleArray *TempD; // Array used to parse restart file
vtkIntArray *SpxFileExists; // Array for keeping track of
// what spx files exist.
char FileExtension[15];
char DataBuffer[513];
char Version[120];
float VersionNumber;
int DimensionIc;
int DimensionBc;
int DimensionC;
int DimensionIs;
double Ce;
double Cf;
double Phi;
double PhiW;
double DeltaTime;
double XMinimum;
char RunName[256];
vtkStringArray *VariableNames;
vtkIntArray *VariableComponents;
int IMinimum1;
int JMinimum1;
int KMinimum1;
int IMaximum;
int JMaximum;
int KMaximum;
int IMaximum1;
int JMaximum1;
int KMaximum1;
int IMaximum2;
int JMaximum2;
int KMaximum2;
int IJMaximum2;
int IJKMaximum2;
int MMAX;
int NumberOfSPXFilesUsed;
double XLength;
double YLength;
double ZLength;
int NumberOfScalars;
int NumberOfReactionRates;
bool BkEpsilon;
char CoordinateSystem[17];
char Units[17];
//
// SPX Variables
//
int MaximumTimestep; // maximum timesteps amongst the variables
int SPXRecordsPerTimestep; // number of records in a single
// timestep for a variable
vtkIntArray *SPXToNVarTable; // number of variables in each spx file
vtkIntArray *VariableToSkipTable; // skip value for each variable, this
// is needed in spx files
// with more than one variable.
vtkIntArray *VariableTimesteps; // number of timesteps for each variable
vtkIntArray *VariableTimestepTable; // Since the number of timesteps
// vary between variables
// this is a table that looks
// up the appropriate timestep
// for the particular variable.
vtkIntArray *variableIndexToSPX; // This gives the spx file number for the
// particular variable.
vtkIntArray *VariableIndexToSPX; // This gives the spx file number for the
// particular variable.
vtkIntArray *SPXTimestepIndexTable; // This a table look up for the index
// into a file for a certain variable.
private:
vtkMFIXReader(const vtkMFIXReader&); // Not implemented.
void operator=(const vtkMFIXReader&); // Not implemented.
void MakeMesh(vtkUnstructuredGrid *output);
void SwapDouble(double &value);
void SwapFloat(float &value);
void SwapInt(int &value);
vtkStdString ConvertIntToString(int in);
int ConvertCharToInt(char in);
int ConvertStringToInt(const vtkStdString & in);
void GetInt(istream& in, int &val);
void GetDouble(istream& in, double& val);
void GetFloat(istream& in, float& val);
void SkipBytes(istream& in, int n);
void RestartVersionNumber(const char* buffer);
void GetBlockOfDoubles(istream& in, vtkDoubleArray *v, int n);
void GetBlockOfFloats(istream& in, vtkFloatArray *v, int n);
void GetBlockOfInts(istream& in, vtkIntArray *v, int n);
void ReadRestartFile();
void GetVariableAtTimestep(int vari , int tstep, vtkFloatArray *v);
void CreateVariableNames();
void GetTimeSteps();
void MakeTimeStepTable(int nvars);
void SetProjectName (const char *infile);
void MakeSPXTimeStepIndexTable(int nvars);
void CalculateMaxTimeStep();
void GetNumberOfVariablesInSPXFiles();
void FillVectorVariable( int xindex, int yindex, int zindex,
vtkFloatArray *v);
void ConvertVectorFromCylindricalToCartesian( int xindex, int zindex);
void GetAllTimes(vtkInformationVector *outputVector);
};
#endif
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