Read exodus 2 files .ex2. More...

#include <vtkExodusIIReader.h>

Inheritance diagram for vtkExodusIIReader:

Collaboration diagram for vtkExodusIIReader:

Public Types
typedef vtkMultiBlockDataSetAlgorithm	Superclass
Public Member Functions
virtual int	IsA (const char *type)
vtkExodusIIReader *	NewInstance () const
void	PrintSelf (ostream &os, vtkIndent indent)
int	CanReadFile (const char *fname)
virtual unsigned long	GetMTime ()
virtual unsigned long	GetMetadataMTime ()
virtual void	SetGenerateGlobalElementIdArray (int g)
int	GetGenerateGlobalElementIdArray ()
virtual void	GenerateGlobalElementIdArrayOn ()
virtual void	GenerateGlobalElementIdArrayOff ()
virtual void	SetGenerateGlobalNodeIdArray (int g)
int	GetGenerateGlobalNodeIdArray ()
virtual void	GenerateGlobalNodeIdArrayOn ()
virtual void	GenerateGlobalNodeIdArrayOff ()
virtual void	SetGenerateImplicitElementIdArray (int g)
int	GetGenerateImplicitElementIdArray ()
virtual void	GenerateImplicitElementIdArrayOn ()
virtual void	GenerateImplicitElementIdArrayOff ()
virtual void	SetGenerateImplicitNodeIdArray (int g)
int	GetGenerateImplicitNodeIdArray ()
virtual void	GenerateImplicitNodeIdArrayOn ()
virtual void	GenerateImplicitNodeIdArrayOff ()
virtual void	SetGenerateFileIdArray (int f)
int	GetGenerateFileIdArray ()
virtual void	GenerateFileIdArrayOn ()
virtual void	GenerateFileIdArrayOff ()
virtual void	SetFileId (int f)
int	GetFileId ()
int	GetNumberOfNodesInFile ()
int	GetNumberOfEdgesInFile ()
int	GetNumberOfFacesInFile ()
int	GetNumberOfElementsInFile ()
int	GetObjectTypeFromName (const char *name)
const char *	GetObjectTypeName (int)
int	GetNumberOfNodes ()
int	GetNumberOfObjects (int objectType)
int	GetNumberOfEntriesInObject (int objectType, int objectIndex)
int	GetObjectId (int objectType, int objectIndex)
const char *	GetObjectName (int objectType, int objectIndex)
int	GetObjectIndex (int objectType, const char *objectName)
int	GetObjectIndex (int objectType, int id)
int	GetObjectStatus (int objectType, int objectIndex)
int	GetObjectStatus (int objectType, const char *objectName)
void	SetObjectStatus (int objectType, int objectIndex, int status)
void	SetObjectStatus (int objectType, const char *objectName, int status)
virtual vtkIdType	GetTotalNumberOfNodes ()
virtual vtkIdType	GetTotalNumberOfEdges ()
virtual vtkIdType	GetTotalNumberOfFaces ()
virtual vtkIdType	GetTotalNumberOfElements ()
virtual int	GetDisplayType ()
virtual void	SetDisplayType (int type)
int	IsValidVariable (const char type, const char name)
int	GetVariableID (const char type, const char name)
void	SetAllArrayStatus (int otype, int status)
int	GetTimeSeriesData (int ID, const char vName, const char vType, vtkFloatArray *result)
int	GetNumberOfEdgeBlockArrays ()
const char *	GetEdgeBlockArrayName (int index)
int	GetEdgeBlockArrayStatus (const char *name)
void	SetEdgeBlockArrayStatus (const char *name, int flag)
int	GetNumberOfFaceBlockArrays ()
const char *	GetFaceBlockArrayName (int index)
int	GetFaceBlockArrayStatus (const char *name)
void	SetFaceBlockArrayStatus (const char *name, int flag)
int	GetNumberOfElementBlockArrays ()
const char *	GetElementBlockArrayName (int index)
int	GetElementBlockArrayStatus (const char *name)
void	SetElementBlockArrayStatus (const char *name, int flag)
int	GetNumberOfGlobalResultArrays ()
const char *	GetGlobalResultArrayName (int index)
int	GetGlobalResultArrayStatus (const char *name)
void	SetGlobalResultArrayStatus (const char *name, int flag)
int	GetNumberOfPointResultArrays ()
const char *	GetPointResultArrayName (int index)
int	GetPointResultArrayStatus (const char *name)
void	SetPointResultArrayStatus (const char *name, int flag)
int	GetNumberOfEdgeResultArrays ()
const char *	GetEdgeResultArrayName (int index)
int	GetEdgeResultArrayStatus (const char *name)
void	SetEdgeResultArrayStatus (const char *name, int flag)
int	GetNumberOfFaceResultArrays ()
const char *	GetFaceResultArrayName (int index)
int	GetFaceResultArrayStatus (const char *name)
void	SetFaceResultArrayStatus (const char *name, int flag)
int	GetNumberOfElementResultArrays ()
const char *	GetElementResultArrayName (int index)
int	GetElementResultArrayStatus (const char *name)
void	SetElementResultArrayStatus (const char *name, int flag)
int	GetNumberOfNodeMapArrays ()
const char *	GetNodeMapArrayName (int index)
int	GetNodeMapArrayStatus (const char *name)
void	SetNodeMapArrayStatus (const char *name, int flag)
int	GetNumberOfEdgeMapArrays ()
const char *	GetEdgeMapArrayName (int index)
int	GetEdgeMapArrayStatus (const char *name)
void	SetEdgeMapArrayStatus (const char *name, int flag)
int	GetNumberOfFaceMapArrays ()
const char *	GetFaceMapArrayName (int index)
int	GetFaceMapArrayStatus (const char *name)
void	SetFaceMapArrayStatus (const char *name, int flag)
int	GetNumberOfElementMapArrays ()
const char *	GetElementMapArrayName (int index)
int	GetElementMapArrayStatus (const char *name)
void	SetElementMapArrayStatus (const char *name, int flag)
int	GetNumberOfNodeSetArrays ()
const char *	GetNodeSetArrayName (int index)
int	GetNodeSetArrayStatus (const char *name)
void	SetNodeSetArrayStatus (const char *name, int flag)
int	GetNumberOfSideSetArrays ()
const char *	GetSideSetArrayName (int index)
int	GetSideSetArrayStatus (const char *name)
void	SetSideSetArrayStatus (const char *name, int flag)
int	GetNumberOfEdgeSetArrays ()
const char *	GetEdgeSetArrayName (int index)
int	GetEdgeSetArrayStatus (const char *name)
void	SetEdgeSetArrayStatus (const char *name, int flag)
int	GetNumberOfFaceSetArrays ()
const char *	GetFaceSetArrayName (int index)
int	GetFaceSetArrayStatus (const char *name)
void	SetFaceSetArrayStatus (const char *name, int flag)
int	GetNumberOfElementSetArrays ()
const char *	GetElementSetArrayName (int index)
int	GetElementSetArrayStatus (const char *name)
void	SetElementSetArrayStatus (const char *name, int flag)
int	GetNumberOfNodeSetResultArrays ()
const char *	GetNodeSetResultArrayName (int index)
int	GetNodeSetResultArrayStatus (const char *name)
void	SetNodeSetResultArrayStatus (const char *name, int flag)
int	GetNumberOfSideSetResultArrays ()
const char *	GetSideSetResultArrayName (int index)
int	GetSideSetResultArrayStatus (const char *name)
void	SetSideSetResultArrayStatus (const char *name, int flag)
int	GetNumberOfEdgeSetResultArrays ()
const char *	GetEdgeSetResultArrayName (int index)
int	GetEdgeSetResultArrayStatus (const char *name)
void	SetEdgeSetResultArrayStatus (const char *name, int flag)
int	GetNumberOfFaceSetResultArrays ()
const char *	GetFaceSetResultArrayName (int index)
int	GetFaceSetResultArrayStatus (const char *name)
void	SetFaceSetResultArrayStatus (const char *name, int flag)
int	GetNumberOfElementSetResultArrays ()
const char *	GetElementSetResultArrayName (int index)
int	GetElementSetResultArrayStatus (const char *name)
void	SetElementSetResultArrayStatus (const char *name, int flag)
void	Reset ()
void	ResetSettings ()
void	ResetCache ()
void	SetCacheSize (double CacheSize)
double	GetCacheSize ()
virtual void	UpdateTimeInformation ()
virtual void	Dump ()
vtkGraph *	GetSIL ()

virtual void	SetFileName (const char *fname)
virtual char *	GetFileName ()

virtual void	SetXMLFileName (const char *fname)
virtual char *	GetXMLFileName ()

virtual void	SetTimeStep (int)
virtual int	GetTimeStep ()

void	SetModeShape (int val)

virtual int *	GetModeShapesRange ()

virtual int *	GetTimeStepRange ()
virtual void	GetTimeStepRange (int &, int &)
virtual void	GetTimeStepRange (int[2])
virtual void	SetTimeStepRange (int, int)
void	SetTimeStepRange (int[2])

virtual void	SetApplyDisplacements (int d)
int	GetApplyDisplacements ()
virtual void	ApplyDisplacementsOn ()
virtual void	ApplyDisplacementsOff ()
virtual void	SetDisplacementMagnitude (float s)
float	GetDisplacementMagnitude ()

virtual void	SetHasModeShapes (int ms)
int	GetHasModeShapes ()
virtual void	HasModeShapesOn ()
virtual void	HasModeShapesOff ()

virtual void	SetModeShapeTime (double phase)
double	GetModeShapeTime ()

virtual void	SetAnimateModeShapes (int flag)
int	GetAnimateModeShapes ()
virtual void	AnimateModeShapesOn ()
virtual void	AnimateModeShapesOff ()

const char *	GetTitle ()
int	GetDimensionality ()
int	GetNumberOfTimeSteps ()

int	GetNumberOfObjectArrays (int objectType)
const char *	GetObjectArrayName (int objectType, int arrayIndex)
int	GetObjectArrayIndex (int objectType, const char *arrayName)
int	GetNumberOfObjectArrayComponents (int objectType, int arrayIndex)
int	GetObjectArrayStatus (int objectType, int arrayIndex)
int	GetObjectArrayStatus (int objectType, const char *arrayName)
void	SetObjectArrayStatus (int objectType, int arrayIndex, int status)
void	SetObjectArrayStatus (int objectType, const char *arrayName, int status)

int	GetNumberOfObjectAttributes (int objectType, int objectIndex)
const char *	GetObjectAttributeName (int objectType, int objectIndex, int attribIndex)
int	GetObjectAttributeIndex (int objectType, int objectIndex, const char *attribName)
int	GetObjectAttributeStatus (int objectType, int objectIndex, int attribIndex)
int	GetObjectAttributeStatus (int objectType, int objectIndex, const char *attribName)
void	SetObjectAttributeStatus (int objectType, int objectIndex, int attribIndex, int status)
void	SetObjectAttributeStatus (int objectType, int objectIndex, const char *attribName, int status)

int	GetNumberOfPartArrays ()
const char *	GetPartArrayName (int arrayIdx)
int	GetPartArrayID (const char *name)
const char *	GetPartBlockInfo (int arrayIdx)
void	SetPartArrayStatus (int index, int flag)
void	SetPartArrayStatus (const char *, int flag)
int	GetPartArrayStatus (int index)
int	GetPartArrayStatus (const char *)

int	GetNumberOfMaterialArrays ()
const char *	GetMaterialArrayName (int arrayIdx)
int	GetMaterialArrayID (const char *name)
void	SetMaterialArrayStatus (int index, int flag)
void	SetMaterialArrayStatus (const char *, int flag)
int	GetMaterialArrayStatus (int index)
int	GetMaterialArrayStatus (const char *)

int	GetNumberOfAssemblyArrays ()
const char *	GetAssemblyArrayName (int arrayIdx)
int	GetAssemblyArrayID (const char *name)
void	SetAssemblyArrayStatus (int index, int flag)
void	SetAssemblyArrayStatus (const char *, int flag)
int	GetAssemblyArrayStatus (int index)
int	GetAssemblyArrayStatus (const char *)

int	GetNumberOfHierarchyArrays ()
const char *	GetHierarchyArrayName (int arrayIdx)
void	SetHierarchyArrayStatus (int index, int flag)
void	SetHierarchyArrayStatus (const char *, int flag)
int	GetHierarchyArrayStatus (int index)
int	GetHierarchyArrayStatus (const char *)

void	SetSqueezePoints (bool sp)
bool	GetSqueezePoints ()

virtual int	GetSILUpdateStamp ()
Static Public Member Functions
static vtkExodusIIReader *	New ()
static int	IsTypeOf (const char *type)
static vtkExodusIIReader *	SafeDownCast (vtkObjectBase *o)
static const char *	GetGlobalFaceIdArrayName ()
static const char *	GetPedigreeFaceIdArrayName ()
static int	GetGlobalFaceID (vtkDataSet *data, int localID)
static int	GetGlobalFaceID (vtkDataSet *data, int localID, int searchType)
static const char *	GetImplicitFaceIdArrayName ()
static const char *	GetGlobalEdgeIdArrayName ()
static const char *	GetPedigreeEdgeIdArrayName ()
static int	GetGlobalEdgeID (vtkDataSet *data, int localID)
static int	GetGlobalEdgeID (vtkDataSet *data, int localID, int searchType)
static const char *	GetImplicitEdgeIdArrayName ()
static const char *	GetSideSetSourceElementIdArrayName ()
static const char *	GetSideSetSourceElementSideArrayName ()

static const char *	GetGlobalNodeIdArrayName ()
static const char *	GetPedigreeNodeIdArrayName ()
static int	GetGlobalNodeID (vtkDataSet *data, int localID)
static int	GetGlobalNodeID (vtkDataSet *data, int localID, int searchType)
static const char *	GetImplicitNodeIdArrayName ()
Protected Member Functions
virtual vtkObjectBase *	NewInstanceInternal () const
	vtkExodusIIReader ()
	~vtkExodusIIReader ()
virtual void	SetMetadata (vtkExodusIIReaderPrivate *)
virtual vtkExodusIIReaderPrivate *	GetMetadata ()
bool	FindXMLFile ()
void	GetAllTimes (vtkInformationVector *)
void	AdvertiseTimeSteps (vtkInformation *outputInfo)
int	ProcessRequest (vtkInformation , vtkInformationVector , vtkInformationVector )
int	RequestInformation (vtkInformation , vtkInformationVector , vtkInformationVector )
int	RequestData (vtkInformation , vtkInformationVector , vtkInformationVector )
Static Protected Member Functions
static int	GetIDHelper (const char arrayName, vtkDataSet data, int localID, int searchType)
static int	GetGlobalID (const char arrayName, vtkDataSet data, int localID, int searchType)
Protected Attributes
char *	FileName
char *	XMLFileName
int	TimeStep
int	TimeStepRange [2]
vtkTimeStamp	FileNameMTime
vtkTimeStamp	XMLFileNameMTime
int	DisplayType
vtkExodusIIReaderPrivate *	Metadata
int	SILUpdateStamp
static const char *	GetObjectIdArrayName ()
virtual void	SetGenerateObjectIdCellArray (int g)
int	GetGenerateObjectIdCellArray ()
virtual void	GenerateObjectIdCellArrayOn ()
virtual void	GenerateObjectIdCellArrayOff ()
enum	{ SEARCH_TYPE_ELEMENT = 0, SEARCH_TYPE_NODE, SEARCH_TYPE_ELEMENT_THEN_NODE, SEARCH_TYPE_NODE_THEN_ELEMENT, ID_NOT_FOUND = -234121312 }
enum	ObjectType { EDGE_BLOCK = 6, FACE_BLOCK = 8, ELEM_BLOCK = 1, NODE_SET = 2, EDGE_SET = 7, FACE_SET = 9, SIDE_SET = 3, ELEM_SET = 10, NODE_MAP = 5, EDGE_MAP = 11, FACE_MAP = 12, ELEM_MAP = 4, GLOBAL = 13, NODAL = 14, ASSEMBLY = 60, PART = 61, MATERIAL = 62, HIERARCHY = 63, QA_RECORDS = 103, INFO_RECORDS = 104, GLOBAL_TEMPORAL = 102, NODAL_TEMPORAL = 101, ELEM_BLOCK_TEMPORAL = 100, GLOBAL_CONN = 99, ELEM_BLOCK_ELEM_CONN = 98, ELEM_BLOCK_FACE_CONN = 97, ELEM_BLOCK_EDGE_CONN = 96, FACE_BLOCK_CONN = 95, EDGE_BLOCK_CONN = 94, ELEM_SET_CONN = 93, SIDE_SET_CONN = 92, FACE_SET_CONN = 91, EDGE_SET_CONN = 90, NODE_SET_CONN = 89, NODAL_COORDS = 88, OBJECT_ID = 87, IMPLICIT_ELEMENT_ID = 108, IMPLICIT_NODE_ID = 107, GLOBAL_ELEMENT_ID = 86, GLOBAL_NODE_ID = 85, ELEMENT_ID = 84, NODE_ID = 83, NODAL_SQUEEZEMAP = 82, ELEM_BLOCK_ATTRIB = 81, FACE_BLOCK_ATTRIB = 80, EDGE_BLOCK_ATTRIB = 79, FACE_ID = 105, EDGE_ID = 106, ENTITY_COUNTS = 109 }
static const char *	GetGlobalElementIdArrayName ()
static const char *	GetPedigreeElementIdArrayName ()
static int	GetGlobalElementID (vtkDataSet *data, int localID)
static int	GetGlobalElementID (vtkDataSet *data, int localID, int searchType)
static const char *	GetImplicitElementIdArrayName ()

Detailed Description

Read exodus 2 files .ex2.

vtkExodusIIReader is a unstructured grid source object that reads ExodusII files. Most of the meta data associated with the file is loaded when UpdateInformation is called. This includes information like Title, number of blocks, number and names of arrays. This data can be retrieved from methods in this reader. Separate arrays that are meant to be a single vector, are combined internally for convenience. To be combined, the array names have to be identical except for a trailing X,Y and Z (or x,y,z). By default cell and point arrays are not loaded. However, the user can flag arrays to load with the methods "SetPointArrayStatus" and "SetCellArrayStatus". The reader DOES NOT respond to piece requests

Tests:: vtkExodusIIReader (Tests)

Definition at line 55 of file vtkExodusIIReader.h.

Member Typedef Documentation

typedef vtkMultiBlockDataSetAlgorithm vtkExodusIIReader::Superclass

Reimplemented from vtkMultiBlockDataSetAlgorithm.

Reimplemented in vtkPExodusIIReader.

Definition at line 59 of file vtkExodusIIReader.h.

Member Enumeration Documentation

anonymous enum

Extra cell data array that can be generated. By default, this array is off. The value of the array is the integer global id of the cell. The name of the array is returned by GetGlobalElementIdArrayName() ***NOTE*** No more "unique" global ID. Instead we have an arbitrary number of maps.

Enumerator:

SEARCH_TYPE_ELEMENT
SEARCH_TYPE_NODE
SEARCH_TYPE_ELEMENT_THEN_NODE
SEARCH_TYPE_NODE_THEN_ELEMENT
ID_NOT_FOUND

Definition at line 165 of file vtkExodusIIReader.h.

enum vtkExodusIIReader::ObjectType

Extra cell data array that can be generated. By default, this array is off. The value of the array is the integer global id of the cell. The name of the array is returned by GetGlobalElementIdArrayName() ***NOTE*** No more "unique" global ID. Instead we have an arbitrary number of maps.

Enumerator:

EDGE_BLOCK
FACE_BLOCK
ELEM_BLOCK
NODE_SET
EDGE_SET
FACE_SET
SIDE_SET
ELEM_SET
NODE_MAP
EDGE_MAP
FACE_MAP
ELEM_MAP
GLOBAL
NODAL
ASSEMBLY
PART
MATERIAL
HIERARCHY
QA_RECORDS	Exodus II Quality Assurance (QA) string metadata.
INFO_RECORDS	Exodus II Information Records string metadata.
GLOBAL_TEMPORAL	global data across timesteps
NODAL_TEMPORAL	nodal data across timesteps
ELEM_BLOCK_TEMPORAL	element data across timesteps
GLOBAL_CONN	connectivity assembled from all blocks+sets to be loaded
ELEM_BLOCK_ELEM_CONN	raw element block connectivity for elements (not edges/faces)
ELEM_BLOCK_FACE_CONN	raw element block connectivity for faces (references face blocks)
ELEM_BLOCK_EDGE_CONN	raw element block connectivity for edges (references edge blocks)
FACE_BLOCK_CONN	raw face block connectivity (references nodes)
EDGE_BLOCK_CONN	raw edge block connectivity (references nodes)
ELEM_SET_CONN	element set connectivity
SIDE_SET_CONN	side set connectivity
FACE_SET_CONN	face set connectivity
EDGE_SET_CONN	edge set connectivity
NODE_SET_CONN	node set connectivity
NODAL_COORDS	raw nodal coordinates (not the "squeezed" version)
OBJECT_ID	object id (old BlockId) array
IMPLICIT_ELEMENT_ID	the implicit global index of each element given by exodus
IMPLICIT_NODE_ID	the implicit global index of each node given by exodus
GLOBAL_ELEMENT_ID	element id array extracted for a particular block (yes, this is a bad name)
GLOBAL_NODE_ID	nodal id array extracted for a particular block (yes, this is a bad name)
ELEMENT_ID	element id map (old-style elem_num_map or first new-style elem map) array
NODE_ID	nodal id map (old-style node_num_map or first new-style node map) array
NODAL_SQUEEZEMAP	the integer map use to "squeeze" coordinates and nodal arrays/maps
ELEM_BLOCK_ATTRIB	an element block attribute array (time-constant scalar per element)
FACE_BLOCK_ATTRIB	a face block attribute array (time-constant scalar per element)
EDGE_BLOCK_ATTRIB	an edge block attribute array (time-constant scalar per element)
FACE_ID	face id map (old-style face_num_map or first new-style face map) array
EDGE_ID	edge id map (old-style edge_num_map or first new-style edge map) array
ENTITY_COUNTS	polyhedra per-entity count ex_get_block returns the sum for polyhedra

Definition at line 173 of file vtkExodusIIReader.h.

Constructor & Destructor Documentation

vtkExodusIIReader::vtkExodusIIReader ( ) [protected]

vtkExodusIIReader::~vtkExodusIIReader ( ) [protected]

Member Function Documentation

static vtkExodusIIReader* vtkExodusIIReader::New ( ) [static]

Create an object with Debug turned off, modified time initialized to zero, and reference counting on.

Reimplemented from vtkMultiBlockDataSetAlgorithm.

Reimplemented in vtkPExodusIIReader.

static int vtkExodusIIReader::IsTypeOf ( const char * name ) [static]

Return 1 if this class type is the same type of (or a subclass of) the named class. Returns 0 otherwise. This method works in combination with vtkTypeMacro found in vtkSetGet.h.

Reimplemented from vtkMultiBlockDataSetAlgorithm.

Reimplemented in vtkPExodusIIReader.

virtual int vtkExodusIIReader::IsA ( const char * name ) [virtual]

Return 1 if this class is the same type of (or a subclass of) the named class. Returns 0 otherwise. This method works in combination with vtkTypeMacro found in vtkSetGet.h.

Reimplemented from vtkMultiBlockDataSetAlgorithm.

Reimplemented in vtkPExodusIIReader.

static vtkExodusIIReader* vtkExodusIIReader::SafeDownCast ( vtkObjectBase * o ) [static]

Reimplemented from vtkMultiBlockDataSetAlgorithm.

Reimplemented in vtkPExodusIIReader.

virtual vtkObjectBase* vtkExodusIIReader::NewInstanceInternal ( ) const [protected, virtual]

Reimplemented from vtkMultiBlockDataSetAlgorithm.

Reimplemented in vtkPExodusIIReader.

vtkExodusIIReader* vtkExodusIIReader::NewInstance ( ) const

Reimplemented from vtkMultiBlockDataSetAlgorithm.

Reimplemented in vtkPExodusIIReader.

void vtkExodusIIReader::PrintSelf	(	ostream &	os,
		vtkIndent	indent
	)		`[virtual]`

Methods invoked by print to print information about the object including superclasses. Typically not called by the user (use Print() instead) but used in the hierarchical print process to combine the output of several classes.

Reimplemented from vtkMultiBlockDataSetAlgorithm.

Reimplemented in vtkPExodusIIReader.

int vtkExodusIIReader::CanReadFile ( const char * fname )

Determine if the file can be readed with this reader.

virtual unsigned long vtkExodusIIReader::GetMTime ( ) [virtual]

Return the object's MTime. This is overridden to include the timestamp of its internal class.

Reimplemented from vtkObject.

virtual unsigned long vtkExodusIIReader::GetMetadataMTime ( ) [virtual]

Return the MTime of the internal data structure. This is really only intended for use by vtkPExodusIIReader in order to determine if the filename is newer than the metadata.

virtual void vtkExodusIIReader::SetFileName ( const char * fname ) [virtual]

Specify file name of the Exodus file.

Reimplemented in vtkPExodusIIReader.

virtual char* vtkExodusIIReader::GetFileName ( ) [virtual]

Specify file name of the Exodus file.

virtual void vtkExodusIIReader::SetXMLFileName ( const char * fname ) [virtual]

Specify file name of the xml file.

virtual char* vtkExodusIIReader::GetXMLFileName ( ) [virtual]

Specify file name of the xml file.

virtual void vtkExodusIIReader::SetTimeStep ( int ) [virtual]

Which TimeStep to read.

virtual int vtkExodusIIReader::GetTimeStep ( ) [virtual]

Which TimeStep to read.

void vtkExodusIIReader::SetModeShape ( int val ) [inline]

Convenience method to set the mode-shape which is same as this->SetTimeStep(val-1);

Definition at line 97 of file vtkExodusIIReader.h.

virtual int* vtkExodusIIReader::GetModeShapesRange ( ) [inline, virtual]

Since ModeShapes are expected to run from [1,N] rather than [0, N], this method will return the TimeStepRange offset by 1.

Definition at line 106 of file vtkExodusIIReader.h.

virtual int* vtkExodusIIReader::GetTimeStepRange ( ) [virtual]

Returns the available range of valid integer time steps.

virtual void vtkExodusIIReader::GetTimeStepRange	(	int &	,
		int &
	)		`[virtual]`

Returns the available range of valid integer time steps.

virtual void vtkExodusIIReader::GetTimeStepRange ( int [2] ) [virtual]

Returns the available range of valid integer time steps.

virtual void vtkExodusIIReader::SetTimeStepRange	(	int	,
		int
	)		`[virtual]`

Returns the available range of valid integer time steps.

void vtkExodusIIReader::SetTimeStepRange ( int [2] )

Returns the available range of valid integer time steps.

virtual void vtkExodusIIReader::SetGenerateObjectIdCellArray ( int g ) [virtual]

Extra cell data array that can be generated. By default, this array is ON. The value of the array is the integer id found in the exodus file. The name of the array is returned by GetBlockIdArrayName(). For cells representing elements from an Exodus element block, this is set to the element block ID. For cells representing edges from an Exodus edge block, this is the edge block ID. Similarly, this is the face block ID for cells representing faces from an Exodus face block. The same holds for cells representing entries of node, edge, face, side, and element sets.

int vtkExodusIIReader::GetGenerateObjectIdCellArray ( )

Extra cell data array that can be generated. By default, this array is ON. The value of the array is the integer id found in the exodus file. The name of the array is returned by GetBlockIdArrayName(). For cells representing elements from an Exodus element block, this is set to the element block ID. For cells representing edges from an Exodus edge block, this is the edge block ID. Similarly, this is the face block ID for cells representing faces from an Exodus face block. The same holds for cells representing entries of node, edge, face, side, and element sets.

virtual void vtkExodusIIReader::GenerateObjectIdCellArrayOn ( ) [virtual]

Extra cell data array that can be generated. By default, this array is ON. The value of the array is the integer id found in the exodus file. The name of the array is returned by GetBlockIdArrayName(). For cells representing elements from an Exodus element block, this is set to the element block ID. For cells representing edges from an Exodus edge block, this is the edge block ID. Similarly, this is the face block ID for cells representing faces from an Exodus face block. The same holds for cells representing entries of node, edge, face, side, and element sets.

virtual void vtkExodusIIReader::GenerateObjectIdCellArrayOff ( ) [virtual]

Extra cell data array that can be generated. By default, this array is ON. The value of the array is the integer id found in the exodus file. The name of the array is returned by GetBlockIdArrayName(). For cells representing elements from an Exodus element block, this is set to the element block ID. For cells representing edges from an Exodus edge block, this is the edge block ID. Similarly, this is the face block ID for cells representing faces from an Exodus face block. The same holds for cells representing entries of node, edge, face, side, and element sets.

static const char* vtkExodusIIReader::GetObjectIdArrayName ( ) [inline, static]

Extra cell data array that can be generated. By default, this array is ON. The value of the array is the integer id found in the exodus file. The name of the array is returned by GetBlockIdArrayName(). For cells representing elements from an Exodus element block, this is set to the element block ID. For cells representing edges from an Exodus edge block, this is the edge block ID. Similarly, this is the face block ID for cells representing faces from an Exodus face block. The same holds for cells representing entries of node, edge, face, side, and element sets.

Definition at line 133 of file vtkExodusIIReader.h.

virtual void vtkExodusIIReader::SetGenerateGlobalElementIdArray ( int g ) [virtual]

int vtkExodusIIReader::GetGenerateGlobalElementIdArray ( )

virtual void vtkExodusIIReader::GenerateGlobalElementIdArrayOn ( ) [virtual]

virtual void vtkExodusIIReader::GenerateGlobalElementIdArrayOff ( ) [virtual]

virtual void vtkExodusIIReader::SetGenerateGlobalNodeIdArray ( int g ) [virtual]

int vtkExodusIIReader::GetGenerateGlobalNodeIdArray ( )

virtual void vtkExodusIIReader::GenerateGlobalNodeIdArrayOn ( ) [virtual]

virtual void vtkExodusIIReader::GenerateGlobalNodeIdArrayOff ( ) [virtual]

virtual void vtkExodusIIReader::SetGenerateImplicitElementIdArray ( int g ) [virtual]

int vtkExodusIIReader::GetGenerateImplicitElementIdArray ( )

virtual void vtkExodusIIReader::GenerateImplicitElementIdArrayOn ( ) [virtual]

virtual void vtkExodusIIReader::GenerateImplicitElementIdArrayOff ( ) [virtual]

virtual void vtkExodusIIReader::SetGenerateImplicitNodeIdArray ( int g ) [virtual]

int vtkExodusIIReader::GetGenerateImplicitNodeIdArray ( )

virtual void vtkExodusIIReader::GenerateImplicitNodeIdArrayOn ( ) [virtual]

virtual void vtkExodusIIReader::GenerateImplicitNodeIdArrayOff ( ) [virtual]

virtual void vtkExodusIIReader::SetGenerateFileIdArray ( int f ) [virtual]

int vtkExodusIIReader::GetGenerateFileIdArray ( )

virtual void vtkExodusIIReader::GenerateFileIdArrayOn ( ) [virtual]

virtual void vtkExodusIIReader::GenerateFileIdArrayOff ( ) [virtual]

virtual void vtkExodusIIReader::SetFileId ( int f ) [virtual]

int vtkExodusIIReader::GetFileId ( )

static const char* vtkExodusIIReader::GetGlobalElementIdArrayName ( ) [inline, static]

Extra cell data array that can be generated. By default, this array is off. The value of the array is the integer global id of the cell. The name of the array is returned by GetGlobalElementIdArrayName() ***NOTE*** No more "unique" global ID. Instead we have an arbitrary number of maps.

Definition at line 228 of file vtkExodusIIReader.h.

static const char* vtkExodusIIReader::GetPedigreeElementIdArrayName ( ) [inline, static]

Extra cell data array that can be generated. By default, this array is off. The value of the array is the integer global id of the cell. The name of the array is returned by GetGlobalElementIdArrayName() ***NOTE*** No more "unique" global ID. Instead we have an arbitrary number of maps.

Definition at line 229 of file vtkExodusIIReader.h.

static int vtkExodusIIReader::GetGlobalElementID	(	vtkDataSet *	data,
		int	localID
	)		`[static]`

Extra cell data array that can be generated. By default, this array is off. The value of the array is the integer global id of the cell. The name of the array is returned by GetGlobalElementIdArrayName() ***NOTE*** No more "unique" global ID. Instead we have an arbitrary number of maps.

static int vtkExodusIIReader::GetGlobalElementID	(	vtkDataSet *	data,
		int	localID,
		int	searchType
	)		`[static]`

Extra cell data array that can be generated. By default, this array is off. The value of the array is the integer global id of the cell. The name of the array is returned by GetGlobalElementIdArrayName() ***NOTE*** No more "unique" global ID. Instead we have an arbitrary number of maps.

static const char* vtkExodusIIReader::GetImplicitElementIdArrayName ( ) [inline, static]

Extra cell data array that can be generated. By default, this array is off. The value of the array is the integer global id of the cell. The name of the array is returned by GetGlobalElementIdArrayName() ***NOTE*** No more "unique" global ID. Instead we have an arbitrary number of maps.

Definition at line 233 of file vtkExodusIIReader.h.

static const char* vtkExodusIIReader::GetGlobalFaceIdArrayName ( ) [inline, static]

Definition at line 236 of file vtkExodusIIReader.h.

static const char* vtkExodusIIReader::GetPedigreeFaceIdArrayName ( ) [inline, static]

Definition at line 237 of file vtkExodusIIReader.h.

static int vtkExodusIIReader::GetGlobalFaceID	(	vtkDataSet *	data,
		int	localID
	)		`[static]`

static int vtkExodusIIReader::GetGlobalFaceID	(	vtkDataSet *	data,
		int	localID,
		int	searchType
	)		`[static]`

static const char* vtkExodusIIReader::GetImplicitFaceIdArrayName ( ) [inline, static]

Definition at line 241 of file vtkExodusIIReader.h.

static const char* vtkExodusIIReader::GetGlobalEdgeIdArrayName ( ) [inline, static]

Definition at line 243 of file vtkExodusIIReader.h.

static const char* vtkExodusIIReader::GetPedigreeEdgeIdArrayName ( ) [inline, static]

Definition at line 244 of file vtkExodusIIReader.h.

static int vtkExodusIIReader::GetGlobalEdgeID	(	vtkDataSet *	data,
		int	localID
	)		`[static]`

static int vtkExodusIIReader::GetGlobalEdgeID	(	vtkDataSet *	data,
		int	localID,
		int	searchType
	)		`[static]`

static const char* vtkExodusIIReader::GetImplicitEdgeIdArrayName ( ) [inline, static]

Definition at line 248 of file vtkExodusIIReader.h.

static const char* vtkExodusIIReader::GetGlobalNodeIdArrayName ( ) [inline, static]

Extra point data array that can be generated. By default, this array is ON. The value of the array is the integer id of the node. The id is relative to the entire data set. The name of the array is returned by GlobalNodeIdArrayName().

Definition at line 255 of file vtkExodusIIReader.h.

static const char* vtkExodusIIReader::GetPedigreeNodeIdArrayName ( ) [inline, static]

Extra point data array that can be generated. By default, this array is ON. The value of the array is the integer id of the node. The id is relative to the entire data set. The name of the array is returned by GlobalNodeIdArrayName().

Definition at line 256 of file vtkExodusIIReader.h.

static int vtkExodusIIReader::GetGlobalNodeID	(	vtkDataSet *	data,
		int	localID
	)		`[static]`

Extra point data array that can be generated. By default, this array is ON. The value of the array is the integer id of the node. The id is relative to the entire data set. The name of the array is returned by GlobalNodeIdArrayName().

static int vtkExodusIIReader::GetGlobalNodeID	(	vtkDataSet *	data,
		int	localID,
		int	searchType
	)		`[static]`

Extra point data array that can be generated. By default, this array is ON. The value of the array is the integer id of the node. The id is relative to the entire data set. The name of the array is returned by GlobalNodeIdArrayName().

static const char* vtkExodusIIReader::GetImplicitNodeIdArrayName ( ) [inline, static]

Extra point data array that can be generated. By default, this array is ON. The value of the array is the integer id of the node. The id is relative to the entire data set. The name of the array is returned by GlobalNodeIdArrayName().

Definition at line 260 of file vtkExodusIIReader.h.

static const char* vtkExodusIIReader::GetSideSetSourceElementIdArrayName ( ) [inline, static]

Get the name of the array that stores the mapping from side set cells back to the global id of the elements they bound.

Definition at line 265 of file vtkExodusIIReader.h.

static const char* vtkExodusIIReader::GetSideSetSourceElementSideArrayName ( ) [inline, static]

Get the name of the array that stores the mapping from side set cells back to the canonical side of the elements they bound.

Definition at line 269 of file vtkExodusIIReader.h.

virtual void vtkExodusIIReader::SetApplyDisplacements ( int d ) [virtual]

Geometric locations can include displacements. By default, this is ON. The nodal positions are 'displaced' by the standard exodus displacment vector. If displacements are turned 'off', the user can explicitly add them by applying a warp filter.

int vtkExodusIIReader::GetApplyDisplacements ( )

Geometric locations can include displacements. By default, this is ON. The nodal positions are 'displaced' by the standard exodus displacment vector. If displacements are turned 'off', the user can explicitly add them by applying a warp filter.

virtual void vtkExodusIIReader::ApplyDisplacementsOn ( ) [virtual]

Geometric locations can include displacements. By default, this is ON. The nodal positions are 'displaced' by the standard exodus displacment vector. If displacements are turned 'off', the user can explicitly add them by applying a warp filter.

virtual void vtkExodusIIReader::ApplyDisplacementsOff ( ) [virtual]

Geometric locations can include displacements. By default, this is ON. The nodal positions are 'displaced' by the standard exodus displacment vector. If displacements are turned 'off', the user can explicitly add them by applying a warp filter.

virtual void vtkExodusIIReader::SetDisplacementMagnitude ( float s ) [virtual]

Geometric locations can include displacements. By default, this is ON. The nodal positions are 'displaced' by the standard exodus displacment vector. If displacements are turned 'off', the user can explicitly add them by applying a warp filter.

float vtkExodusIIReader::GetDisplacementMagnitude ( )

Geometric locations can include displacements. By default, this is ON. The nodal positions are 'displaced' by the standard exodus displacment vector. If displacements are turned 'off', the user can explicitly add them by applying a warp filter.

virtual void vtkExodusIIReader::SetHasModeShapes ( int ms ) [virtual]

Set/Get whether the Exodus sequence number corresponds to time steps or mode shapes. By default, HasModeShapes is false unless two time values in the Exodus file are identical, in which case it is true.

int vtkExodusIIReader::GetHasModeShapes ( )

Set/Get whether the Exodus sequence number corresponds to time steps or mode shapes. By default, HasModeShapes is false unless two time values in the Exodus file are identical, in which case it is true.

virtual void vtkExodusIIReader::HasModeShapesOn ( ) [virtual]

Set/Get whether the Exodus sequence number corresponds to time steps or mode shapes. By default, HasModeShapes is false unless two time values in the Exodus file are identical, in which case it is true.

virtual void vtkExodusIIReader::HasModeShapesOff ( ) [virtual]

Set/Get whether the Exodus sequence number corresponds to time steps or mode shapes. By default, HasModeShapes is false unless two time values in the Exodus file are identical, in which case it is true.

virtual void vtkExodusIIReader::SetModeShapeTime ( double phase ) [virtual]

Set/Get the time used to animate mode shapes. This is a number between 0 and 1 that is used to scale the DisplacementMagnitude in a sinusoidal pattern. Specifically, the displacement vector for each vertex is scaled by $\mathrm{DisplacementMagnitude} cos( 2\pi \mathrm{ModeShapeTime} )$ before it is added to the vertex coordinates.

double vtkExodusIIReader::GetModeShapeTime ( )

Set/Get the time used to animate mode shapes. This is a number between 0 and 1 that is used to scale the DisplacementMagnitude in a sinusoidal pattern. Specifically, the displacement vector for each vertex is scaled by $\mathrm{DisplacementMagnitude} cos( 2\pi \mathrm{ModeShapeTime} )$ before it is added to the vertex coordinates.

virtual void vtkExodusIIReader::SetAnimateModeShapes ( int flag ) [virtual]

If this flag is on (the default) and HasModeShapes is also on, then this reader will report a continuous time range [0,1] and animate the displacements in a periodic sinusoid. If this flag is off and HasModeShapes is on, this reader ignores time. This flag has no effect if HasModeShapes is off.

int vtkExodusIIReader::GetAnimateModeShapes ( )

If this flag is on (the default) and HasModeShapes is also on, then this reader will report a continuous time range [0,1] and animate the displacements in a periodic sinusoid. If this flag is off and HasModeShapes is on, this reader ignores time. This flag has no effect if HasModeShapes is off.

virtual void vtkExodusIIReader::AnimateModeShapesOn ( ) [virtual]

If this flag is on (the default) and HasModeShapes is also on, then this reader will report a continuous time range [0,1] and animate the displacements in a periodic sinusoid. If this flag is off and HasModeShapes is on, this reader ignores time. This flag has no effect if HasModeShapes is off.

virtual void vtkExodusIIReader::AnimateModeShapesOff ( ) [virtual]

If this flag is on (the default) and HasModeShapes is also on, then this reader will report a continuous time range [0,1] and animate the displacements in a periodic sinusoid. If this flag is off and HasModeShapes is on, this reader ignores time. This flag has no effect if HasModeShapes is off.

const char* vtkExodusIIReader::GetTitle ( )

Access to meta data generated by UpdateInformation.

int vtkExodusIIReader::GetDimensionality ( )

Access to meta data generated by UpdateInformation.

int vtkExodusIIReader::GetNumberOfTimeSteps ( )

Access to meta data generated by UpdateInformation.

int vtkExodusIIReader::GetNumberOfNodesInFile ( )

int vtkExodusIIReader::GetNumberOfEdgesInFile ( )

int vtkExodusIIReader::GetNumberOfFacesInFile ( )

int vtkExodusIIReader::GetNumberOfElementsInFile ( )

int vtkExodusIIReader::GetObjectTypeFromName ( const char * name )

const char* vtkExodusIIReader::GetObjectTypeName ( int )

int vtkExodusIIReader::GetNumberOfNodes ( )

int vtkExodusIIReader::GetNumberOfObjects ( int objectType )

int vtkExodusIIReader::GetNumberOfEntriesInObject	(	int	objectType,
		int	objectIndex
	)

int vtkExodusIIReader::GetObjectId	(	int	objectType,
		int	objectIndex
	)

const char* vtkExodusIIReader::GetObjectName	(	int	objectType,
		int	objectIndex
	)

int vtkExodusIIReader::GetObjectIndex	(	int	objectType,
		const char *	objectName
	)

int vtkExodusIIReader::GetObjectIndex	(	int	objectType,
		int	id
	)

int vtkExodusIIReader::GetObjectStatus	(	int	objectType,
		int	objectIndex
	)

int vtkExodusIIReader::GetObjectStatus	(	int	objectType,
		const char *	objectName
	)		`[inline]`

Definition at line 336 of file vtkExodusIIReader.h.

void vtkExodusIIReader::SetObjectStatus	(	int	objectType,
		int	objectIndex,
		int	status
	)

void vtkExodusIIReader::SetObjectStatus	(	int	objectType,
		const char *	objectName,
		int	status
	)

int vtkExodusIIReader::GetNumberOfObjectArrays ( int objectType )

By default arrays are not loaded. These methods allow the user to select which arrays they want to load. You can get information about the arrays by first caling UpdateInformation, and using GetPointArrayName ... (Developer Note) This meta data is all accessed through vtkExodusMetadata

const char* vtkExodusIIReader::GetObjectArrayName	(	int	objectType,
		int	arrayIndex
	)

By default arrays are not loaded. These methods allow the user to select which arrays they want to load. You can get information about the arrays by first caling UpdateInformation, and using GetPointArrayName ... (Developer Note) This meta data is all accessed through vtkExodusMetadata

int vtkExodusIIReader::GetObjectArrayIndex	(	int	objectType,
		const char *	arrayName
	)

By default arrays are not loaded. These methods allow the user to select which arrays they want to load. You can get information about the arrays by first caling UpdateInformation, and using GetPointArrayName ... (Developer Note) This meta data is all accessed through vtkExodusMetadata

int vtkExodusIIReader::GetNumberOfObjectArrayComponents	(	int	objectType,
		int	arrayIndex
	)

By default arrays are not loaded. These methods allow the user to select which arrays they want to load. You can get information about the arrays by first caling UpdateInformation, and using GetPointArrayName ... (Developer Note) This meta data is all accessed through vtkExodusMetadata

int vtkExodusIIReader::GetObjectArrayStatus	(	int	objectType,
		int	arrayIndex
	)

By default arrays are not loaded. These methods allow the user to select which arrays they want to load. You can get information about the arrays by first caling UpdateInformation, and using GetPointArrayName ... (Developer Note) This meta data is all accessed through vtkExodusMetadata

int vtkExodusIIReader::GetObjectArrayStatus	(	int	objectType,
		const char *	arrayName
	)		`[inline]`

By default arrays are not loaded. These methods allow the user to select which arrays they want to load. You can get information about the arrays by first caling UpdateInformation, and using GetPointArrayName ... (Developer Note) This meta data is all accessed through vtkExodusMetadata

Definition at line 352 of file vtkExodusIIReader.h.

void vtkExodusIIReader::SetObjectArrayStatus	(	int	objectType,
		int	arrayIndex,
		int	status
	)

By default arrays are not loaded. These methods allow the user to select which arrays they want to load. You can get information about the arrays by first caling UpdateInformation, and using GetPointArrayName ... (Developer Note) This meta data is all accessed through vtkExodusMetadata

void vtkExodusIIReader::SetObjectArrayStatus	(	int	objectType,
		const char *	arrayName,
		int	status
	)

By default arrays are not loaded. These methods allow the user to select which arrays they want to load. You can get information about the arrays by first caling UpdateInformation, and using GetPointArrayName ... (Developer Note) This meta data is all accessed through vtkExodusMetadata

int vtkExodusIIReader::GetNumberOfObjectAttributes	(	int	objectType,
		int	objectIndex
	)

By default attributes are not loaded. These methods allow the user to select which attributes they want to load. You can get information about the attributes by first caling UpdateInformation, and using GetObjectAttributeName ... (Developer Note) This meta data is all accessed through vtkExodusMetadata

const char* vtkExodusIIReader::GetObjectAttributeName	(	int	objectType,
		int	objectIndex,
		int	attribIndex
	)

By default attributes are not loaded. These methods allow the user to select which attributes they want to load. You can get information about the attributes by first caling UpdateInformation, and using GetObjectAttributeName ... (Developer Note) This meta data is all accessed through vtkExodusMetadata

int vtkExodusIIReader::GetObjectAttributeIndex	(	int	objectType,
		int	objectIndex,
		const char *	attribName
	)

By default attributes are not loaded. These methods allow the user to select which attributes they want to load. You can get information about the attributes by first caling UpdateInformation, and using GetObjectAttributeName ... (Developer Note) This meta data is all accessed through vtkExodusMetadata

int vtkExodusIIReader::GetObjectAttributeStatus	(	int	objectType,
		int	objectIndex,
		int	attribIndex
	)

By default attributes are not loaded. These methods allow the user to select which attributes they want to load. You can get information about the attributes by first caling UpdateInformation, and using GetObjectAttributeName ... (Developer Note) This meta data is all accessed through vtkExodusMetadata

int vtkExodusIIReader::GetObjectAttributeStatus	(	int	objectType,
		int	objectIndex,
		const char *	attribName
	)		`[inline]`

By default attributes are not loaded. These methods allow the user to select which attributes they want to load. You can get information about the attributes by first caling UpdateInformation, and using GetObjectAttributeName ... (Developer Note) This meta data is all accessed through vtkExodusMetadata

Definition at line 368 of file vtkExodusIIReader.h.

void vtkExodusIIReader::SetObjectAttributeStatus	(	int	objectType,
		int	objectIndex,
		int	attribIndex,
		int	status
	)

By default attributes are not loaded. These methods allow the user to select which attributes they want to load. You can get information about the attributes by first caling UpdateInformation, and using GetObjectAttributeName ... (Developer Note) This meta data is all accessed through vtkExodusMetadata

void vtkExodusIIReader::SetObjectAttributeStatus	(	int	objectType,
		int	objectIndex,
		const char *	attribName,
		int	status
	)		`[inline]`

By default attributes are not loaded. These methods allow the user to select which attributes they want to load. You can get information about the attributes by first caling UpdateInformation, and using GetObjectAttributeName ... (Developer Note) This meta data is all accessed through vtkExodusMetadata

Definition at line 372 of file vtkExodusIIReader.h.

virtual vtkIdType vtkExodusIIReader::GetTotalNumberOfNodes ( ) [virtual]

Reimplemented in vtkPExodusIIReader.

virtual vtkIdType vtkExodusIIReader::GetTotalNumberOfEdges ( ) [virtual]

virtual vtkIdType vtkExodusIIReader::GetTotalNumberOfFaces ( ) [virtual]

virtual vtkIdType vtkExodusIIReader::GetTotalNumberOfElements ( ) [virtual]

Reimplemented in vtkPExodusIIReader.

int vtkExodusIIReader::GetNumberOfPartArrays ( )