VTK  9.4.20241209
Public Types | Public Member Functions | Static Public Member Functions | Protected Member Functions | Protected Attributes | List of all members
vtkHyperStreamline Class Reference

generate hyperstreamline in arbitrary dataset More...

#include <vtkHyperStreamline.h>

Inheritance diagram for vtkHyperStreamline:
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Collaboration diagram for vtkHyperStreamline:
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Public Types

typedef vtkPolyDataAlgorithm Superclass
 
- Public Types inherited from vtkPolyDataAlgorithm
typedef vtkAlgorithm Superclass
 
- Public Types inherited from vtkAlgorithm
enum  DesiredOutputPrecision { SINGLE_PRECISION , DOUBLE_PRECISION , DEFAULT_PRECISION }
 Values used for setting the desired output precision for various algorithms. More...
 
typedef vtkObject Superclass
 

Public Member Functions

virtual vtkTypeBool IsA (const char *type)
 Return 1 if this class is the same type of (or a subclass of) the named class.
 
vtkHyperStreamlineNewInstance () const
 
void PrintSelf (ostream &os, vtkIndent indent) override
 Methods invoked by print to print information about the object including superclasses.
 
void SetStartLocation (vtkIdType cellId, int subId, double pcoords[3])
 Specify the start of the hyperstreamline in the cell coordinate system.
 
void SetStartLocation (vtkIdType cellId, int subId, double r, double s, double t)
 Specify the start of the hyperstreamline in the cell coordinate system.
 
vtkIdType GetStartLocation (int &subId, double pcoords[3])
 Get the starting location of the hyperstreamline in the cell coordinate system.
 
void SetStartPosition (double x[3])
 Specify the start of the hyperstreamline in the global coordinate system.
 
void SetStartPosition (double x, double y, double z)
 Specify the start of the hyperstreamline in the global coordinate system.
 
double * GetStartPosition ()
 Get the start position of the hyperstreamline in global x-y-z coordinates.
 
void IntegrateMajorEigenvector ()
 Use the major eigenvector field as the vector field through which to integrate.
 
void IntegrateMediumEigenvector ()
 Use the medium eigenvector field as the vector field through which to integrate.
 
void IntegrateMinorEigenvector ()
 Use the minor eigenvector field as the vector field through which to integrate.
 
virtual void SetMaximumPropagationDistance (double)
 Set / get the maximum length of the hyperstreamline expressed as absolute distance (i.e., arc length) value.
 
virtual double GetMaximumPropagationDistance ()
 Set / get the maximum length of the hyperstreamline expressed as absolute distance (i.e., arc length) value.
 
virtual void SetIntegrationEigenvector (int)
 Set / get the eigenvector field through which to ingrate.
 
virtual int GetIntegrationEigenvector ()
 Set / get the eigenvector field through which to ingrate.
 
void SetIntegrationEigenvectorToMajor ()
 Set / get the eigenvector field through which to ingrate.
 
void SetIntegrationEigenvectorToMedium ()
 Set / get the eigenvector field through which to ingrate.
 
void SetIntegrationEigenvectorToMinor ()
 Set / get the eigenvector field through which to ingrate.
 
virtual void SetIntegrationStepLength (double)
 Set / get a nominal integration step size (expressed as a fraction of the size of each cell).
 
virtual double GetIntegrationStepLength ()
 Set / get a nominal integration step size (expressed as a fraction of the size of each cell).
 
virtual void SetStepLength (double)
 Set / get the length of a tube segment composing the hyperstreamline.
 
virtual double GetStepLength ()
 Set / get the length of a tube segment composing the hyperstreamline.
 
virtual void SetIntegrationDirection (int)
 Specify the direction in which to integrate the hyperstreamline.
 
virtual int GetIntegrationDirection ()
 Specify the direction in which to integrate the hyperstreamline.
 
void SetIntegrationDirectionToForward ()
 Specify the direction in which to integrate the hyperstreamline.
 
void SetIntegrationDirectionToBackward ()
 Specify the direction in which to integrate the hyperstreamline.
 
void SetIntegrationDirectionToIntegrateBothDirections ()
 Specify the direction in which to integrate the hyperstreamline.
 
virtual void SetTerminalEigenvalue (double)
 Set/get terminal eigenvalue.
 
virtual double GetTerminalEigenvalue ()
 Set/get terminal eigenvalue.
 
virtual void SetNumberOfSides (int)
 Set / get the number of sides for the hyperstreamlines.
 
virtual int GetNumberOfSides ()
 Set / get the number of sides for the hyperstreamlines.
 
virtual void SetRadius (double)
 Set / get the initial tube radius.
 
virtual double GetRadius ()
 Set / get the initial tube radius.
 
virtual void SetLogScaling (vtkTypeBool)
 Turn on/off logarithmic scaling.
 
virtual vtkTypeBool GetLogScaling ()
 Turn on/off logarithmic scaling.
 
virtual void LogScalingOn ()
 Turn on/off logarithmic scaling.
 
virtual void LogScalingOff ()
 Turn on/off logarithmic scaling.
 
- Public Member Functions inherited from vtkPolyDataAlgorithm
virtual vtkTypeBool IsA (const char *type)
 Return 1 if this class is the same type of (or a subclass of) the named class.
 
vtkPolyDataAlgorithmNewInstance () const
 
void PrintSelf (ostream &os, vtkIndent indent) override
 Methods invoked by print to print information about the object including superclasses.
 
vtkTypeBool ProcessRequest (vtkInformation *, vtkInformationVector **, vtkInformationVector *) override
 see vtkAlgorithm for details
 
vtkDataObjectGetInput ()
 
vtkDataObjectGetInput (int port)
 
vtkPolyDataGetPolyDataInput (int port)
 
vtkPolyDataGetOutput ()
 Get the output data object for a port on this algorithm.
 
vtkPolyDataGetOutput (int)
 Get the output data object for a port on this algorithm.
 
virtual void SetOutput (vtkDataObject *d)
 Get the output data object for a port on this algorithm.
 
void SetInputData (vtkDataObject *)
 Assign a data object as input.
 
void SetInputData (int, vtkDataObject *)
 Assign a data object as input.
 
void AddInputData (vtkDataObject *)
 Assign a data object as input.
 
void AddInputData (int, vtkDataObject *)
 Assign a data object as input.
 
- Public Member Functions inherited from vtkAlgorithm
virtual vtkTypeBool IsA (const char *type)
 Return 1 if this class is the same type of (or a subclass of) the named class.
 
vtkAlgorithmNewInstance () const
 
void PrintSelf (ostream &os, vtkIndent indent) override
 Methods invoked by print to print information about the object including superclasses.
 
vtkTypeBool HasExecutive ()
 Check whether this algorithm has an assigned executive.
 
vtkExecutiveGetExecutive ()
 Get this algorithm's executive.
 
virtual void SetExecutive (vtkExecutive *executive)
 Set this algorithm's executive.
 
virtual vtkTypeBool ProcessRequest (vtkInformation *request, vtkInformationVector **inInfo, vtkInformationVector *outInfo)
 Upstream/Downstream requests form the generalized interface through which executives invoke a algorithm's functionality.
 
vtkTypeBool ProcessRequest (vtkInformation *request, vtkCollection *inInfo, vtkInformationVector *outInfo)
 Version of ProcessRequest() that is wrapped.
 
virtual int ComputePipelineMTime (vtkInformation *request, vtkInformationVector **inInfoVec, vtkInformationVector *outInfoVec, int requestFromOutputPort, vtkMTimeType *mtime)
 A special version of ProcessRequest meant specifically for the pipeline modified time request.
 
virtual int ModifyRequest (vtkInformation *request, int when)
 This method gives the algorithm a chance to modify the contents of a request before or after (specified in the when argument) it is forwarded.
 
vtkInformationGetInputPortInformation (int port)
 Get the information object associated with an input port.
 
vtkInformationGetOutputPortInformation (int port)
 Get the information object associated with an output port.
 
int GetNumberOfInputPorts ()
 Get the number of input ports used by the algorithm.
 
int GetNumberOfOutputPorts ()
 Get the number of output ports provided by the algorithm.
 
void SetAbortExecuteAndUpdateTime ()
 Set AbortExecute Flag and update LastAbortTime.
 
void UpdateProgress (double amount)
 Update the progress of the process object.
 
bool CheckAbort ()
 Checks to see if this filter should abort.
 
virtual void SetInputArrayToProcess (int idx, int port, int connection, const char *fieldAssociation, const char *attributeTypeorName)
 String based versions of SetInputArrayToProcess().
 
vtkInformationGetInputArrayInformation (int idx)
 Get the info object for the specified input array to this algorithm.
 
void RemoveAllInputs ()
 Remove all the input data.
 
vtkDataObjectGetOutputDataObject (int port)
 Get the data object that will contain the algorithm output for the given port.
 
vtkDataObjectGetInputDataObject (int port, int connection)
 Get the data object that will contain the algorithm input for the given port and given connection.
 
virtual void RemoveInputConnection (int port, vtkAlgorithmOutput *input)
 Remove a connection from the given input port index.
 
virtual void RemoveInputConnection (int port, int idx)
 Remove a connection given by index idx.
 
virtual void RemoveAllInputConnections (int port)
 Removes all input connections.
 
virtual void SetInputDataObject (int port, vtkDataObject *data)
 Sets the data-object as an input on the given port index.
 
virtual void SetInputDataObject (vtkDataObject *data)
 
virtual void AddInputDataObject (int port, vtkDataObject *data)
 Add the data-object as an input to this given port.
 
virtual void AddInputDataObject (vtkDataObject *data)
 
vtkAlgorithmOutputGetOutputPort (int index)
 Get a proxy object corresponding to the given output port of this algorithm.
 
vtkAlgorithmOutputGetOutputPort ()
 
int GetNumberOfInputConnections (int port)
 Get the number of inputs currently connected to a port.
 
int GetTotalNumberOfInputConnections ()
 Get the total number of inputs for this algorithm.
 
vtkAlgorithmOutputGetInputConnection (int port, int index)
 Get the algorithm output port connected to an input port.
 
vtkAlgorithmGetInputAlgorithm (int port, int index, int &algPort)
 Returns the algorithm and the output port index of that algorithm connected to a port-index pair.
 
vtkAlgorithmGetInputAlgorithm (int port, int index)
 Returns the algorithm connected to a port-index pair.
 
vtkAlgorithmGetInputAlgorithm ()
 Equivalent to GetInputAlgorithm(0, 0).
 
vtkExecutiveGetInputExecutive (int port, int index)
 Returns the executive associated with a particular input connection.
 
vtkExecutiveGetInputExecutive ()
 Equivalent to GetInputExecutive(0, 0)
 
vtkInformationGetInputInformation (int port, int index)
 Return the information object that is associated with a particular input connection.
 
vtkInformationGetInputInformation ()
 Equivalent to GetInputInformation(0, 0)
 
vtkInformationGetOutputInformation (int port)
 Return the information object that is associated with a particular output port.
 
virtual vtkTypeBool Update (int port, vtkInformationVector *requests)
 This method enables the passing of data requests to the algorithm to be used during execution (in addition to bringing a particular port up-to-date).
 
virtual vtkTypeBool Update (vtkInformation *requests)
 Convenience method to update an algorithm after passing requests to its first output port.
 
virtual int UpdatePiece (int piece, int numPieces, int ghostLevels, const int extents[6]=nullptr)
 Convenience method to update an algorithm after passing requests to its first output port.
 
virtual VTK_UNBLOCKTHREADS int UpdateExtent (const int extents[6])
 Convenience method to update an algorithm after passing requests to its first output port.
 
virtual VTK_UNBLOCKTHREADS int UpdateTimeStep (double time, int piece=-1, int numPieces=1, int ghostLevels=0, const int extents[6]=nullptr)
 Convenience method to update an algorithm after passing requests to its first output port.
 
virtual VTK_UNBLOCKTHREADS void UpdateInformation ()
 Bring the algorithm's information up-to-date.
 
virtual void UpdateDataObject ()
 Create output object(s).
 
virtual void PropagateUpdateExtent ()
 Propagate meta-data upstream.
 
virtual VTK_UNBLOCKTHREADS void UpdateWholeExtent ()
 Bring this algorithm's outputs up-to-date.
 
void ConvertTotalInputToPortConnection (int ind, int &port, int &conn)
 Convenience routine to convert from a linear ordering of input connections to a port/connection pair.
 
void RemoveNoPriorTemporalAccessInformationKey ()
 Removes any information key vtkStreamingDemandDrivenPipeline::NO_PRIOR_TEMPORAL_ACCESS() to all output ports of this vtkAlgorithm.
 
virtual vtkInformationGetInformation ()
 Set/Get the information object associated with this algorithm.
 
virtual void SetInformation (vtkInformation *)
 Set/Get the information object associated with this algorithm.
 
bool UsesGarbageCollector () const override
 Participate in garbage collection.
 
virtual void SetAbortExecute (vtkTypeBool)
 Set/Get the AbortExecute flag for the process object.
 
virtual vtkTypeBool GetAbortExecute ()
 Set/Get the AbortExecute flag for the process object.
 
virtual void AbortExecuteOn ()
 Set/Get the AbortExecute flag for the process object.
 
virtual void AbortExecuteOff ()
 Set/Get the AbortExecute flag for the process object.
 
virtual double GetProgress ()
 Get the execution progress of a process object.
 
void SetContainerAlgorithm (vtkAlgorithm *containerAlg)
 Set/get a Container algorithm for this algorithm.
 
vtkAlgorithmGetContainerAlgorithm ()
 Set/get a Container algorithm for this algorithm.
 
virtual void SetAbortOutput (bool)
 Set/Get an internal variable used to communicate between the algorithm and executive.
 
virtual bool GetAbortOutput ()
 Set/Get an internal variable used to communicate between the algorithm and executive.
 
void SetProgressShiftScale (double shift, double scale)
 Specify the shift and scale values to use to apply to the progress amount when UpdateProgress is called.
 
virtual double GetProgressShift ()
 Specify the shift and scale values to use to apply to the progress amount when UpdateProgress is called.
 
virtual double GetProgressScale ()
 Specify the shift and scale values to use to apply to the progress amount when UpdateProgress is called.
 
void SetProgressText (const char *ptext)
 Set the current text message associated with the progress state.
 
virtual char * GetProgressText ()
 Set the current text message associated with the progress state.
 
virtual unsigned long GetErrorCode ()
 The error code contains a possible error that occurred while reading or writing the file.
 
virtual void SetInputArrayToProcess (int idx, int port, int connection, int fieldAssociation, const char *name)
 Set the input data arrays that this algorithm will process.
 
virtual void SetInputArrayToProcess (int idx, int port, int connection, int fieldAssociation, int fieldAttributeType)
 Set the input data arrays that this algorithm will process.
 
virtual void SetInputArrayToProcess (int idx, vtkInformation *info)
 Set the input data arrays that this algorithm will process.
 
virtual void SetInputConnection (int port, vtkAlgorithmOutput *input)
 Set the connection for the given input port index.
 
virtual void SetInputConnection (vtkAlgorithmOutput *input)
 Set the connection for the given input port index.
 
virtual void AddInputConnection (int port, vtkAlgorithmOutput *input)
 Add a connection to the given input port index.
 
virtual void AddInputConnection (vtkAlgorithmOutput *input)
 Add a connection to the given input port index.
 
virtual VTK_UNBLOCKTHREADS void Update (int port)
 Bring this algorithm's outputs up-to-date.
 
virtual VTK_UNBLOCKTHREADS void Update ()
 Bring this algorithm's outputs up-to-date.
 
virtual void SetReleaseDataFlag (vtkTypeBool)
 Turn release data flag on or off for all output ports.
 
virtual vtkTypeBool GetReleaseDataFlag ()
 Turn release data flag on or off for all output ports.
 
void ReleaseDataFlagOn ()
 Turn release data flag on or off for all output ports.
 
void ReleaseDataFlagOff ()
 Turn release data flag on or off for all output ports.
 
int UpdateExtentIsEmpty (vtkInformation *pinfo, vtkDataObject *output)
 This detects when the UpdateExtent will generate no data This condition is satisfied when the UpdateExtent has zero volume (0,-1,...) or the UpdateNumberOfPieces is 0.
 
int UpdateExtentIsEmpty (vtkInformation *pinfo, int extentType)
 This detects when the UpdateExtent will generate no data This condition is satisfied when the UpdateExtent has zero volume (0,-1,...) or the UpdateNumberOfPieces is 0.
 
int * GetUpdateExtent ()
 These functions return the update extent for output ports that use 3D extents.
 
int * GetUpdateExtent (int port)
 These functions return the update extent for output ports that use 3D extents.
 
void GetUpdateExtent (int &x0, int &x1, int &y0, int &y1, int &z0, int &z1)
 These functions return the update extent for output ports that use 3D extents.
 
void GetUpdateExtent (int port, int &x0, int &x1, int &y0, int &y1, int &z0, int &z1)
 These functions return the update extent for output ports that use 3D extents.
 
void GetUpdateExtent (int extent[6])
 These functions return the update extent for output ports that use 3D extents.
 
void GetUpdateExtent (int port, int extent[6])
 These functions return the update extent for output ports that use 3D extents.
 
int GetUpdatePiece ()
 These functions return the update extent for output ports that use piece extents.
 
int GetUpdatePiece (int port)
 These functions return the update extent for output ports that use piece extents.
 
int GetUpdateNumberOfPieces ()
 These functions return the update extent for output ports that use piece extents.
 
int GetUpdateNumberOfPieces (int port)
 These functions return the update extent for output ports that use piece extents.
 
int GetUpdateGhostLevel ()
 These functions return the update extent for output ports that use piece extents.
 
int GetUpdateGhostLevel (int port)
 These functions return the update extent for output ports that use piece extents.
 
void SetProgressObserver (vtkProgressObserver *)
 If an ProgressObserver is set, the algorithm will report progress through it rather than directly.
 
virtual vtkProgressObserverGetProgressObserver ()
 If an ProgressObserver is set, the algorithm will report progress through it rather than directly.
 
void SetNoPriorTemporalAccessInformationKey (int key)
 Set to all output ports of this algorithm the information key vtkStreamingDemandDrivenPipeline::NO_PRIOR_TEMPORAL_ACCESS().
 
void SetNoPriorTemporalAccessInformationKey ()
 Set to all output ports of this algorithm the information key vtkStreamingDemandDrivenPipeline::NO_PRIOR_TEMPORAL_ACCESS().
 
- Public Member Functions inherited from vtkObject
 vtkBaseTypeMacro (vtkObject, vtkObjectBase)
 
virtual void DebugOn ()
 Turn debugging output on.
 
virtual void DebugOff ()
 Turn debugging output off.
 
bool GetDebug ()
 Get the value of the debug flag.
 
void SetDebug (bool debugFlag)
 Set the value of the debug flag.
 
virtual void Modified ()
 Update the modification time for this object.
 
virtual vtkMTimeType GetMTime ()
 Return this object's modified time.
 
void PrintSelf (ostream &os, vtkIndent indent) override
 Methods invoked by print to print information about the object including superclasses.
 
void RemoveObserver (unsigned long tag)
 
void RemoveObservers (unsigned long event)
 
void RemoveObservers (const char *event)
 
void RemoveAllObservers ()
 
vtkTypeBool HasObserver (unsigned long event)
 
vtkTypeBool HasObserver (const char *event)
 
vtkTypeBool InvokeEvent (unsigned long event)
 
vtkTypeBool InvokeEvent (const char *event)
 
std::string GetObjectDescription () const override
 The object description printed in messages and PrintSelf output.
 
unsigned long AddObserver (unsigned long event, vtkCommand *, float priority=0.0f)
 Allow people to add/remove/invoke observers (callbacks) to any VTK object.
 
unsigned long AddObserver (const char *event, vtkCommand *, float priority=0.0f)
 Allow people to add/remove/invoke observers (callbacks) to any VTK object.
 
vtkCommandGetCommand (unsigned long tag)
 Allow people to add/remove/invoke observers (callbacks) to any VTK object.
 
void RemoveObserver (vtkCommand *)
 Allow people to add/remove/invoke observers (callbacks) to any VTK object.
 
void RemoveObservers (unsigned long event, vtkCommand *)
 Allow people to add/remove/invoke observers (callbacks) to any VTK object.
 
void RemoveObservers (const char *event, vtkCommand *)
 Allow people to add/remove/invoke observers (callbacks) to any VTK object.
 
vtkTypeBool HasObserver (unsigned long event, vtkCommand *)
 Allow people to add/remove/invoke observers (callbacks) to any VTK object.
 
vtkTypeBool HasObserver (const char *event, vtkCommand *)
 Allow people to add/remove/invoke observers (callbacks) to any VTK object.
 
template<class U , class T >
unsigned long AddObserver (unsigned long event, U observer, void(T::*callback)(), float priority=0.0f)
 Overloads to AddObserver that allow developers to add class member functions as callbacks for events.
 
template<class U , class T >
unsigned long AddObserver (unsigned long event, U observer, void(T::*callback)(vtkObject *, unsigned long, void *), float priority=0.0f)
 Overloads to AddObserver that allow developers to add class member functions as callbacks for events.
 
template<class U , class T >
unsigned long AddObserver (unsigned long event, U observer, bool(T::*callback)(vtkObject *, unsigned long, void *), float priority=0.0f)
 Allow user to set the AbortFlagOn() with the return value of the callback method.
 
vtkTypeBool InvokeEvent (unsigned long event, void *callData)
 This method invokes an event and return whether the event was aborted or not.
 
vtkTypeBool InvokeEvent (const char *event, void *callData)
 This method invokes an event and return whether the event was aborted or not.
 
virtual void SetObjectName (const std::string &objectName)
 Set/get the name of this object for reporting purposes.
 
virtual std::string GetObjectName () const
 Set/get the name of this object for reporting purposes.
 
- Public Member Functions inherited from vtkObjectBase
const char * GetClassName () const
 Return the class name as a string.
 
virtual std::string GetObjectDescription () const
 The object description printed in messages and PrintSelf output.
 
virtual vtkTypeBool IsA (const char *name)
 Return 1 if this class is the same type of (or a subclass of) the named class.
 
virtual vtkIdType GetNumberOfGenerationsFromBase (const char *name)
 Given the name of a base class of this class type, return the distance of inheritance between this class type and the named class (how many generations of inheritance are there between this class and the named class).
 
virtual void Delete ()
 Delete a VTK object.
 
virtual void FastDelete ()
 Delete a reference to this object.
 
void InitializeObjectBase ()
 
void Print (ostream &os)
 Print an object to an ostream.
 
void Register (vtkObjectBase *o)
 Increase the reference count (mark as used by another object).
 
virtual void UnRegister (vtkObjectBase *o)
 Decrease the reference count (release by another object).
 
int GetReferenceCount ()
 Return the current reference count of this object.
 
void SetReferenceCount (int)
 Sets the reference count.
 
bool GetIsInMemkind () const
 A local state flag that remembers whether this object lives in the normal or extended memory space.
 
virtual void PrintHeader (ostream &os, vtkIndent indent)
 Methods invoked by print to print information about the object including superclasses.
 
virtual void PrintTrailer (ostream &os, vtkIndent indent)
 Methods invoked by print to print information about the object including superclasses.
 

Static Public Member Functions

static vtkTypeBool IsTypeOf (const char *type)
 
static vtkHyperStreamlineSafeDownCast (vtkObjectBase *o)
 
static vtkHyperStreamlineNew ()
 Construct object with initial starting position (0,0,0); integration step length 0.2; step length 0.01; forward integration; terminal eigenvalue 0.0; number of sides 6; radius 0.5; and logarithmic scaling off.
 
- Static Public Member Functions inherited from vtkPolyDataAlgorithm
static vtkPolyDataAlgorithmNew ()
 
static vtkTypeBool IsTypeOf (const char *type)
 
static vtkPolyDataAlgorithmSafeDownCast (vtkObjectBase *o)
 
- Static Public Member Functions inherited from vtkAlgorithm
static vtkAlgorithmNew ()
 
static vtkTypeBool IsTypeOf (const char *type)
 
static vtkAlgorithmSafeDownCast (vtkObjectBase *o)
 
static vtkInformationIntegerKeyINPUT_IS_OPTIONAL ()
 Keys used to specify input port requirements.
 
static vtkInformationIntegerKeyINPUT_IS_REPEATABLE ()
 
static vtkInformationInformationVectorKeyINPUT_REQUIRED_FIELDS ()
 
static vtkInformationStringVectorKeyINPUT_REQUIRED_DATA_TYPE ()
 
static vtkInformationInformationVectorKeyINPUT_ARRAYS_TO_PROCESS ()
 
static vtkInformationIntegerKeyINPUT_PORT ()
 
static vtkInformationIntegerKeyINPUT_CONNECTION ()
 
static vtkInformationIntegerKeyCAN_PRODUCE_SUB_EXTENT ()
 This key tells the executive that a particular output port is capable of producing an arbitrary subextent of the whole extent.
 
static vtkInformationIntegerKeyCAN_HANDLE_PIECE_REQUEST ()
 Key that tells the pipeline that a particular algorithm can or cannot handle piece request.
 
static vtkInformationIntegerKeyABORTED ()
 
static void SetDefaultExecutivePrototype (vtkExecutive *proto)
 If the DefaultExecutivePrototype is set, a copy of it is created in CreateDefaultExecutive() using NewInstance().
 
- Static Public Member Functions inherited from vtkObject
static vtkObjectNew ()
 Create an object with Debug turned off, modified time initialized to zero, and reference counting on.
 
static void BreakOnError ()
 This method is called when vtkErrorMacro executes.
 
static void SetGlobalWarningDisplay (vtkTypeBool val)
 This is a global flag that controls whether any debug, warning or error messages are displayed.
 
static void GlobalWarningDisplayOn ()
 This is a global flag that controls whether any debug, warning or error messages are displayed.
 
static void GlobalWarningDisplayOff ()
 This is a global flag that controls whether any debug, warning or error messages are displayed.
 
static vtkTypeBool GetGlobalWarningDisplay ()
 This is a global flag that controls whether any debug, warning or error messages are displayed.
 
- Static Public Member Functions inherited from vtkObjectBase
static vtkTypeBool IsTypeOf (const char *name)
 Return 1 if this class type is the same type of (or a subclass of) the named class.
 
static vtkIdType GetNumberOfGenerationsFromBaseType (const char *name)
 Given a the name of a base class of this class type, return the distance of inheritance between this class type and the named class (how many generations of inheritance are there between this class and the named class).
 
static vtkObjectBaseNew ()
 Create an object with Debug turned off, modified time initialized to zero, and reference counting on.
 
static void SetMemkindDirectory (const char *directoryname)
 The name of a directory, ideally mounted -o dax, to memory map an extended memory space within.
 
static bool GetUsingMemkind ()
 A global state flag that controls whether vtkObjects are constructed in the usual way (the default) or within the extended memory space.
 

Protected Member Functions

virtual vtkObjectBaseNewInstanceInternal () const
 
 vtkHyperStreamline ()
 
 ~vtkHyperStreamline () override
 
int RequestData (vtkInformation *, vtkInformationVector **, vtkInformationVector *) override
 This is called by the superclass.
 
int BuildTube (vtkDataSet *input, vtkPolyData *output)
 
int FillInputPortInformation (int port, vtkInformation *info) override
 Fill the input port information objects for this algorithm.
 
- Protected Member Functions inherited from vtkPolyDataAlgorithm
virtual vtkObjectBaseNewInstanceInternal () const
 
 vtkPolyDataAlgorithm ()
 
 ~vtkPolyDataAlgorithm () override
 
virtual int RequestInformation (vtkInformation *request, vtkInformationVector **inputVector, vtkInformationVector *outputVector)
 
virtual int RequestData (vtkInformation *request, vtkInformationVector **inputVector, vtkInformationVector *outputVector)
 This is called by the superclass.
 
virtual int RequestUpdateExtent (vtkInformation *, vtkInformationVector **, vtkInformationVector *)
 This is called by the superclass.
 
virtual int RequestUpdateTime (vtkInformation *, vtkInformationVector **, vtkInformationVector *)
 This is called by the superclass.
 
int FillOutputPortInformation (int port, vtkInformation *info) override
 Fill the output port information objects for this algorithm.
 
int FillInputPortInformation (int port, vtkInformation *info) override
 Fill the input port information objects for this algorithm.
 
- Protected Member Functions inherited from vtkAlgorithm
virtual vtkObjectBaseNewInstanceInternal () const
 
 vtkAlgorithm ()
 
 ~vtkAlgorithm () override
 
bool CheckUpstreamAbort ()
 Checks to see if an upstream filter has been aborted.
 
virtual int FillInputPortInformation (int port, vtkInformation *info)
 Fill the input port information objects for this algorithm.
 
virtual int FillOutputPortInformation (int port, vtkInformation *info)
 Fill the output port information objects for this algorithm.
 
virtual void SetNumberOfInputPorts (int n)
 Set the number of input ports used by the algorithm.
 
virtual void SetNumberOfOutputPorts (int n)
 Set the number of output ports provided by the algorithm.
 
int InputPortIndexInRange (int index, const char *action)
 
int OutputPortIndexInRange (int index, const char *action)
 
int GetInputArrayAssociation (int idx, vtkInformationVector **inputVector)
 Get the association of the actual data array for the input array specified by idx, this is only reasonable during the REQUEST_DATA pass.
 
vtkInformationGetInputArrayFieldInformation (int idx, vtkInformationVector **inputVector)
 This method takes in an index (as specified in SetInputArrayToProcess) and a pipeline information vector.
 
virtual vtkExecutiveCreateDefaultExecutive ()
 Create a default executive.
 
void ReportReferences (vtkGarbageCollector *) override
 
virtual void SetNthInputConnection (int port, int index, vtkAlgorithmOutput *input)
 Replace the Nth connection on the given input port.
 
virtual void SetNumberOfInputConnections (int port, int n)
 Set the number of input connections on the given input port.
 
void SetInputDataInternal (int port, vtkDataObject *input)
 These methods are used by subclasses to implement methods to set data objects directly as input.
 
void AddInputDataInternal (int port, vtkDataObject *input)
 
int GetInputArrayAssociation (int idx, int connection, vtkInformationVector **inputVector)
 Filters that have multiple connections on one port can use this signature.
 
int GetInputArrayAssociation (int idx, vtkDataObject *input)
 Filters that have multiple connections on one port can use this signature.
 
vtkDataArrayGetInputArrayToProcess (int idx, vtkInformationVector **inputVector)
 Get the actual data array for the input array specified by idx, this is only reasonable during the REQUEST_DATA pass.
 
vtkDataArrayGetInputArrayToProcess (int idx, vtkInformationVector **inputVector, int &association)
 Get the actual data array for the input array specified by idx, this is only reasonable during the REQUEST_DATA pass.
 
vtkDataArrayGetInputArrayToProcess (int idx, int connection, vtkInformationVector **inputVector)
 Filters that have multiple connections on one port can use this signature.
 
vtkDataArrayGetInputArrayToProcess (int idx, int connection, vtkInformationVector **inputVector, int &association)
 Filters that have multiple connections on one port can use this signature.
 
vtkDataArrayGetInputArrayToProcess (int idx, vtkDataObject *input)
 Filters that have multiple connections on one port can use this signature.
 
vtkDataArrayGetInputArrayToProcess (int idx, vtkDataObject *input, int &association)
 Filters that have multiple connections on one port can use this signature.
 
vtkAbstractArrayGetInputAbstractArrayToProcess (int idx, vtkInformationVector **inputVector)
 Get the actual data array for the input array specified by idx, this is only reasonable during the REQUEST_DATA pass.
 
vtkAbstractArrayGetInputAbstractArrayToProcess (int idx, vtkInformationVector **inputVector, int &association)
 Get the actual data array for the input array specified by idx, this is only reasonable during the REQUEST_DATA pass.
 
vtkAbstractArrayGetInputAbstractArrayToProcess (int idx, int connection, vtkInformationVector **inputVector)
 Filters that have multiple connections on one port can use this signature.
 
vtkAbstractArrayGetInputAbstractArrayToProcess (int idx, int connection, vtkInformationVector **inputVector, int &association)
 Filters that have multiple connections on one port can use this signature.
 
vtkAbstractArrayGetInputAbstractArrayToProcess (int idx, vtkDataObject *input)
 Filters that have multiple connections on one port can use this signature.
 
vtkAbstractArrayGetInputAbstractArrayToProcess (int idx, vtkDataObject *input, int &association)
 Filters that have multiple connections on one port can use this signature.
 
virtual void SetErrorCode (unsigned long)
 The error code contains a possible error that occurred while reading or writing the file.
 
- Protected Member Functions inherited from vtkObject
 vtkObject ()
 
 ~vtkObject () override
 
void RegisterInternal (vtkObjectBase *, vtkTypeBool check) override
 
void UnRegisterInternal (vtkObjectBase *, vtkTypeBool check) override
 
void InternalGrabFocus (vtkCommand *mouseEvents, vtkCommand *keypressEvents=nullptr)
 These methods allow a command to exclusively grab all events.
 
void InternalReleaseFocus ()
 These methods allow a command to exclusively grab all events.
 
- Protected Member Functions inherited from vtkObjectBase
 vtkObjectBase ()
 
virtual ~vtkObjectBase ()
 
virtual void RegisterInternal (vtkObjectBase *, vtkTypeBool check)
 
virtual void UnRegisterInternal (vtkObjectBase *, vtkTypeBool check)
 
virtual void ReportReferences (vtkGarbageCollector *)
 
virtual void ObjectFinalize ()
 
 vtkObjectBase (const vtkObjectBase &)
 
void operator= (const vtkObjectBase &)
 

Protected Attributes

int StartFrom
 
vtkIdType StartCell
 
int StartSubId
 
double StartPCoords [3]
 
double StartPosition [3]
 
vtkHyperArray * Streamers
 
int NumberOfStreamers
 
double MaximumPropagationDistance
 
int IntegrationDirection
 
double IntegrationStepLength
 
double StepLength
 
double TerminalEigenvalue
 
int NumberOfSides
 
double Radius
 
vtkTypeBool LogScaling
 
int IntegrationEigenvector
 
- Protected Attributes inherited from vtkAlgorithm
vtkTimeStamp LastAbortCheckTime
 
vtkInformationInformation
 
double Progress
 
char * ProgressText
 
vtkProgressObserverProgressObserver
 
unsigned long ErrorCode
 The error code contains a possible error that occurred while reading or writing the file.
 
- Protected Attributes inherited from vtkObject
bool Debug
 
vtkTimeStamp MTime
 
vtkSubjectHelper * SubjectHelper
 
std::string ObjectName
 
- Protected Attributes inherited from vtkObjectBase
std::atomic< int32_t > ReferenceCount
 
vtkWeakPointerBase ** WeakPointers
 

Additional Inherited Members

- Public Attributes inherited from vtkAlgorithm
std::atomic< vtkTypeBoolAbortExecute
 
- Static Protected Member Functions inherited from vtkAlgorithm
static vtkInformationIntegerKeyPORT_REQUIREMENTS_FILLED ()
 
- Static Protected Member Functions inherited from vtkObjectBase
static vtkMallocingFunction GetCurrentMallocFunction ()
 
static vtkReallocingFunction GetCurrentReallocFunction ()
 
static vtkFreeingFunction GetCurrentFreeFunction ()
 
static vtkFreeingFunction GetAlternateFreeFunction ()
 
- Static Protected Attributes inherited from vtkAlgorithm
static vtkTimeStamp LastAbortTime
 
static vtkExecutiveDefaultExecutivePrototype
 

Detailed Description

generate hyperstreamline in arbitrary dataset

vtkHyperStreamline is a filter that integrates through a tensor field to generate a hyperstreamline. The integration is along the maximum eigenvector and the cross section of the hyperstreamline is defined by the two other eigenvectors. Thus the shape of the hyperstreamline is "tube-like", with the cross section being elliptical. Hyperstreamlines are used to visualize tensor fields.

The starting point of a hyperstreamline can be defined in one of two ways. First, you may specify an initial position. This is a x-y-z global coordinate. The second option is to specify a starting location. This is cellId, subId, and cell parametric coordinates.

The integration of the hyperstreamline occurs through the major eigenvector field. IntegrationStepLength controls the step length within each cell (i.e., this is the fraction of the cell length). The length of the hyperstreamline is controlled by MaximumPropagationDistance. This parameter is the length of the hyperstreamline in units of distance. The tube itself is composed of many small sub-tubes - NumberOfSides controls the number of sides in the tube, and StepLength controls the length of the sub-tubes.

Because hyperstreamlines are often created near regions of singularities, it is possible to control the scaling of the tube cross section by using a logarithmic scale. Use LogScalingOn to turn this capability on. The Radius value controls the initial radius of the tube.

See also
vtkTensorGlyph
Online Examples:

Tests:
vtkHyperStreamline (Tests)

Definition at line 75 of file vtkHyperStreamline.h.

Member Typedef Documentation

◆ Superclass

Definition at line 78 of file vtkHyperStreamline.h.

Constructor & Destructor Documentation

◆ vtkHyperStreamline()

vtkHyperStreamline::vtkHyperStreamline ( )
protected

◆ ~vtkHyperStreamline()

vtkHyperStreamline::~vtkHyperStreamline ( )
overrideprotected

Member Function Documentation

◆ IsTypeOf()

static vtkTypeBool vtkHyperStreamline::IsTypeOf ( const char *  type)
static

◆ IsA()

virtual vtkTypeBool vtkHyperStreamline::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 vtkPolyDataAlgorithm.

◆ SafeDownCast()

static vtkHyperStreamline * vtkHyperStreamline::SafeDownCast ( vtkObjectBase o)
static

◆ NewInstanceInternal()

virtual vtkObjectBase * vtkHyperStreamline::NewInstanceInternal ( ) const
protectedvirtual

Reimplemented from vtkPolyDataAlgorithm.

◆ NewInstance()

vtkHyperStreamline * vtkHyperStreamline::NewInstance ( ) const

◆ PrintSelf()

void vtkHyperStreamline::PrintSelf ( ostream &  os,
vtkIndent  indent 
)
overridevirtual

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 vtkAlgorithm.

◆ New()

static vtkHyperStreamline * vtkHyperStreamline::New ( )
static

Construct object with initial starting position (0,0,0); integration step length 0.2; step length 0.01; forward integration; terminal eigenvalue 0.0; number of sides 6; radius 0.5; and logarithmic scaling off.

◆ SetStartLocation() [1/2]

void vtkHyperStreamline::SetStartLocation ( vtkIdType  cellId,
int  subId,
double  pcoords[3] 
)

Specify the start of the hyperstreamline in the cell coordinate system.

That is, cellId and subId (if composite cell), and parametric coordinates.

◆ SetStartLocation() [2/2]

void vtkHyperStreamline::SetStartLocation ( vtkIdType  cellId,
int  subId,
double  r,
double  s,
double  t 
)

Specify the start of the hyperstreamline in the cell coordinate system.

That is, cellId and subId (if composite cell), and parametric coordinates.

◆ GetStartLocation()

vtkIdType vtkHyperStreamline::GetStartLocation ( int &  subId,
double  pcoords[3] 
)

Get the starting location of the hyperstreamline in the cell coordinate system.

Returns the cell that the starting point is in.

◆ SetStartPosition() [1/2]

void vtkHyperStreamline::SetStartPosition ( double  x[3])

Specify the start of the hyperstreamline in the global coordinate system.

Starting from position implies that a search must be performed to find initial cell to start integration from.

◆ SetStartPosition() [2/2]

void vtkHyperStreamline::SetStartPosition ( double  x,
double  y,
double  z 
)

Specify the start of the hyperstreamline in the global coordinate system.

Starting from position implies that a search must be performed to find initial cell to start integration from.

◆ GetStartPosition()

double * vtkHyperStreamline::GetStartPosition ( )

Get the start position of the hyperstreamline in global x-y-z coordinates.

◆ SetMaximumPropagationDistance()

virtual void vtkHyperStreamline::SetMaximumPropagationDistance ( double  )
virtual

Set / get the maximum length of the hyperstreamline expressed as absolute distance (i.e., arc length) value.

◆ GetMaximumPropagationDistance()

virtual double vtkHyperStreamline::GetMaximumPropagationDistance ( )
virtual

Set / get the maximum length of the hyperstreamline expressed as absolute distance (i.e., arc length) value.

◆ SetIntegrationEigenvector()

virtual void vtkHyperStreamline::SetIntegrationEigenvector ( int  )
virtual

Set / get the eigenvector field through which to ingrate.

It is possible to integrate using the major, medium or minor eigenvector field. The major eigenvector is the eigenvector whose corresponding eigenvalue is closest to positive infinity. The minor eigenvector is the eigenvector whose corresponding eigenvalue is closest to negative infinity. The medium eigenvector is the eigenvector whose corresponding eigenvalue is between the major and minor eigenvalues.

◆ GetIntegrationEigenvector()

virtual int vtkHyperStreamline::GetIntegrationEigenvector ( )
virtual

Set / get the eigenvector field through which to ingrate.

It is possible to integrate using the major, medium or minor eigenvector field. The major eigenvector is the eigenvector whose corresponding eigenvalue is closest to positive infinity. The minor eigenvector is the eigenvector whose corresponding eigenvalue is closest to negative infinity. The medium eigenvector is the eigenvector whose corresponding eigenvalue is between the major and minor eigenvalues.

◆ SetIntegrationEigenvectorToMajor()

void vtkHyperStreamline::SetIntegrationEigenvectorToMajor ( )
inline

Set / get the eigenvector field through which to ingrate.

It is possible to integrate using the major, medium or minor eigenvector field. The major eigenvector is the eigenvector whose corresponding eigenvalue is closest to positive infinity. The minor eigenvector is the eigenvector whose corresponding eigenvalue is closest to negative infinity. The medium eigenvector is the eigenvector whose corresponding eigenvalue is between the major and minor eigenvalues.

Definition at line 149 of file vtkHyperStreamline.h.

◆ SetIntegrationEigenvectorToMedium()

void vtkHyperStreamline::SetIntegrationEigenvectorToMedium ( )
inline

Set / get the eigenvector field through which to ingrate.

It is possible to integrate using the major, medium or minor eigenvector field. The major eigenvector is the eigenvector whose corresponding eigenvalue is closest to positive infinity. The minor eigenvector is the eigenvector whose corresponding eigenvalue is closest to negative infinity. The medium eigenvector is the eigenvector whose corresponding eigenvalue is between the major and minor eigenvalues.

Definition at line 153 of file vtkHyperStreamline.h.

◆ SetIntegrationEigenvectorToMinor()

void vtkHyperStreamline::SetIntegrationEigenvectorToMinor ( )
inline

Set / get the eigenvector field through which to ingrate.

It is possible to integrate using the major, medium or minor eigenvector field. The major eigenvector is the eigenvector whose corresponding eigenvalue is closest to positive infinity. The minor eigenvector is the eigenvector whose corresponding eigenvalue is closest to negative infinity. The medium eigenvector is the eigenvector whose corresponding eigenvalue is between the major and minor eigenvalues.

Definition at line 157 of file vtkHyperStreamline.h.

◆ IntegrateMajorEigenvector()

void vtkHyperStreamline::IntegrateMajorEigenvector ( )
inline

Use the major eigenvector field as the vector field through which to integrate.

The major eigenvector is the eigenvector whose corresponding eigenvalue is closest to positive infinity.

Definition at line 168 of file vtkHyperStreamline.h.

◆ IntegrateMediumEigenvector()

void vtkHyperStreamline::IntegrateMediumEigenvector ( )
inline

Use the medium eigenvector field as the vector field through which to integrate.

The medium eigenvector is the eigenvector whose corresponding eigenvalue is between the major and minor eigenvalues.

Definition at line 176 of file vtkHyperStreamline.h.

◆ IntegrateMinorEigenvector()

void vtkHyperStreamline::IntegrateMinorEigenvector ( )
inline

Use the minor eigenvector field as the vector field through which to integrate.

The minor eigenvector is the eigenvector whose corresponding eigenvalue is closest to negative infinity.

Definition at line 183 of file vtkHyperStreamline.h.

◆ SetIntegrationStepLength()

virtual void vtkHyperStreamline::SetIntegrationStepLength ( double  )
virtual

Set / get a nominal integration step size (expressed as a fraction of the size of each cell).

◆ GetIntegrationStepLength()

virtual double vtkHyperStreamline::GetIntegrationStepLength ( )
virtual

Set / get a nominal integration step size (expressed as a fraction of the size of each cell).

◆ SetStepLength()

virtual void vtkHyperStreamline::SetStepLength ( double  )
virtual

Set / get the length of a tube segment composing the hyperstreamline.

The length is specified as a fraction of the diagonal length of the input bounding box.

◆ GetStepLength()

virtual double vtkHyperStreamline::GetStepLength ( )
virtual

Set / get the length of a tube segment composing the hyperstreamline.

The length is specified as a fraction of the diagonal length of the input bounding box.

◆ SetIntegrationDirection()

virtual void vtkHyperStreamline::SetIntegrationDirection ( int  )
virtual

Specify the direction in which to integrate the hyperstreamline.

◆ GetIntegrationDirection()

virtual int vtkHyperStreamline::GetIntegrationDirection ( )
virtual

Specify the direction in which to integrate the hyperstreamline.

◆ SetIntegrationDirectionToForward()

void vtkHyperStreamline::SetIntegrationDirectionToForward ( )
inline

Specify the direction in which to integrate the hyperstreamline.

Definition at line 210 of file vtkHyperStreamline.h.

◆ SetIntegrationDirectionToBackward()

void vtkHyperStreamline::SetIntegrationDirectionToBackward ( )
inline

Specify the direction in which to integrate the hyperstreamline.

Definition at line 211 of file vtkHyperStreamline.h.

◆ SetIntegrationDirectionToIntegrateBothDirections()

void vtkHyperStreamline::SetIntegrationDirectionToIntegrateBothDirections ( )
inline

Specify the direction in which to integrate the hyperstreamline.

Definition at line 215 of file vtkHyperStreamline.h.

◆ SetTerminalEigenvalue()

virtual void vtkHyperStreamline::SetTerminalEigenvalue ( double  )
virtual

Set/get terminal eigenvalue.

If major eigenvalue falls below this value, hyperstreamline terminates propagation.

◆ GetTerminalEigenvalue()

virtual double vtkHyperStreamline::GetTerminalEigenvalue ( )
virtual

Set/get terminal eigenvalue.

If major eigenvalue falls below this value, hyperstreamline terminates propagation.

◆ SetNumberOfSides()

virtual void vtkHyperStreamline::SetNumberOfSides ( int  )
virtual

Set / get the number of sides for the hyperstreamlines.

At a minimum, number of sides is 3.

◆ GetNumberOfSides()

virtual int vtkHyperStreamline::GetNumberOfSides ( )
virtual

Set / get the number of sides for the hyperstreamlines.

At a minimum, number of sides is 3.

◆ SetRadius()

virtual void vtkHyperStreamline::SetRadius ( double  )
virtual

Set / get the initial tube radius.

This is the maximum "elliptical" radius at the beginning of the tube. Radius varies based on ratio of eigenvalues. Note that tube section is actually elliptical and may become a point or line in cross section in some cases.

◆ GetRadius()

virtual double vtkHyperStreamline::GetRadius ( )
virtual

Set / get the initial tube radius.

This is the maximum "elliptical" radius at the beginning of the tube. Radius varies based on ratio of eigenvalues. Note that tube section is actually elliptical and may become a point or line in cross section in some cases.

◆ SetLogScaling()

virtual void vtkHyperStreamline::SetLogScaling ( vtkTypeBool  )
virtual

Turn on/off logarithmic scaling.

If scaling is on, the log base 10 of the computed eigenvalues are used to scale the cross section radii.

◆ GetLogScaling()

virtual vtkTypeBool vtkHyperStreamline::GetLogScaling ( )
virtual

Turn on/off logarithmic scaling.

If scaling is on, the log base 10 of the computed eigenvalues are used to scale the cross section radii.

◆ LogScalingOn()

virtual void vtkHyperStreamline::LogScalingOn ( )
virtual

Turn on/off logarithmic scaling.

If scaling is on, the log base 10 of the computed eigenvalues are used to scale the cross section radii.

◆ LogScalingOff()

virtual void vtkHyperStreamline::LogScalingOff ( )
virtual

Turn on/off logarithmic scaling.

If scaling is on, the log base 10 of the computed eigenvalues are used to scale the cross section radii.

◆ RequestData()

int vtkHyperStreamline::RequestData ( vtkInformation request,
vtkInformationVector **  inputVector,
vtkInformationVector outputVector 
)
overrideprotectedvirtual

This is called by the superclass.

This is the method you should override.

Reimplemented from vtkPolyDataAlgorithm.

◆ BuildTube()

int vtkHyperStreamline::BuildTube ( vtkDataSet input,
vtkPolyData output 
)
protected

◆ FillInputPortInformation()

int vtkHyperStreamline::FillInputPortInformation ( int  port,
vtkInformation info 
)
overrideprotectedvirtual

Fill the input port information objects for this algorithm.

This is invoked by the first call to GetInputPortInformation for each port so subclasses can specify what they can handle.

Reimplemented from vtkAlgorithm.

Member Data Documentation

◆ StartFrom

int vtkHyperStreamline::StartFrom
protected

Definition at line 271 of file vtkHyperStreamline.h.

◆ StartCell

vtkIdType vtkHyperStreamline::StartCell
protected

Definition at line 274 of file vtkHyperStreamline.h.

◆ StartSubId

int vtkHyperStreamline::StartSubId
protected

Definition at line 275 of file vtkHyperStreamline.h.

◆ StartPCoords

double vtkHyperStreamline::StartPCoords[3]
protected

Definition at line 276 of file vtkHyperStreamline.h.

◆ StartPosition

double vtkHyperStreamline::StartPosition[3]
protected

Definition at line 279 of file vtkHyperStreamline.h.

◆ Streamers

vtkHyperArray* vtkHyperStreamline::Streamers
protected

Definition at line 282 of file vtkHyperStreamline.h.

◆ NumberOfStreamers

int vtkHyperStreamline::NumberOfStreamers
protected

Definition at line 283 of file vtkHyperStreamline.h.

◆ MaximumPropagationDistance

double vtkHyperStreamline::MaximumPropagationDistance
protected

Definition at line 286 of file vtkHyperStreamline.h.

◆ IntegrationDirection

int vtkHyperStreamline::IntegrationDirection
protected

Definition at line 289 of file vtkHyperStreamline.h.

◆ IntegrationStepLength

double vtkHyperStreamline::IntegrationStepLength
protected

Definition at line 292 of file vtkHyperStreamline.h.

◆ StepLength

double vtkHyperStreamline::StepLength
protected

Definition at line 295 of file vtkHyperStreamline.h.

◆ TerminalEigenvalue

double vtkHyperStreamline::TerminalEigenvalue
protected

Definition at line 298 of file vtkHyperStreamline.h.

◆ NumberOfSides

int vtkHyperStreamline::NumberOfSides
protected

Definition at line 301 of file vtkHyperStreamline.h.

◆ Radius

double vtkHyperStreamline::Radius
protected

Definition at line 304 of file vtkHyperStreamline.h.

◆ LogScaling

vtkTypeBool vtkHyperStreamline::LogScaling
protected

Definition at line 307 of file vtkHyperStreamline.h.

◆ IntegrationEigenvector

int vtkHyperStreamline::IntegrationEigenvector
protected

Definition at line 310 of file vtkHyperStreamline.h.


The documentation for this class was generated from the following file: