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Program: Visualization Toolkit
Module: vtkMultiBlockPLOT3DReader.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 vtkMultiBlockPLOT3DReader - read PLOT3D data files
// .SECTION Description
// vtkMultiBlockPLOT3DReader is a reader object that reads PLOT3D formatted
// files and generates structured grid(s) on output. PLOT3D is a computer
// graphics program designed to visualize the grids and solutions of
// computational fluid dynamics. This reader also supports the variant
// of the PLOT3D format used by NASA's OVERFLOW CFD software, including
// full support for all Q variables. Please see the "PLOT3D User's Manual"
// available from NASA Ames Research Center, Moffett Field CA.
//
// PLOT3D files consist of a grid file (also known as XYZ file), an
// optional solution file (also known as a Q file), and an optional function
// file that contains user created data (currently unsupported). The Q file
// contains solution information as follows: the four parameters free stream
// mach number (Fsmach), angle of attack (Alpha), Reynolds number (Re), and
// total integration time (Time). This information is stored in an array
// called Properties in the FieldData of each output (tuple 0: fsmach, tuple 1:
// alpha, tuple 2: re, tuple 3: time). In addition, the solution file contains
// the flow density (scalar), flow momentum (vector), and flow energy (scalar).
//
// Note that this reader does not support time series data which is usually
// stored as a series of Q and optionally XYZ files. If you want to read such
// a file series, use vtkPlot3DMetaReader.
//
// The reader can generate additional scalars and vectors (or "functions")
// from this information. To use vtkMultiBlockPLOT3DReader, you must specify the
// particular function number for the scalar and vector you want to visualize.
// This implementation of the reader provides the following functions. The
// scalar functions are:
// -1 - don't read or compute any scalars
// 100 - density
// 110 - pressure
// 111 - pressure coefficient (requires Overflow file with Gamma)
// 112 - mach number (requires Overflow file with Gamma)
// 113 - sounds speed (requires Overflow file with Gamma)
// 120 - temperature
// 130 - enthalpy
// 140 - internal energy
// 144 - kinetic energy
// 153 - velocity magnitude
// 163 - stagnation energy
// 170 - entropy
// 184 - swirl
// 211 - vorticity magnitude
//
// The vector functions are:
// -1 - don't read or compute any vectors
// 200 - velocity
// 201 - vorticity
// 202 - momentum
// 210 - pressure gradient.
// 212 - strain rate
//
// (Other functions are described in the PLOT3D spec, but only those listed are
// implemented here.) Note that by default, this reader creates the density
// scalar (100), stagnation energy (163) and momentum vector (202) as output.
// (These are just read in from the solution file.) Please note that the validity
// of computation is a function of this class's gas constants (R, Gamma) and the
// equations used. They may not be suitable for your computational domain.
//
// Additionally, you can read other data and associate it as a vtkDataArray
// into the output's point attribute data. Use the method AddFunction()
// to list all the functions that you'd like to read. AddFunction() accepts
// an integer parameter that defines the function number.
//
// .SECTION See Also
// vtkMultiBlockDataSet vtkStructuredGrid vtkPlot3DMetaReader
#ifndef vtkMultiBlockPLOT3DReader_h
#define vtkMultiBlockPLOT3DReader_h
#include "vtkIOGeometryModule.h" // For export macro
#include "vtkMultiBlockDataSetAlgorithm.h"
class vtkDataArray;
class vtkUnsignedCharArray;
class vtkIntArray;
class vtkStructuredGrid;
//BTX
struct vtkMultiBlockPLOT3DReaderInternals;
//ETX
class VTKIOGEOMETRY_EXPORT vtkMultiBlockPLOT3DReader : public vtkMultiBlockDataSetAlgorithm
{
public:
static vtkMultiBlockPLOT3DReader *New();
vtkTypeMacro(vtkMultiBlockPLOT3DReader,vtkMultiBlockDataSetAlgorithm);
void PrintSelf(ostream& os, vtkIndent indent);
// Description:
// Set/Get the PLOT3D geometry filename.
void SetFileName(const char* name) { this->SetXYZFileName(name); }
const char* GetFileName() { return this->GetXYZFileName(); }
virtual void SetXYZFileName( const char* );
vtkGetStringMacro(XYZFileName);
// Description:
// Set/Get the PLOT3D solution filename.
vtkSetStringMacro(QFileName);
vtkGetStringMacro(QFileName);
// Description:
// Set/Get the PLOT3D function filename.
vtkSetStringMacro(FunctionFileName);
vtkGetStringMacro(FunctionFileName);
// Description:
// When this option is turned on, the reader will try to figure
// out the values of various options such as byte order, byte
// count etc. automatically. This options works only for binary
// files. When it is turned on, the reader should be able to read
// most Plot3D files automatically. The default is OFF for backwards
// compatibility reasons. For binary files, it is strongly recommended
// that you turn on AutoDetectFormat and leave the other file format
// related options untouched.
vtkSetMacro(AutoDetectFormat, int);
vtkGetMacro(AutoDetectFormat, int);
vtkBooleanMacro(AutoDetectFormat, int);
// Description:
// Is the file to be read written in binary format (as opposed
// to ascii).
vtkSetMacro(BinaryFile, int);
vtkGetMacro(BinaryFile, int);
vtkBooleanMacro(BinaryFile, int);
// Description:
// Does the file to be read contain information about number of
// grids. In some PLOT3D files, the first value contains the number
// of grids (even if there is only 1). If reading such a file,
// set this to true.
vtkSetMacro(MultiGrid, int);
vtkGetMacro(MultiGrid, int);
vtkBooleanMacro(MultiGrid, int);
// Description:
// Were the arrays written with leading and trailing byte counts ?
// Usually, files written by a fortran program will contain these
// byte counts whereas the ones written by C/C++ won't.
vtkSetMacro(HasByteCount, int);
vtkGetMacro(HasByteCount, int);
vtkBooleanMacro(HasByteCount, int);
// Description:
// Is there iblanking (point visibility) information in the file.
// If there is iblanking arrays, these will be read and assigned
// to the PointVisibility array of the output.
vtkSetMacro(IBlanking, int);
vtkGetMacro(IBlanking, int);
vtkBooleanMacro(IBlanking, int);
// Description:
// If only two-dimensional data was written to the file,
// turn this on.
vtkSetMacro(TwoDimensionalGeometry, int);
vtkGetMacro(TwoDimensionalGeometry, int);
vtkBooleanMacro(TwoDimensionalGeometry, int);
// Description:
// Is this file in double precision or single precision.
// This only matters for binary files.
// Default is single.
vtkSetMacro(DoublePrecision, int);
vtkGetMacro(DoublePrecision, int);
vtkBooleanMacro(DoublePrecision, int);
// Description:
// Try to read a binary file even if the file length seems to be
// inconsistent with the header information. Use this with caution,
// if the file length is not the same as calculated from the header.
// either the file is corrupt or the settings are wrong.
vtkSetMacro(ForceRead, int);
vtkGetMacro(ForceRead, int);
vtkBooleanMacro(ForceRead, int);
// Description:
// Set the byte order of the file (remember, more Unix workstations
// write big endian whereas PCs write little endian). Default is
// big endian (since most older PLOT3D files were written by
// workstations).
void SetByteOrderToBigEndian();
void SetByteOrderToLittleEndian();
vtkSetMacro(ByteOrder, int);
vtkGetMacro(ByteOrder, int);
const char *GetByteOrderAsString();
// Description:
// Set/Get the gas constant. Default is 1.0.
vtkSetMacro(R,double);
vtkGetMacro(R,double);
// Description:
// Set/Get the ratio of specific heats. Default is 1.4.
vtkSetMacro(Gamma,double);
vtkGetMacro(Gamma,double);
// Description:
// Specify the scalar function to extract. If ==(-1), then no scalar
// function is extracted.
void SetScalarFunctionNumber(int num);
vtkGetMacro(ScalarFunctionNumber,int);
// Description:
// Specify the vector function to extract. If ==(-1), then no vector
// function is extracted.
void SetVectorFunctionNumber(int num);
vtkGetMacro(VectorFunctionNumber,int);
// Description:
// Specify additional functions to read. These are placed into the
// point data as data arrays. Later on they can be used by labeling
// them as scalars, etc.
void AddFunction(int functionNumber);
void RemoveFunction(int);
void RemoveAllFunctions();
// Description:
// Return 1 if the reader can read the given file name. Only meaningful
// for binary files.
virtual int CanReadBinaryFile(const char* fname);
// Description:
// Overwritten to make sure that RequestInformation reads the meta-data
// again after the reader parameters were changed.
virtual void Modified();
//BTX
enum
{
FILE_BIG_ENDIAN=0,
FILE_LITTLE_ENDIAN=1
};
//ETX
protected:
vtkMultiBlockPLOT3DReader();
~vtkMultiBlockPLOT3DReader();
vtkDataArray* CreateFloatArray();
int CheckFile(FILE*& fp, const char* fname);
int CheckGeometryFile(FILE*& xyzFp);
int CheckSolutionFile(FILE*& qFp);
int CheckFunctionFile(FILE*& fFp);
int SkipByteCount (FILE* fp);
int ReadIntBlock (FILE* fp, int n, int* block);
int ReadScalar(FILE* fp, int n, vtkDataArray* scalar);
int ReadVector(FILE* fp, int n, int numDims, vtkDataArray* vector);
int GetNumberOfBlocksInternal(FILE* xyzFp, int allocate);
int ReadGeometryHeader(FILE* fp);
int ReadQHeader(FILE* fp, bool checkGrid, int& nq, int& nqc, int& overflow);
int ReadFunctionHeader(FILE* fp, int* nFunctions);
void CalculateFileSize(FILE* fp);
long EstimateSize(int ni, int nj, int nk);
int AutoDetectionCheck(FILE* fp);
void AssignAttribute(int fNumber, vtkStructuredGrid* output,
int attributeType);
void MapFunction(int fNumber, vtkStructuredGrid* output);
void ComputeTemperature(vtkStructuredGrid* output);
void ComputePressure(vtkStructuredGrid* output);
void ComputeEnthalpy(vtkStructuredGrid* output);
void ComputeKineticEnergy(vtkStructuredGrid* output);
void ComputeVelocityMagnitude(vtkStructuredGrid* output);
void ComputeEntropy(vtkStructuredGrid* output);
void ComputeSwirl(vtkStructuredGrid* output);
void ComputeVelocity(vtkStructuredGrid* output);
void ComputeVorticity(vtkStructuredGrid* output);
void ComputePressureGradient(vtkStructuredGrid* output);
void ComputePressureCoefficient(vtkStructuredGrid* output);
void ComputeMachNumber(vtkStructuredGrid* output);
void ComputeSoundSpeed(vtkStructuredGrid* output);
void ComputeVorticityMagnitude(vtkStructuredGrid* output);
void ComputeStrainRate(vtkStructuredGrid* output);
// Returns a vtkFloatArray or a vtkDoubleArray depending
// on DoublePrecision setting
vtkDataArray* NewFloatArray();
// Delete references to any existing vtkPoints and
// I-blank arrays. The next Update() will (re)read
// the XYZ file.
void ClearGeometryCache();
//plot3d FileNames
char *XYZFileName;
char *QFileName;
char *FunctionFileName;
int BinaryFile;
int HasByteCount;
int TwoDimensionalGeometry;
int MultiGrid;
int ForceRead;
int ByteOrder;
int IBlanking;
int DoublePrecision;
int AutoDetectFormat;
long FileSize;
//parameters used in computing derived functions
double R;
double Gamma;
double Uvinf;
double Vvinf;
double Wvinf;
//functions to read that are not scalars or vectors
vtkIntArray *FunctionList;
int ScalarFunctionNumber;
int VectorFunctionNumber;
virtual int FillOutputPortInformation(int port, vtkInformation* info);
virtual int RequestData(vtkInformation*,
vtkInformationVector**,
vtkInformationVector*);
virtual int RequestInformation(vtkInformation*,
vtkInformationVector**,
vtkInformationVector*);
vtkMultiBlockPLOT3DReaderInternals* Internal;
private:
vtkMultiBlockPLOT3DReader(const vtkMultiBlockPLOT3DReader&); // Not implemented.
void operator=(const vtkMultiBlockPLOT3DReader&); // Not implemented.
};
#endif
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