/usr/include/vtk-7.1/vtkEnSightReader.h is in libvtk7-dev 7.1.1+dfsg1-2.
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Program: Visualization Toolkit
Module: vtkEnSightReader.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.
=========================================================================*/
/**
* @class vtkEnSightReader
* @brief superclass for EnSight file readers
*/
#ifndef vtkEnSightReader_h
#define vtkEnSightReader_h
#include "vtkIOEnSightModule.h" // For export macro
#include "vtkGenericEnSightReader.h"
class vtkDataSet;
class vtkDataSetCollection;
class vtkEnSightReaderCellIdsType;
class vtkIdList;
class vtkMultiBlockDataSet;
class VTKIOENSIGHT_EXPORT vtkEnSightReader : public vtkGenericEnSightReader
{
public:
vtkTypeMacro(vtkEnSightReader, vtkGenericEnSightReader);
void PrintSelf(ostream& os, vtkIndent indent);
enum ElementTypesList
{
POINT = 0,
BAR2 = 1,
BAR3 = 2,
NSIDED = 3,
TRIA3 = 4,
TRIA6 = 5,
QUAD4 = 6,
QUAD8 = 7,
NFACED = 8,
TETRA4 = 9,
TETRA10 = 10,
PYRAMID5 = 11,
PYRAMID13 = 12,
HEXA8 = 13,
HEXA20 = 14,
PENTA6 = 15,
PENTA15 = 16,
NUMBER_OF_ELEMENT_TYPES = 17
};
enum VariableTypesList
{
SCALAR_PER_NODE = 0,
VECTOR_PER_NODE = 1,
TENSOR_SYMM_PER_NODE = 2,
SCALAR_PER_ELEMENT = 3,
VECTOR_PER_ELEMENT = 4,
TENSOR_SYMM_PER_ELEMENT = 5,
SCALAR_PER_MEASURED_NODE = 6,
VECTOR_PER_MEASURED_NODE = 7,
COMPLEX_SCALAR_PER_NODE = 8,
COMPLEX_VECTOR_PER_NODE = 9,
COMPLEX_SCALAR_PER_ELEMENT = 10,
COMPLEX_VECTOR_PER_ELEMENT = 11
};
enum SectionTypeList
{
COORDINATES = 0,
BLOCK = 1,
ELEMENT = 2
};
//@{
/**
* Get the Measured file name. Made public to allow access from
* apps requiring detailed info about the Data contents
*/
vtkGetStringMacro(MeasuredFileName);
//@}
//@{
/**
* Get the Match file name. Made public to allow access from
* apps requiring detailed info about the Data contents
*/
vtkGetStringMacro(MatchFileName);
//@}
//@{
/**
* The MeasuredGeometryFile should list particle coordinates
* from 0->N-1.
* If a file is loaded where point Ids are listed from 1-N
* the Id to points reference will be wrong and the data
* will be generated incorrectly.
* Setting ParticleCoordinatesByIndex to true will force
* all Id's to increment from 0->N-1 (relative to their order
* in the file) and regardless of the actual Id of of the point.
* Warning, if the Points are listed in non sequential order
* then setting this flag will reorder them.
*/
vtkSetMacro(ParticleCoordinatesByIndex, int);
vtkGetMacro(ParticleCoordinatesByIndex, int);
vtkBooleanMacro(ParticleCoordinatesByIndex, int);
//@}
protected:
vtkEnSightReader();
~vtkEnSightReader();
virtual int RequestInformation(vtkInformation*,
vtkInformationVector**,
vtkInformationVector*);
virtual int RequestData(vtkInformation*,
vtkInformationVector**,
vtkInformationVector*);
virtual void ClearForNewCaseFileName();
//@{
/**
* Set the Measured file name.
*/
vtkSetStringMacro(MeasuredFileName);
//@}
//@{
/**
* Set the Match file name.
*/
vtkSetStringMacro(MatchFileName);
//@}
//@{
/**
* Read the case file. If an error occurred, 0 is returned; otherwise 1.
*/
int ReadCaseFile();
int ReadCaseFileGeometry(char* line);
int ReadCaseFileVariable(char* line);
int ReadCaseFileTime(char* line);
int ReadCaseFileFile(char* line);
//@}
// set in UpdateInformation to value returned from ReadCaseFile
int CaseFileRead;
/**
* Read the geometry file. If an error occurred, 0 is returned; otherwise 1.
*/
virtual int ReadGeometryFile(const char* fileName, int timeStep,
vtkMultiBlockDataSet *output) = 0;
/**
* Read the measured geometry file. If an error occurred, 0 is returned;
* otherwise 1.
*/
virtual int ReadMeasuredGeometryFile(const char* fileName, int timeStep,
vtkMultiBlockDataSet *output) = 0;
/**
* Read the variable files. If an error occurred, 0 is returned; otherwise 1.
*/
int ReadVariableFiles(vtkMultiBlockDataSet *output);
/**
* Read scalars per node for this dataset. If an error occurred, 0 is
* returned; otherwise 1.
*/
virtual int ReadScalarsPerNode(const char* fileName, const char* description,
int timeStep, vtkMultiBlockDataSet *output,
int measured = 0, int numberOfComponents = 1,
int component = 0) = 0;
/**
* Read vectors per node for this dataset. If an error occurred, 0 is
* returned; otherwise 1.
*/
virtual int ReadVectorsPerNode(const char* fileName, const char* description,
int timeStep, vtkMultiBlockDataSet *output,
int measured = 0) = 0;
/**
* Read tensors per node for this dataset. If an error occurred, 0 is
* returned; otherwise 1.
*/
virtual int ReadTensorsPerNode(const char* fileName, const char* description,
int timeStep, vtkMultiBlockDataSet *output) = 0;
/**
* Read scalars per element for this dataset. If an error occurred, 0 is
* returned; otherwise 1.
*/
virtual int ReadScalarsPerElement(const char* fileName, const char* description,
int timeStep, vtkMultiBlockDataSet *output,
int numberOfComponents = 1,
int component = 0) = 0;
/**
* Read vectors per element for this dataset. If an error occurred, 0 is
* returned; otherwise 1.
*/
virtual int ReadVectorsPerElement(const char* fileName, const char* description,
int timeStep, vtkMultiBlockDataSet *output) = 0;
/**
* Read tensors per element for this dataset. If an error occurred, 0 is
* returned; otherwise 1.
*/
virtual int ReadTensorsPerElement(const char* fileName, const char* description,
int timeStep, vtkMultiBlockDataSet *output) = 0;
/**
* Read an unstructured part (partId) from the geometry file and create a
* vtkUnstructuredGrid output. Return 0 if EOF reached.
*/
virtual int CreateUnstructuredGridOutput(int partId,
char line[80],
const char* name,
vtkMultiBlockDataSet *output) = 0;
/**
* Read a structured part from the geometry file and create a
* vtkStructuredGridOutput. Return 0 if EOF reached.
*/
virtual int CreateStructuredGridOutput(int partId,
char line[80],
const char* name,
vtkMultiBlockDataSet *output) = 0;
/**
* Add another file name to the list for a particular variable type.
*/
void AddVariableFileName(const char* fileName1, const char* fileName2 = NULL);
/**
* Add another description to the list for a particular variable type.
*/
void AddVariableDescription(const char* description);
/**
* Record the variable type for the variable line just read.
*/
void AddVariableType();
/**
* Determine the element type from a line read a file. Return -1 for
* invalid element type.
*/
int GetElementType(const char* line);
/**
* Determine the section type from a line read a file. Return -1 for
* invalid section type.
*/
int GetSectionType(const char *line);
/**
* Replace the *'s in the filename with the given filename number.
*/
void ReplaceWildcards(char* filename, int num);
/**
* Remove leading blank spaces from a string.
*/
void RemoveLeadingBlanks(char *line);
// Get the vtkIdList for the given output index and cell type.
vtkIdList* GetCellIds(int index, int cellType);
/**
* Convenience method use to convert the readers from VTK 5 multiblock API
* to the current composite data infrastructure.
*/
void AddToBlock(vtkMultiBlockDataSet* output,
unsigned int blockNo,
vtkDataSet* dataset);
/**
* Convenience method use to convert the readers from VTK 5 multiblock API
* to the current composite data infrastructure.
*/
vtkDataSet* GetDataSetFromBlock(vtkMultiBlockDataSet* output,
unsigned int blockNo);
/**
* Set the name of a block.
*/
void SetBlockName(vtkMultiBlockDataSet* output, unsigned int blockNo,
const char* name);
char* MeasuredFileName;
char* MatchFileName; // may not actually be necessary to read this file
// pointer to lists of vtkIdLists (cell ids per element type per part)
vtkEnSightReaderCellIdsType* CellIds;
// part ids of unstructured outputs
vtkIdList* UnstructuredPartIds;
int VariableMode;
// pointers to lists of filenames
char** VariableFileNames; // non-complex
char** ComplexVariableFileNames;
// array of time sets
vtkIdList *VariableTimeSetIds;
vtkIdList *ComplexVariableTimeSetIds;
// array of file sets
vtkIdList *VariableFileSetIds;
vtkIdList *ComplexVariableFileSetIds;
// collection of filename numbers per time set
vtkIdListCollection *TimeSetFileNameNumbers;
vtkIdList *TimeSetsWithFilenameNumbers;
// collection of filename numbers per file set
vtkIdListCollection *FileSetFileNameNumbers;
vtkIdList *FileSetsWithFilenameNumbers;
// collection of number of steps per file per file set
vtkIdListCollection *FileSetNumberOfSteps;
// ids of the time and file sets
vtkIdList *TimeSetIds;
vtkIdList *FileSets;
int GeometryTimeSet;
int GeometryFileSet;
int MeasuredTimeSet;
int MeasuredFileSet;
float GeometryTimeValue;
float MeasuredTimeValue;
int UseTimeSets;
vtkSetMacro(UseTimeSets, int);
vtkGetMacro(UseTimeSets, int);
vtkBooleanMacro(UseTimeSets, int);
int UseFileSets;
vtkSetMacro(UseFileSets, int);
vtkGetMacro(UseFileSets, int);
vtkBooleanMacro(UseFileSets, int);
int NumberOfGeometryParts;
// global list of points for measured geometry
int NumberOfMeasuredPoints;
int NumberOfNewOutputs;
int InitialRead;
int CheckOutputConsistency();
int ParticleCoordinatesByIndex;
double ActualTimeValue;
private:
vtkEnSightReader(const vtkEnSightReader&) VTK_DELETE_FUNCTION;
void operator=(const vtkEnSightReader&) VTK_DELETE_FUNCTION;
};
#endif
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