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Kitware.VTK.vtkGenericStreamTracer Class Reference

vtkGenericStreamTracer - Streamline generator More...

Inheritance diagram for Kitware.VTK.vtkGenericStreamTracer:
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Collaboration diagram for Kitware.VTK.vtkGenericStreamTracer:
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Public Types

enum  BACKWARD_WrapperEnum { BACKWARD = 1, BOTH = 2, FORWARD = 0 }
 Description If at any point, the speed is below this value, the integration is terminated. More...
enum  ReasonForTermination {
  NOT_INITIALIZED = 2, OUT_OF_DOMAIN = 1, OUT_OF_STEPS = 5, OUT_OF_TIME = 4,
  STAGNATION = 6, UNEXPECTED_VALUE = 3
}
 Specify the source object used to generate starting points. More...
enum  Solvers {
  NONE = 3, RUNGE_KUTTA2 = 0, RUNGE_KUTTA4 = 1, RUNGE_KUTTA45 = 2,
  UNKNOWN = 4
}
 Specify the source object used to generate starting points. More...
enum  Units { CELL_LENGTH_UNIT = 2, LENGTH_UNIT = 1, TIME_UNIT = 0 }
 Specify the source object used to generate starting points. More...

Public Member Functions

 vtkGenericStreamTracer (IntPtr rawCppThis, bool callDisposalMethod, bool strong)
 Automatically generated constructor - called from generated code. DO NOT call directly.
 vtkGenericStreamTracer ()
 Construct object to start from position (0,0,0), integrate forward, terminal speed 1.0E-12, vorticity computation on, integration step length 0.5 (unit cell length), maximum number of steps 2000, using 2nd order Runge Kutta and maximum propagation 1.0 (unit length).
void AddInput (vtkGenericDataSet arg0)
 Add a dataset to the list inputs
virtual void ComputeVorticityOff ()
 Description Turn on/off calculation of vorticity at streamline points (necessary for generating proper streamribbons using the vtkRibbonFilter.
virtual void ComputeVorticityOn ()
 Description Turn on/off calculation of vorticity at streamline points (necessary for generating proper streamribbons using the vtkRibbonFilter.
virtual int FillInputPortInformation (int port, vtkInformation info)
 Specify the source object used to generate starting points.
virtual int GetComputeVorticity ()
 Description Turn on/off calculation of vorticity at streamline points (necessary for generating proper streamribbons using the vtkRibbonFilter.
double GetInitialIntegrationStep ()
 Specify the initial step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 If the integrator is not adaptive, this is the actual step used.
int GetInitialIntegrationStepUnit ()
 Specify the initial step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 If the integrator is not adaptive, this is the actual step used.
virtual string GetInputVectorsSelection ()
 If you want to generate traces using an arbitrary vector array, then set its name here. By default this in NULL and the filter will use the active vector array.
virtual int GetIntegrationDirection ()
 Specify whether the streamtrace will be generated in the upstream or downstream direction.
virtual int GetIntegrationDirectionMaxValue ()
 Specify whether the streamtrace will be generated in the upstream or downstream direction.
virtual int GetIntegrationDirectionMinValue ()
 Specify whether the streamtrace will be generated in the upstream or downstream direction.
virtual
vtkInitialValueProblemSolver 
GetIntegrator ()
 Set/get the integrator type to be used in the stream line calculation. The object passed is not actually used but is cloned with NewInstance in the process of integration (prototype pattern). The default is 2nd order Runge Kutta. The integrator can also be changed using SetIntegratorType. The recognized solvers are: RUNGE_KUTTA2 = 0 RUNGE_KUTTA4 = 1 RUNGE_KUTTA45 = 2
int GetIntegratorType ()
 Set/get the integrator type to be used in the stream line calculation. The object passed is not actually used but is cloned with NewInstance in the process of integration (prototype pattern). The default is 2nd order Runge Kutta. The integrator can also be changed using SetIntegratorType. The recognized solvers are: RUNGE_KUTTA2 = 0 RUNGE_KUTTA4 = 1 RUNGE_KUTTA45 = 2
virtual double GetMaximumError ()
 Description Specify the maximum error in the integration. This value is passed to the integrator. Therefore, it's meaning depends on the integrator used.
double GetMaximumIntegrationStep ()
 Specify the maximum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.
int GetMaximumIntegrationStepUnit ()
 Specify the maximum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.
virtual long GetMaximumNumberOfSteps ()
 Description Specify the maximum number of steps used in the integration.
double GetMaximumPropagation ()
 Specify the maximum length of the streamlines expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2
int GetMaximumPropagationUnit ()
 Specify the maximum length of the streamlines expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2
double GetMinimumIntegrationStep ()
 Specify the minimum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.
int GetMinimumIntegrationStepUnit ()
 Specify the minimum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.
virtual double GetRotationScale ()
 Description This can be used to scale the rate with which the streamribbons twist. The default is 1.
vtkDataSet GetSource ()
 Specify the source object used to generate starting points.
virtual double[] GetStartPosition ()
 Specify the start of the streamline in the global coordinate system. Search must be performed to find initial cell to start integration from.
virtual void GetStartPosition (ref double _arg1, ref double _arg2, ref double _arg3)
 Specify the start of the streamline in the global coordinate system. Search must be performed to find initial cell to start integration from.
virtual void GetStartPosition (IntPtr _arg)
 Specify the start of the streamline in the global coordinate system. Search must be performed to find initial cell to start integration from.
virtual double GetTerminalSpeed ()
 Description If at any point, the speed is below this value, the integration is terminated.
override int IsA (string type)
 Undocumented Block
new vtkGenericStreamTracer NewInstance ()
 Undocumented Block
void SelectInputVectors (string fieldName)
 If you want to generate traces using an arbitrary vector array, then set its name here. By default this in NULL and the filter will use the active vector array.
virtual void SetComputeVorticity (int _arg)
 Description Turn on/off calculation of vorticity at streamline points (necessary for generating proper streamribbons using the vtkRibbonFilter.
void SetInitialIntegrationStep (int unit, double step)
 Specify the initial step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 If the integrator is not adaptive, this is the actual step used.
void SetInitialIntegrationStep (double step)
 Specify the initial step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 If the integrator is not adaptive, this is the actual step used.
void SetInitialIntegrationStepUnit (int unit)
 Specify the initial step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 If the integrator is not adaptive, this is the actual step used.
void SetInitialIntegrationStepUnitToCellLengthUnit ()
 Specify the initial step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 If the integrator is not adaptive, this is the actual step used.
void SetInitialIntegrationStepUnitToLengthUnit ()
 Specify the initial step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 If the integrator is not adaptive, this is the actual step used.
void SetInitialIntegrationStepUnitToTimeUnit ()
 Specify the initial step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 If the integrator is not adaptive, this is the actual step used.
virtual void SetIntegrationDirection (int _arg)
 Specify whether the streamtrace will be generated in the upstream or downstream direction.
void SetIntegrationDirectionToBackward ()
 Specify whether the streamtrace will be generated in the upstream or downstream direction.
void SetIntegrationDirectionToBoth ()
 Specify whether the streamtrace will be generated in the upstream or downstream direction.
void SetIntegrationDirectionToForward ()
 Specify whether the streamtrace will be generated in the upstream or downstream direction.
void SetIntegrator (vtkInitialValueProblemSolver arg0)
 Set/get the integrator type to be used in the stream line calculation. The object passed is not actually used but is cloned with NewInstance in the process of integration (prototype pattern). The default is 2nd order Runge Kutta. The integrator can also be changed using SetIntegratorType. The recognized solvers are: RUNGE_KUTTA2 = 0 RUNGE_KUTTA4 = 1 RUNGE_KUTTA45 = 2
void SetIntegratorType (int type)
 Set/get the integrator type to be used in the stream line calculation. The object passed is not actually used but is cloned with NewInstance in the process of integration (prototype pattern). The default is 2nd order Runge Kutta. The integrator can also be changed using SetIntegratorType. The recognized solvers are: RUNGE_KUTTA2 = 0 RUNGE_KUTTA4 = 1 RUNGE_KUTTA45 = 2
void SetIntegratorTypeToRungeKutta2 ()
 Set/get the integrator type to be used in the stream line calculation. The object passed is not actually used but is cloned with NewInstance in the process of integration (prototype pattern). The default is 2nd order Runge Kutta. The integrator can also be changed using SetIntegratorType. The recognized solvers are: RUNGE_KUTTA2 = 0 RUNGE_KUTTA4 = 1 RUNGE_KUTTA45 = 2
void SetIntegratorTypeToRungeKutta4 ()
 Set/get the integrator type to be used in the stream line calculation. The object passed is not actually used but is cloned with NewInstance in the process of integration (prototype pattern). The default is 2nd order Runge Kutta. The integrator can also be changed using SetIntegratorType. The recognized solvers are: RUNGE_KUTTA2 = 0 RUNGE_KUTTA4 = 1 RUNGE_KUTTA45 = 2
void SetIntegratorTypeToRungeKutta45 ()
 Set/get the integrator type to be used in the stream line calculation. The object passed is not actually used but is cloned with NewInstance in the process of integration (prototype pattern). The default is 2nd order Runge Kutta. The integrator can also be changed using SetIntegratorType. The recognized solvers are: RUNGE_KUTTA2 = 0 RUNGE_KUTTA4 = 1 RUNGE_KUTTA45 = 2
void SetInterpolatorPrototype (vtkGenericInterpolatedVelocityField ivf)
 The object used to interpolate the velocity field during integration is of the same class as this prototype.
virtual void SetMaximumError (double _arg)
 Description Specify the maximum error in the integration. This value is passed to the integrator. Therefore, it's meaning depends on the integrator used.
void SetMaximumIntegrationStep (int unit, double step)
 Specify the maximum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.
void SetMaximumIntegrationStep (double step)
 Specify the maximum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.
void SetMaximumIntegrationStepUnit (int unit)
 Specify the maximum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.
void SetMaximumIntegrationStepUnitToCellLengthUnit ()
 Specify the maximum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.
void SetMaximumIntegrationStepUnitToLengthUnit ()
 Specify the maximum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.
void SetMaximumIntegrationStepUnitToTimeUnit ()
 Specify the maximum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.
virtual void SetMaximumNumberOfSteps (long _arg)
 Description Specify the maximum number of steps used in the integration.
void SetMaximumPropagation (int unit, double max)
 Specify the maximum length of the streamlines expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2
void SetMaximumPropagation (double max)
 Specify the maximum length of the streamlines expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2
void SetMaximumPropagationUnit (int unit)
 Specify the maximum length of the streamlines expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2
void SetMaximumPropagationUnitToCellLengthUnit ()
 Specify the maximum length of the streamlines expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2
void SetMaximumPropagationUnitToLengthUnit ()
 Specify the maximum length of the streamlines expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2
void SetMaximumPropagationUnitToTimeUnit ()
 Specify the maximum length of the streamlines expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2
void SetMinimumIntegrationStep (int unit, double step)
 Specify the minimum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.
void SetMinimumIntegrationStep (double step)
 Specify the minimum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.
void SetMinimumIntegrationStepUnit (int unit)
 Specify the minimum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.
void SetMinimumIntegrationStepUnitToCellLengthUnit ()
 Specify the minimum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.
void SetMinimumIntegrationStepUnitToLengthUnit ()
 Specify the minimum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.
void SetMinimumIntegrationStepUnitToTimeUnit ()
 Specify the minimum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.
virtual void SetRotationScale (double _arg)
 Description This can be used to scale the rate with which the streamribbons twist. The default is 1.
void SetSource (vtkDataSet source)
 Specify the source object used to generate starting points.
virtual void SetStartPosition (double _arg1, double _arg2, double _arg3)
 Specify the start of the streamline in the global coordinate system. Search must be performed to find initial cell to start integration from.
virtual void SetStartPosition (IntPtr _arg)
 Specify the start of the streamline in the global coordinate system. Search must be performed to find initial cell to start integration from.
virtual void SetTerminalSpeed (double _arg)
 Description If at any point, the speed is below this value, the integration is terminated.
- Public Member Functions inherited from Kitware.VTK.vtkPolyDataAlgorithm
 vtkPolyDataAlgorithm (IntPtr rawCppThis, bool callDisposalMethod, bool strong)
 Automatically generated constructor - called from generated code. DO NOT call directly.
 vtkPolyDataAlgorithm ()
 Undocumented Block
void AddInput (vtkDataObject arg0)
 Add an input of this algorithm. Note that these methods support old-style pipeline connections. When writing new code you should use the more general vtkAlgorithm::AddInputConnection(). See SetInput() for details.
void AddInput (int arg0, vtkDataObject arg1)
 Add an input of this algorithm. Note that these methods support old-style pipeline connections. When writing new code you should use the more general vtkAlgorithm::AddInputConnection(). See SetInput() for details.
vtkDataObject GetInput ()
 this method is not recommended for use, but lots of old style filters use it
vtkDataObject GetInput (int port)
 this method is not recommended for use, but lots of old style filters use it
vtkPolyData GetOutput ()
 Get the output data object for a port on this algorithm.
vtkPolyData GetOutput (int arg0)
 Get the output data object for a port on this algorithm.
vtkPolyData GetPolyDataInput (int port)
 this method is not recommended for use, but lots of old style filters use it
void SetInput (vtkDataObject arg0)
 Set an input of this algorithm. You should not override these methods because they are not the only way to connect a pipeline. Note that these methods support old-style pipeline connections. When writing new code you should use the more general vtkAlgorithm::SetInputConnection(). These methods transform the input index to the input port index, not an index of a connection within a single port.
void SetInput (int arg0, vtkDataObject arg1)
 Set an input of this algorithm. You should not override these methods because they are not the only way to connect a pipeline. Note that these methods support old-style pipeline connections. When writing new code you should use the more general vtkAlgorithm::SetInputConnection(). These methods transform the input index to the input port index, not an index of a connection within a single port.
virtual void SetOutput (vtkDataObject d)
 Get the output data object for a port on this algorithm.
- Public Member Functions inherited from Kitware.VTK.vtkAlgorithm
 vtkAlgorithm (IntPtr rawCppThis, bool callDisposalMethod, bool strong)
 Automatically generated constructor - called from generated code. DO NOT call directly.
 vtkAlgorithm ()
 Undocumented Block
override void Register (vtkObjectBase o)
 Participate in garbage collection.
virtual void AbortExecuteOff ()
 Set/Get the AbortExecute flag for the process object. Process objects may handle premature termination of execution in different ways.
virtual void AbortExecuteOn ()
 Set/Get the AbortExecute flag for the process object. Process objects may handle premature termination of execution in different ways.
virtual void AddInputConnection (int port, vtkAlgorithmOutput input)
 Add a connection to the given input port index. See SetInputConnection() for details on input connections. This method is the complement to RemoveInputConnection() in that it adds only the connection specified without affecting other connections. Typical usage is
virtual void AddInputConnection (vtkAlgorithmOutput input)
 Add a connection to the given input port index. See SetInputConnection() for details on input connections. This method is the complement to RemoveInputConnection() in that it adds only the connection specified without affecting other connections. Typical usage is
virtual double ComputePriority ()
 Returns the priority of the piece described by the current update extent. The priority is a number between 0.0 and 1.0 with 0 meaning skippable (REQUEST_DATA not needed) and 1.0 meaning important.
void ConvertTotalInputToPortConnection (int ind, ref int port, ref int conn)
 Convenience routine to convert from a linear ordering of input connections to a port/connection pair.
virtual int GetAbortExecute ()
 Set/Get the AbortExecute flag for the process object. Process objects may handle premature termination of execution in different ways.
virtual uint GetErrorCode ()
 The error code contains a possible error that occured while reading or writing the file.
vtkExecutive GetExecutive ()
 Get this algorithm's executive. If it has none, a default executive will be created.
virtual vtkInformation GetInformation ()
 Set/Get the information object associated with this algorithm.
vtkInformation GetInputArrayInformation (int idx)
 Get the info object for the specified input array to this algorithm
vtkAlgorithmOutput GetInputConnection (int port, int index)
 Get the algorithm output port connected to an input port.
vtkDataObject GetInputDataObject (int port, int connection)
 Get the data object that will contain the algorithm input for the given port and given connection.
vtkInformation GetInputPortInformation (int port)
 Get the information object associated with an input port. There is one input port per kind of input to the algorithm. Each input port tells executives what kind of data and downstream requests this algorithm can handle for that input.
int GetNumberOfInputConnections (int port)
 Get the number of inputs currently connected to a 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.
vtkDataObject GetOutputDataObject (int port)
 Get the data object that will contain the algorithm output for the given port.
vtkAlgorithmOutput GetOutputPort (int index)
 Get a proxy object corresponding to the given output port of this algorithm. The proxy object can be passed to another algorithm's SetInputConnection(), AddInputConnection(), and RemoveInputConnection() methods to modify pipeline connectivity.
vtkAlgorithmOutput GetOutputPort ()
 Get a proxy object corresponding to the given output port of this algorithm. The proxy object can be passed to another algorithm's SetInputConnection(), AddInputConnection(), and RemoveInputConnection() methods to modify pipeline connectivity.
vtkInformation GetOutputPortInformation (int port)
 Get the information object associated with an output port. There is one output port per output from the algorithm. Each output port tells executives what kind of upstream requests this algorithm can handle for that output.
virtual double GetProgress ()
 Set/Get the execution progress of a process object.
virtual double GetProgressMaxValue ()
 Set/Get the execution progress of a process object.
virtual double GetProgressMinValue ()
 Set/Get the execution progress of a process object.
virtual string GetProgressText ()
 Set the current text message associated with the progress state. This may be used by a calling process/GUI. Note: Because SetProgressText() is called from inside RequestData() it does not modify the algorithm object. Algorithms are not allowed to modify themselves from inside RequestData().
virtual int GetReleaseDataFlag ()
 Turn release data flag on or off for all output ports.
int GetTotalNumberOfInputConnections ()
 Get the total number of inputs for this algorithm
int HasExecutive ()
 Check whether this algorithm has an assigned executive. This will NOT create a default executive.
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. The default implementation is empty. Returns 1 on success, 0 on failure. When can be either vtkExecutive::BeforeForward or vtkExecutive::AfterForward.
int ProcessRequest (vtkInformation request, vtkCollection inInfo, vtkInformationVector outInfo)
 Version of ProcessRequest() that is wrapped. This converts the collection to an array and calls the other version.
void ReleaseDataFlagOff ()
 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 RemoveAllInputs ()
 Remove all the input data.
virtual void RemoveInputConnection (int port, vtkAlgorithmOutput input)
 Remove a connection from the given input port index. See SetInputConnection() for details on input connection. This method is the complement to AddInputConnection() in that it removes only the connection specified without affecting other connections. Typical usage is
virtual void SetAbortExecute (int _arg)
 Set/Get the AbortExecute flag for the process object. Process objects may handle premature termination of execution in different ways.
virtual void SetExecutive (vtkExecutive executive)
 Set this algorithm's executive. This algorithm is removed from any executive to which it has previously been assigned and then assigned to the given executive.
virtual void SetInformation (vtkInformation arg0)
 Set/Get the information object associated with this algorithm.
virtual void SetInputArrayToProcess (int idx, int port, int connection, int fieldAssociation, string name)
 Set the input data arrays that this algorithm will process. Specifically the idx array that this algorithm will process (starting from 0) is the array on port, connection with the specified association and name or attribute type (such as SCALARS). The fieldAssociation refers to which field in the data object the array is stored. See vtkDataObject::FieldAssociations for detail.
virtual void SetInputArrayToProcess (int idx, int port, int connection, int fieldAssociation, int fieldAttributeType)
 Set the input data arrays that this algorithm will process. Specifically the idx array that this algorithm will process (starting from 0) is the array on port, connection with the specified association and name or attribute type (such as SCALARS). The fieldAssociation refers to which field in the data object the array is stored. See vtkDataObject::FieldAssociations for detail.
virtual void SetInputArrayToProcess (int idx, vtkInformation info)
 Set the input data arrays that this algorithm will process. Specifically the idx array that this algorithm will process (starting from 0) is the array on port, connection with the specified association and name or attribute type (such as SCALARS). The fieldAssociation refers to which field in the data object the array is stored. See vtkDataObject::FieldAssociations for detail.
virtual void SetInputArrayToProcess (int idx, int port, int connection, string fieldAssociation, string attributeTypeorName)
 String based versions of SetInputArrayToProcess(). Because fieldAssociation and fieldAttributeType are enums, they cannot be easily accessed from scripting language. These methods provides an easy and safe way of passing association and attribute type information. Field association is one of the following:
virtual void SetInputConnection (int port, vtkAlgorithmOutput input)
 Set the connection for the given input port index. Each input port of a filter has a specific purpose. A port may have zero or more connections and the required number is specified by each filter. Setting the connection with this method removes all other connections from the port. To add more than one connection use AddInputConnection().
virtual void SetInputConnection (vtkAlgorithmOutput input)
 Set the connection for the given input port index. Each input port of a filter has a specific purpose. A port may have zero or more connections and the required number is specified by each filter. Setting the connection with this method removes all other connections from the port. To add more than one connection use AddInputConnection().
virtual void SetProgress (double _arg)
 Set/Get the execution progress of a process object.
void SetProgressText (string ptext)
 Set the current text message associated with the progress state. This may be used by a calling process/GUI. Note: Because SetProgressText() is called from inside RequestData() it does not modify the algorithm object. Algorithms are not allowed to modify themselves from inside RequestData().
virtual void SetReleaseDataFlag (int arg0)
 Turn release data flag on or off for all output ports.
virtual void Update ()
 Bring this algorithm's outputs up-to-date.
int UpdateExtentIsEmpty (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. The source uses this call to determine whether to call Execute.
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. The source uses this call to determine whether to call Execute.
virtual void UpdateInformation ()
 Backward compatibility method to invoke UpdateInformation on executive.
void UpdateProgress (double amount)
 Update the progress of the process object. If a ProgressMethod exists, executes it. Then set the Progress ivar to amount. The parameter amount should range between (0,1).
virtual void UpdateWholeExtent ()
 Bring this algorithm's outputs up-to-date.
- Public Member Functions inherited from Kitware.VTK.vtkObject
 vtkObject (IntPtr rawCppThis, bool callDisposalMethod, bool strong)
 Automatically generated constructor - called from generated code. DO NOT call directly.
 vtkObject ()
 Create an object with Debug turned off, modified time initialized to zero, and reference counting on.
uint AddObserver (uint arg0, vtkCommand arg1, float priority)
 This is a global flag that controls whether any debug, warning or error messages are displayed.
uint AddObserver (string arg0, vtkCommand arg1, float priority)
 This is a global flag that controls whether any debug, warning or error messages are displayed.
virtual void DebugOff ()
 Turn debugging output off.
virtual void DebugOn ()
 Turn debugging output on.
vtkCommand GetCommand (uint tag)
 This is a global flag that controls whether any debug, warning or error messages are displayed.
byte GetDebug ()
 Get the value of the debug flag.
virtual uint GetMTime ()
 Return this object's modified time.
int HasObserver (uint arg0, vtkCommand arg1)
 This is a global flag that controls whether any debug, warning or error messages are displayed.
int HasObserver (string arg0, vtkCommand arg1)
 This is a global flag that controls whether any debug, warning or error messages are displayed.
int HasObserver (uint arg0)
 This is a global flag that controls whether any debug, warning or error messages are displayed.
int HasObserver (string arg0)
 This is a global flag that controls whether any debug, warning or error messages are displayed.
int InvokeEvent (uint arg0, IntPtr callData)
 This is a global flag that controls whether any debug, warning or error messages are displayed.
int InvokeEvent (string arg0, IntPtr callData)
 This is a global flag that controls whether any debug, warning or error messages are displayed.
int InvokeEvent (uint arg0)
 This is a global flag that controls whether any debug, warning or error messages are displayed.
int InvokeEvent (string arg0)
 This is a global flag that controls whether any debug, warning or error messages are displayed.
virtual void Modified ()
 Update the modification time for this object. Many filters rely on the modification time to determine if they need to recompute their data. The modification time is a unique monotonically increasing unsigned long integer.
void RemoveAllObservers ()
 This is a global flag that controls whether any debug, warning or error messages are displayed.
void RemoveObserver (vtkCommand arg0)
 This is a global flag that controls whether any debug, warning or error messages are displayed.
void RemoveObserver (uint tag)
 This is a global flag that controls whether any debug, warning or error messages are displayed.
void RemoveObservers (uint arg0, vtkCommand arg1)
 This is a global flag that controls whether any debug, warning or error messages are displayed.
void RemoveObservers (string arg0, vtkCommand arg1)
 This is a global flag that controls whether any debug, warning or error messages are displayed.
void RemoveObservers (uint arg0)
 This is a global flag that controls whether any debug, warning or error messages are displayed.
void RemoveObservers (string arg0)
 This is a global flag that controls whether any debug, warning or error messages are displayed.
void SetDebug (byte debugFlag)
 Set the value of the debug flag. A non-zero value turns debugging on.
override string ToString ()
 Returns the result of calling vtkObject::Print as a C# string.
delegate void vtkObjectEventHandler (vtkObject sender, vtkObjectEventArgs e)
 Generic signature for all vtkObject events.
void RemoveAllHandlersForAllEvents ()
 Call RemoveAllHandlers on each non-null vtkObjectEventRelay. TODO: This method needs to get called by the generated Dispose. Make that happen...
- Public Member Functions inherited from Kitware.VTK.vtkObjectBase
 vtkObjectBase (IntPtr rawCppThis, bool callDisposalMethod, bool strong)
 Automatically generated constructor - called from generated code. DO NOT call directly.
 vtkObjectBase ()
 Create an object with Debug turned off, modified time initialized to zero, and reference counting on.
virtual void FastDelete ()
 Delete a reference to this object. This version will not invoke garbage collection and can potentially leak the object if it is part of a reference loop. Use this method only when it is known that the object has another reference and would not be collected if a full garbage collection check were done.
string GetClassName ()
 Return the class name as a string. This method is defined in all subclasses of vtkObjectBase with the vtkTypeMacro found in vtkSetGet.h.
int GetReferenceCount ()
 Return the current reference count of this object.
void SetReferenceCount (int arg0)
 Sets the reference count. (This is very dangerous, use with care.)

Static Public Member Functions

static new vtkGenericStreamTracer New ()
 Construct object to start from position (0,0,0), integrate forward, terminal speed 1.0E-12, vorticity computation on, integration step length 0.5 (unit cell length), maximum number of steps 2000, using 2nd order Runge Kutta and maximum propagation 1.0 (unit length).
static new int IsTypeOf (string type)
 Undocumented Block
static new vtkGenericStreamTracer SafeDownCast (vtkObjectBase o)
 Undocumented Block

Public Attributes

new const string MRFullTypeName = "Kitware.VTK.vtkGenericStreamTracer"
 Automatically generated type registration mechanics.
- Public Attributes inherited from Kitware.VTK.vtkPolyDataAlgorithm
new const string MRFullTypeName = "Kitware.VTK.vtkPolyDataAlgorithm"
 Automatically generated type registration mechanics.
- Public Attributes inherited from Kitware.VTK.vtkAlgorithm
new const string MRFullTypeName = "Kitware.VTK.vtkAlgorithm"
 Automatically generated type registration mechanics.
- Public Attributes inherited from Kitware.VTK.vtkObject
new const string MRFullTypeName = "Kitware.VTK.vtkObject"
 Automatically generated type registration mechanics.
- Public Attributes inherited from Kitware.VTK.vtkObjectBase
new const string MRFullTypeName = "Kitware.VTK.vtkObjectBase"
 Automatically generated type registration mechanics.
- Public Attributes inherited from Kitware.VTK.WrappedObject
const string vtkChartsEL_dll = "libKitware.VTK.vtkCharts.Unmanaged.so"
 Export layer functions for 'vtkCharts' are exported from the DLL named by the value of this variable.
const string vtkCommonEL_dll = "libKitware.VTK.vtkCommon.Unmanaged.so"
 Export layer functions for 'vtkCommon' are exported from the DLL named by the value of this variable.
const string vtkFilteringEL_dll = "libKitware.VTK.vtkFiltering.Unmanaged.so"
 Export layer functions for 'vtkFiltering' are exported from the DLL named by the value of this variable.
const string vtkGenericFilteringEL_dll = "libKitware.VTK.vtkGenericFiltering.Unmanaged.so"
 Export layer functions for 'vtkGenericFiltering' are exported from the DLL named by the value of this variable.
const string vtkGeovisEL_dll = "libKitware.VTK.vtkGeovis.Unmanaged.so"
 Export layer functions for 'vtkGeovis' are exported from the DLL named by the value of this variable.
const string vtkGraphicsEL_dll = "libKitware.VTK.vtkGraphics.Unmanaged.so"
 Export layer functions for 'vtkGraphics' are exported from the DLL named by the value of this variable.
const string vtkHybridEL_dll = "libKitware.VTK.vtkHybrid.Unmanaged.so"
 Export layer functions for 'vtkHybrid' are exported from the DLL named by the value of this variable.
const string vtkIOEL_dll = "libKitware.VTK.vtkIO.Unmanaged.so"
 Export layer functions for 'vtkIO' are exported from the DLL named by the value of this variable.
const string vtkImagingEL_dll = "libKitware.VTK.vtkImaging.Unmanaged.so"
 Export layer functions for 'vtkImaging' are exported from the DLL named by the value of this variable.
const string vtkInfovisEL_dll = "libKitware.VTK.vtkInfovis.Unmanaged.so"
 Export layer functions for 'vtkInfovis' are exported from the DLL named by the value of this variable.
const string vtkParallelEL_dll = "libKitware.VTK.vtkParallel.Unmanaged.so"
 Export layer functions for 'vtkParallel' are exported from the DLL named by the value of this variable.
const string vtkRenderingEL_dll = "libKitware.VTK.vtkRendering.Unmanaged.so"
 Export layer functions for 'vtkRendering' are exported from the DLL named by the value of this variable.
const string vtkViewsEL_dll = "libKitware.VTK.vtkViews.Unmanaged.so"
 Export layer functions for 'vtkViews' are exported from the DLL named by the value of this variable.
const string vtkVolumeRenderingEL_dll = "libKitware.VTK.vtkVolumeRendering.Unmanaged.so"
 Export layer functions for 'vtkVolumeRendering' are exported from the DLL named by the value of this variable.
const string vtkWidgetsEL_dll = "libKitware.VTK.vtkWidgets.Unmanaged.so"
 Export layer functions for 'vtkWidgets' are exported from the DLL named by the value of this variable.

Static Public Attributes

static new readonly string MRClassNameKey = "22vtkGenericStreamTracer"
 Automatically generated type registration mechanics.
- Static Public Attributes inherited from Kitware.VTK.vtkPolyDataAlgorithm
static new readonly string MRClassNameKey = "20vtkPolyDataAlgorithm"
 Automatically generated type registration mechanics.
- Static Public Attributes inherited from Kitware.VTK.vtkAlgorithm
static new readonly string MRClassNameKey = "12vtkAlgorithm"
 Automatically generated type registration mechanics.
- Static Public Attributes inherited from Kitware.VTK.vtkObject
static new readonly string MRClassNameKey = "9vtkObject"
 Automatically generated type registration mechanics.
- Static Public Attributes inherited from Kitware.VTK.vtkObjectBase
static new readonly string MRClassNameKey = "13vtkObjectBase"
 Automatically generated type registration mechanics.

Protected Member Functions

override void Dispose (bool disposing)
 Automatically generated protected Dispose method - called from public Dispose or the C# destructor. DO NOT call directly.

Static Private Member Functions

static vtkGenericStreamTracer ()
 Automatically generated type registration mechanics.

Additional Inherited Members

- Properties inherited from Kitware.VTK.vtkObject
Kitware.VTK.vtkObject.vtkObjectEventHandler AbortCheckEvt
 The AbortCheckEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.AbortCheckEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler AnimationCueTickEvt
 The AnimationCueTickEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.AnimationCueTickEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler AnyEvt
 The AnyEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.AnyEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler CharEvt
 The CharEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.CharEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler ConfigureEvt
 The ConfigureEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.ConfigureEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler ConnectionClosedEvt
 The ConnectionClosedEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.ConnectionClosedEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler ConnectionCreatedEvt
 The ConnectionCreatedEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.ConnectionCreatedEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler CreateTimerEvt
 The CreateTimerEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.CreateTimerEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler CursorChangedEvt
 The CursorChangedEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.CursorChangedEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler DeleteEvt
 The DeleteEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.DeleteEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler DestroyTimerEvt
 The DestroyTimerEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.DestroyTimerEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler DisableEvt
 The DisableEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.DisableEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler DomainModifiedEvt
 The DomainModifiedEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.DomainModifiedEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler EnableEvt
 The EnableEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.EnableEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler EndAnimationCueEvt
 The EndAnimationCueEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.EndAnimationCueEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler EndEvt
 The EndEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.EndEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler EndInteractionEvt
 The EndInteractionEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.EndInteractionEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler EndPickEvt
 The EndPickEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.EndPickEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler EndWindowLevelEvt
 The EndWindowLevelEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.EndWindowLevelEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler EnterEvt
 The EnterEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.EnterEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler ErrorEvt
 The ErrorEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.ErrorEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler ExecuteInformationEvt
 The ExecuteInformationEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.ExecuteInformationEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler ExitEvt
 The ExitEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.ExitEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler ExposeEvt
 The ExposeEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.ExposeEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler InteractionEvt
 The InteractionEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.InteractionEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler KeyPressEvt
 The KeyPressEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.KeyPressEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler KeyReleaseEvt
 The KeyReleaseEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.KeyReleaseEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler LeaveEvt
 The LeaveEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.LeaveEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler LeftButtonPressEvt
 The LeftButtonPressEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.LeftButtonPressEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler LeftButtonReleaseEvt
 The LeftButtonReleaseEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.LeftButtonReleaseEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler MiddleButtonPressEvt
 The MiddleButtonPressEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.MiddleButtonPressEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler MiddleButtonReleaseEvt
 The MiddleButtonReleaseEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.MiddleButtonReleaseEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler ModifiedEvt
 The ModifiedEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.ModifiedEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler MouseMoveEvt
 The MouseMoveEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.MouseMoveEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler MouseWheelBackwardEvt
 The MouseWheelBackwardEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.MouseWheelBackwardEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler MouseWheelForwardEvt
 The MouseWheelForwardEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.MouseWheelForwardEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler PickEvt
 The PickEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.PickEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler PlacePointEvt
 The PlacePointEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.PlacePointEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler PlaceWidgetEvt
 The PlaceWidgetEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.PlaceWidgetEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler ProgressEvt
 The ProgressEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.ProgressEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler PropertyModifiedEvt
 The PropertyModifiedEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.PropertyModifiedEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler RegisterEvt
 The RegisterEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.RegisterEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler RenderEvt
 The RenderEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.RenderEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler RenderWindowMessageEvt
 The RenderWindowMessageEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.RenderWindowMessageEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler ResetCameraClippingRangeEvt
 The ResetCameraClippingRangeEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.ResetCameraClippingRangeEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler ResetCameraEvt
 The ResetCameraEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.ResetCameraEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler ResetWindowLevelEvt
 The ResetWindowLevelEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.ResetWindowLevelEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler RightButtonPressEvt
 The RightButtonPressEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.RightButtonPressEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler RightButtonReleaseEvt
 The RightButtonReleaseEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.RightButtonReleaseEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler SelectionChangedEvt
 The SelectionChangedEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.SelectionChangedEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler SetOutputEvt
 The SetOutputEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.SetOutputEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler StartAnimationCueEvt
 The StartAnimationCueEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.StartAnimationCueEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler StartEvt
 The StartEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.StartEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler StartInteractionEvt
 The StartInteractionEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.StartInteractionEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler StartPickEvt
 The StartPickEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.StartPickEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler StartWindowLevelEvt
 The StartWindowLevelEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.StartWindowLevelEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler TimerEvt
 The TimerEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.TimerEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler UnRegisterEvt
 The UnRegisterEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.UnRegisterEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler UpdateEvt
 The UpdateEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.UpdateEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler UpdateInformationEvt
 The UpdateInformationEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.UpdateInformationEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler UpdatePropertyEvt
 The UpdatePropertyEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.UpdatePropertyEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler VolumeMapperComputeGradientsEndEvt
 The VolumeMapperComputeGradientsEndEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.VolumeMapperComputeGradientsEndEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler VolumeMapperComputeGradientsProgressEvt
 The VolumeMapperComputeGradientsProgressEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.VolumeMapperComputeGradientsProgressEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler VolumeMapperComputeGradientsStartEvt
 The VolumeMapperComputeGradientsStartEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.VolumeMapperComputeGradientsStartEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler VolumeMapperRenderEndEvt
 The VolumeMapperRenderEndEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.VolumeMapperRenderEndEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler VolumeMapperRenderProgressEvt
 The VolumeMapperRenderProgressEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.VolumeMapperRenderProgressEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler VolumeMapperRenderStartEvt
 The VolumeMapperRenderStartEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.VolumeMapperRenderStartEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler WarningEvt
 The WarningEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.WarningEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler WidgetActivateEvt
 The WidgetActivateEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.WidgetActivateEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler WidgetModifiedEvt
 The WidgetModifiedEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.WidgetModifiedEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler WidgetValueChangedEvt
 The WidgetValueChangedEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.WidgetValueChangedEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler WindowLevelEvt
 The WindowLevelEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.WindowLevelEvent as the eventId parameter.
Kitware.VTK.vtkObject.vtkObjectEventHandler WrongTagEvt
 The WrongTagEvt event is invoked when the sender's InvokeEvent method is called with vtkCommand.EventIds.WrongTagEvent as the eventId parameter.

Detailed Description

vtkGenericStreamTracer - Streamline generator

Description vtkGenericStreamTracer is a filter that integrates a vector field to generate streamlines. The integration is performed using the provided integrator. The default is second order Runge-Kutta.

vtkGenericStreamTracer generate polylines as output. Each cell (polyline) corresponds to one streamline. The values associated with each streamline are stored in the cell data whereas the values associated with points are stored in point data.

Note that vtkGenericStreamTracer can integrate both forward and backward. The length of the streamline is controlled by specifying either a maximum value in the units of length, cell length or elapsed time (the elapsed time is the time each particle would have traveled if flow were steady). Otherwise, the integration terminates after exiting the dataset or if the particle speed is reduced to a value less than the terminal speed or when a maximum number of steps is reached. The reason for the termination is stored in a cell array named ReasonForTermination.

The quality of integration can be controlled by setting integration step (InitialIntegrationStep) and in the case of adaptive solvers the maximum error, the minimum integration step and the maximum integration step. All of these can have units of length, cell length or elapsed time.

The integration time, vorticity, rotation and angular velocity are stored in point arrays named "IntegrationTime", "Vorticity", "Rotation" and "AngularVelocity" respectively (vorticity, rotation and angular velocity are computed only when ComputeVorticity is on). All point attributes in the source data set are interpolated on the new streamline points.

vtkGenericStreamTracer integrates through any type of dataset. As a result, if the dataset contains 2D cells such as polygons or triangles, the integration is constrained to lie on the surface defined by the 2D cells.

The starting point of traces may be defined in two different ways. Starting from global x-y-z "position" allows you to start a single trace at a specified x-y-z coordinate. If you specify a source object, a trace will be generated for each point in the source that is inside the dataset.

vtkRibbonFilter vtkRuledSurfaceFilter vtkInitialValueProblemSolver vtkRungeKutta2 vtkRungeKutta4 vtkRungeKutta45

Member Enumeration Documentation

Description If at any point, the speed is below this value, the integration is terminated.

Enumerator:
BACKWARD 

enum member

BOTH 

enum member

FORWARD 

enum member

Specify the source object used to generate starting points.

Enumerator:
NOT_INITIALIZED 

enum member

OUT_OF_DOMAIN 

enum member

OUT_OF_STEPS 

enum member

OUT_OF_TIME 

enum member

STAGNATION 

enum member

UNEXPECTED_VALUE 

enum member

Specify the source object used to generate starting points.

Enumerator:
NONE 

enum member

RUNGE_KUTTA2 

enum member

RUNGE_KUTTA4 

enum member

RUNGE_KUTTA45 

enum member

UNKNOWN 

enum member

Specify the source object used to generate starting points.

Enumerator:
CELL_LENGTH_UNIT 

enum member

LENGTH_UNIT 

enum member

TIME_UNIT 

enum member

Constructor & Destructor Documentation

static Kitware.VTK.vtkGenericStreamTracer.vtkGenericStreamTracer ( )
staticprivate

Automatically generated type registration mechanics.

Kitware.VTK.vtkGenericStreamTracer.vtkGenericStreamTracer ( IntPtr  rawCppThis,
bool  callDisposalMethod,
bool  strong 
)

Automatically generated constructor - called from generated code. DO NOT call directly.

Kitware.VTK.vtkGenericStreamTracer.vtkGenericStreamTracer ( )

Construct object to start from position (0,0,0), integrate forward, terminal speed 1.0E-12, vorticity computation on, integration step length 0.5 (unit cell length), maximum number of steps 2000, using 2nd order Runge Kutta and maximum propagation 1.0 (unit length).

Member Function Documentation

void Kitware.VTK.vtkGenericStreamTracer.AddInput ( vtkGenericDataSet  arg0)

Add a dataset to the list inputs

virtual void Kitware.VTK.vtkGenericStreamTracer.ComputeVorticityOff ( )
virtual

Description Turn on/off calculation of vorticity at streamline points (necessary for generating proper streamribbons using the vtkRibbonFilter.

virtual void Kitware.VTK.vtkGenericStreamTracer.ComputeVorticityOn ( )
virtual

Description Turn on/off calculation of vorticity at streamline points (necessary for generating proper streamribbons using the vtkRibbonFilter.

override void Kitware.VTK.vtkGenericStreamTracer.Dispose ( bool  disposing)
protected

Automatically generated protected Dispose method - called from public Dispose or the C# destructor. DO NOT call directly.

Reimplemented from Kitware.VTK.vtkPolyDataAlgorithm.

virtual int Kitware.VTK.vtkGenericStreamTracer.FillInputPortInformation ( int  port,
vtkInformation  info 
)
virtual

Specify the source object used to generate starting points.

virtual int Kitware.VTK.vtkGenericStreamTracer.GetComputeVorticity ( )
virtual

Description Turn on/off calculation of vorticity at streamline points (necessary for generating proper streamribbons using the vtkRibbonFilter.

double Kitware.VTK.vtkGenericStreamTracer.GetInitialIntegrationStep ( )

Specify the initial step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 If the integrator is not adaptive, this is the actual step used.

int Kitware.VTK.vtkGenericStreamTracer.GetInitialIntegrationStepUnit ( )

Specify the initial step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 If the integrator is not adaptive, this is the actual step used.

virtual string Kitware.VTK.vtkGenericStreamTracer.GetInputVectorsSelection ( )
virtual

If you want to generate traces using an arbitrary vector array, then set its name here. By default this in NULL and the filter will use the active vector array.

virtual int Kitware.VTK.vtkGenericStreamTracer.GetIntegrationDirection ( )
virtual

Specify whether the streamtrace will be generated in the upstream or downstream direction.

virtual int Kitware.VTK.vtkGenericStreamTracer.GetIntegrationDirectionMaxValue ( )
virtual

Specify whether the streamtrace will be generated in the upstream or downstream direction.

virtual int Kitware.VTK.vtkGenericStreamTracer.GetIntegrationDirectionMinValue ( )
virtual

Specify whether the streamtrace will be generated in the upstream or downstream direction.

virtual vtkInitialValueProblemSolver Kitware.VTK.vtkGenericStreamTracer.GetIntegrator ( )
virtual

Set/get the integrator type to be used in the stream line calculation. The object passed is not actually used but is cloned with NewInstance in the process of integration (prototype pattern). The default is 2nd order Runge Kutta. The integrator can also be changed using SetIntegratorType. The recognized solvers are: RUNGE_KUTTA2 = 0 RUNGE_KUTTA4 = 1 RUNGE_KUTTA45 = 2

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int Kitware.VTK.vtkGenericStreamTracer.GetIntegratorType ( )

Set/get the integrator type to be used in the stream line calculation. The object passed is not actually used but is cloned with NewInstance in the process of integration (prototype pattern). The default is 2nd order Runge Kutta. The integrator can also be changed using SetIntegratorType. The recognized solvers are: RUNGE_KUTTA2 = 0 RUNGE_KUTTA4 = 1 RUNGE_KUTTA45 = 2

virtual double Kitware.VTK.vtkGenericStreamTracer.GetMaximumError ( )
virtual

Description Specify the maximum error in the integration. This value is passed to the integrator. Therefore, it's meaning depends on the integrator used.

double Kitware.VTK.vtkGenericStreamTracer.GetMaximumIntegrationStep ( )

Specify the maximum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.

int Kitware.VTK.vtkGenericStreamTracer.GetMaximumIntegrationStepUnit ( )

Specify the maximum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.

virtual long Kitware.VTK.vtkGenericStreamTracer.GetMaximumNumberOfSteps ( )
virtual

Description Specify the maximum number of steps used in the integration.

double Kitware.VTK.vtkGenericStreamTracer.GetMaximumPropagation ( )

Specify the maximum length of the streamlines expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2

int Kitware.VTK.vtkGenericStreamTracer.GetMaximumPropagationUnit ( )

Specify the maximum length of the streamlines expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2

double Kitware.VTK.vtkGenericStreamTracer.GetMinimumIntegrationStep ( )

Specify the minimum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.

int Kitware.VTK.vtkGenericStreamTracer.GetMinimumIntegrationStepUnit ( )

Specify the minimum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.

virtual double Kitware.VTK.vtkGenericStreamTracer.GetRotationScale ( )
virtual

Description This can be used to scale the rate with which the streamribbons twist. The default is 1.

vtkDataSet Kitware.VTK.vtkGenericStreamTracer.GetSource ( )

Specify the source object used to generate starting points.

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virtual double [] Kitware.VTK.vtkGenericStreamTracer.GetStartPosition ( )
virtual

Specify the start of the streamline in the global coordinate system. Search must be performed to find initial cell to start integration from.

virtual void Kitware.VTK.vtkGenericStreamTracer.GetStartPosition ( ref double  _arg1,
ref double  _arg2,
ref double  _arg3 
)
virtual

Specify the start of the streamline in the global coordinate system. Search must be performed to find initial cell to start integration from.

virtual void Kitware.VTK.vtkGenericStreamTracer.GetStartPosition ( IntPtr  _arg)
virtual

Specify the start of the streamline in the global coordinate system. Search must be performed to find initial cell to start integration from.

virtual double Kitware.VTK.vtkGenericStreamTracer.GetTerminalSpeed ( )
virtual

Description If at any point, the speed is below this value, the integration is terminated.

override int Kitware.VTK.vtkGenericStreamTracer.IsA ( string  type)
virtual

Undocumented Block

Reimplemented from Kitware.VTK.vtkPolyDataAlgorithm.

static new int Kitware.VTK.vtkGenericStreamTracer.IsTypeOf ( string  type)
static

Undocumented Block

Reimplemented from Kitware.VTK.vtkPolyDataAlgorithm.

static new vtkGenericStreamTracer Kitware.VTK.vtkGenericStreamTracer.New ( )
static

Construct object to start from position (0,0,0), integrate forward, terminal speed 1.0E-12, vorticity computation on, integration step length 0.5 (unit cell length), maximum number of steps 2000, using 2nd order Runge Kutta and maximum propagation 1.0 (unit length).

Reimplemented from Kitware.VTK.vtkPolyDataAlgorithm.

new vtkGenericStreamTracer Kitware.VTK.vtkGenericStreamTracer.NewInstance ( )

Undocumented Block

Reimplemented from Kitware.VTK.vtkPolyDataAlgorithm.

static new vtkGenericStreamTracer Kitware.VTK.vtkGenericStreamTracer.SafeDownCast ( vtkObjectBase  o)
static

Undocumented Block

Reimplemented from Kitware.VTK.vtkPolyDataAlgorithm.

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void Kitware.VTK.vtkGenericStreamTracer.SelectInputVectors ( string  fieldName)

If you want to generate traces using an arbitrary vector array, then set its name here. By default this in NULL and the filter will use the active vector array.

virtual void Kitware.VTK.vtkGenericStreamTracer.SetComputeVorticity ( int  _arg)
virtual

Description Turn on/off calculation of vorticity at streamline points (necessary for generating proper streamribbons using the vtkRibbonFilter.

void Kitware.VTK.vtkGenericStreamTracer.SetInitialIntegrationStep ( int  unit,
double  step 
)

Specify the initial step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 If the integrator is not adaptive, this is the actual step used.

void Kitware.VTK.vtkGenericStreamTracer.SetInitialIntegrationStep ( double  step)

Specify the initial step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 If the integrator is not adaptive, this is the actual step used.

void Kitware.VTK.vtkGenericStreamTracer.SetInitialIntegrationStepUnit ( int  unit)

Specify the initial step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 If the integrator is not adaptive, this is the actual step used.

void Kitware.VTK.vtkGenericStreamTracer.SetInitialIntegrationStepUnitToCellLengthUnit ( )

Specify the initial step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 If the integrator is not adaptive, this is the actual step used.

void Kitware.VTK.vtkGenericStreamTracer.SetInitialIntegrationStepUnitToLengthUnit ( )

Specify the initial step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 If the integrator is not adaptive, this is the actual step used.

void Kitware.VTK.vtkGenericStreamTracer.SetInitialIntegrationStepUnitToTimeUnit ( )

Specify the initial step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 If the integrator is not adaptive, this is the actual step used.

virtual void Kitware.VTK.vtkGenericStreamTracer.SetIntegrationDirection ( int  _arg)
virtual

Specify whether the streamtrace will be generated in the upstream or downstream direction.

void Kitware.VTK.vtkGenericStreamTracer.SetIntegrationDirectionToBackward ( )

Specify whether the streamtrace will be generated in the upstream or downstream direction.

void Kitware.VTK.vtkGenericStreamTracer.SetIntegrationDirectionToBoth ( )

Specify whether the streamtrace will be generated in the upstream or downstream direction.

void Kitware.VTK.vtkGenericStreamTracer.SetIntegrationDirectionToForward ( )

Specify whether the streamtrace will be generated in the upstream or downstream direction.

void Kitware.VTK.vtkGenericStreamTracer.SetIntegrator ( vtkInitialValueProblemSolver  arg0)

Set/get the integrator type to be used in the stream line calculation. The object passed is not actually used but is cloned with NewInstance in the process of integration (prototype pattern). The default is 2nd order Runge Kutta. The integrator can also be changed using SetIntegratorType. The recognized solvers are: RUNGE_KUTTA2 = 0 RUNGE_KUTTA4 = 1 RUNGE_KUTTA45 = 2

void Kitware.VTK.vtkGenericStreamTracer.SetIntegratorType ( int  type)

Set/get the integrator type to be used in the stream line calculation. The object passed is not actually used but is cloned with NewInstance in the process of integration (prototype pattern). The default is 2nd order Runge Kutta. The integrator can also be changed using SetIntegratorType. The recognized solvers are: RUNGE_KUTTA2 = 0 RUNGE_KUTTA4 = 1 RUNGE_KUTTA45 = 2

void Kitware.VTK.vtkGenericStreamTracer.SetIntegratorTypeToRungeKutta2 ( )

Set/get the integrator type to be used in the stream line calculation. The object passed is not actually used but is cloned with NewInstance in the process of integration (prototype pattern). The default is 2nd order Runge Kutta. The integrator can also be changed using SetIntegratorType. The recognized solvers are: RUNGE_KUTTA2 = 0 RUNGE_KUTTA4 = 1 RUNGE_KUTTA45 = 2

void Kitware.VTK.vtkGenericStreamTracer.SetIntegratorTypeToRungeKutta4 ( )

Set/get the integrator type to be used in the stream line calculation. The object passed is not actually used but is cloned with NewInstance in the process of integration (prototype pattern). The default is 2nd order Runge Kutta. The integrator can also be changed using SetIntegratorType. The recognized solvers are: RUNGE_KUTTA2 = 0 RUNGE_KUTTA4 = 1 RUNGE_KUTTA45 = 2

void Kitware.VTK.vtkGenericStreamTracer.SetIntegratorTypeToRungeKutta45 ( )

Set/get the integrator type to be used in the stream line calculation. The object passed is not actually used but is cloned with NewInstance in the process of integration (prototype pattern). The default is 2nd order Runge Kutta. The integrator can also be changed using SetIntegratorType. The recognized solvers are: RUNGE_KUTTA2 = 0 RUNGE_KUTTA4 = 1 RUNGE_KUTTA45 = 2

void Kitware.VTK.vtkGenericStreamTracer.SetInterpolatorPrototype ( vtkGenericInterpolatedVelocityField  ivf)

The object used to interpolate the velocity field during integration is of the same class as this prototype.

virtual void Kitware.VTK.vtkGenericStreamTracer.SetMaximumError ( double  _arg)
virtual

Description Specify the maximum error in the integration. This value is passed to the integrator. Therefore, it's meaning depends on the integrator used.

void Kitware.VTK.vtkGenericStreamTracer.SetMaximumIntegrationStep ( int  unit,
double  step 
)

Specify the maximum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.

void Kitware.VTK.vtkGenericStreamTracer.SetMaximumIntegrationStep ( double  step)

Specify the maximum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.

void Kitware.VTK.vtkGenericStreamTracer.SetMaximumIntegrationStepUnit ( int  unit)

Specify the maximum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.

void Kitware.VTK.vtkGenericStreamTracer.SetMaximumIntegrationStepUnitToCellLengthUnit ( )

Specify the maximum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.

void Kitware.VTK.vtkGenericStreamTracer.SetMaximumIntegrationStepUnitToLengthUnit ( )

Specify the maximum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.

void Kitware.VTK.vtkGenericStreamTracer.SetMaximumIntegrationStepUnitToTimeUnit ( )

Specify the maximum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.

virtual void Kitware.VTK.vtkGenericStreamTracer.SetMaximumNumberOfSteps ( long  _arg)
virtual

Description Specify the maximum number of steps used in the integration.

void Kitware.VTK.vtkGenericStreamTracer.SetMaximumPropagation ( int  unit,
double  max 
)

Specify the maximum length of the streamlines expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2

void Kitware.VTK.vtkGenericStreamTracer.SetMaximumPropagation ( double  max)

Specify the maximum length of the streamlines expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2

void Kitware.VTK.vtkGenericStreamTracer.SetMaximumPropagationUnit ( int  unit)

Specify the maximum length of the streamlines expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2

void Kitware.VTK.vtkGenericStreamTracer.SetMaximumPropagationUnitToCellLengthUnit ( )

Specify the maximum length of the streamlines expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2

void Kitware.VTK.vtkGenericStreamTracer.SetMaximumPropagationUnitToLengthUnit ( )

Specify the maximum length of the streamlines expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2

void Kitware.VTK.vtkGenericStreamTracer.SetMaximumPropagationUnitToTimeUnit ( )

Specify the maximum length of the streamlines expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2

void Kitware.VTK.vtkGenericStreamTracer.SetMinimumIntegrationStep ( int  unit,
double  step 
)

Specify the minimum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.

void Kitware.VTK.vtkGenericStreamTracer.SetMinimumIntegrationStep ( double  step)

Specify the minimum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.

void Kitware.VTK.vtkGenericStreamTracer.SetMinimumIntegrationStepUnit ( int  unit)

Specify the minimum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.

void Kitware.VTK.vtkGenericStreamTracer.SetMinimumIntegrationStepUnitToCellLengthUnit ( )

Specify the minimum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.

void Kitware.VTK.vtkGenericStreamTracer.SetMinimumIntegrationStepUnitToLengthUnit ( )

Specify the minimum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.

void Kitware.VTK.vtkGenericStreamTracer.SetMinimumIntegrationStepUnitToTimeUnit ( )

Specify the minimum step used in the integration expressed in one of the: TIME_UNIT = 0 LENGTH_UNIT = 1 CELL_LENGTH_UNIT = 2 Only valid when using adaptive integrators.

virtual void Kitware.VTK.vtkGenericStreamTracer.SetRotationScale ( double  _arg)
virtual

Description This can be used to scale the rate with which the streamribbons twist. The default is 1.

void Kitware.VTK.vtkGenericStreamTracer.SetSource ( vtkDataSet  source)

Specify the source object used to generate starting points.

virtual void Kitware.VTK.vtkGenericStreamTracer.SetStartPosition ( double  _arg1,
double  _arg2,
double  _arg3 
)
virtual

Specify the start of the streamline in the global coordinate system. Search must be performed to find initial cell to start integration from.

virtual void Kitware.VTK.vtkGenericStreamTracer.SetStartPosition ( IntPtr  _arg)
virtual

Specify the start of the streamline in the global coordinate system. Search must be performed to find initial cell to start integration from.

virtual void Kitware.VTK.vtkGenericStreamTracer.SetTerminalSpeed ( double  _arg)
virtual

Description If at any point, the speed is below this value, the integration is terminated.

Member Data Documentation

new readonly string Kitware.VTK.vtkGenericStreamTracer.MRClassNameKey = "22vtkGenericStreamTracer"
static

Automatically generated type registration mechanics.

new const string Kitware.VTK.vtkGenericStreamTracer.MRFullTypeName = "Kitware.VTK.vtkGenericStreamTracer"

Automatically generated type registration mechanics.


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