ActiViz .NET
5.8.0
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vtkDistributedDataFilter - Distribute data among processors More...
Public Types | |
enum | BoundaryModes { ASSIGN_TO_ALL_INTERSECTING_REGIONS = 1, ASSIGN_TO_ONE_REGION = 0, SPLIT_BOUNDARY_CELLS = 2 } |
Set this variable if you want the cells of the output vtkUnstructuredGrid to be clipped to the spatial region boundaries. By default this is off. More... |
Public Member Functions | |
vtkDistributedDataFilter (IntPtr rawCppThis, bool callDisposalMethod, bool strong) | |
Automatically generated constructor - called from generated code. DO NOT call directly. | |
vtkDistributedDataFilter () | |
Undocumented Block | |
virtual void | ClipCellsOff () |
Set this variable if you want the cells of the output vtkUnstructuredGrid to be clipped to the spatial region boundaries. By default this is off. | |
virtual void | ClipCellsOn () |
Set this variable if you want the cells of the output vtkUnstructuredGrid to be clipped to the spatial region boundaries. By default this is off. | |
int | GetBoundaryMode () |
Handling of ClipCells and IncludeAllIntersectingCells. | |
virtual int | GetClipCells () |
Set this variable if you want the cells of the output vtkUnstructuredGrid to be clipped to the spatial region boundaries. By default this is off. | |
virtual vtkMultiProcessController | GetController () |
Set/Get the communicator object | |
vtkBSPCuts | GetCuts () |
You can set the k-d tree decomposition, rather than have D3 compute it. This allows you to divide a dataset using the decomposition computed for another dataset. Obtain a description of the k-d tree cuts this way: | |
virtual int | GetIncludeAllIntersectingCells () |
Each cell in the data set is associated with one of the spatial regions of the k-d tree decomposition. In particular, the cell belongs to the region that it's centroid lies in. When the new vtkUnstructuredGrid is created, by default it is composed of the cells associated with the region(s) assigned to this process. If you also want it to contain cells that intersect these regions, but have their centroid elsewhere, then set this variable on. By default it is off. | |
vtkPKdTree | GetKdtree () |
Get a pointer to the parallel k-d tree object. Required for changing default behavior for region assignment, changing default depth of tree, or other tree building default parameters. See vtkPKdTree and vtkKdTree for more information about these options. NOTE: Changing the tree returned by this method does NOT change the d3 filter. Make sure to call Modified() on the d3 object if you want it to re-execute. | |
virtual int | GetRetainKdtree () |
When this filter executes, it creates a vtkPKdTree (K-d tree) data structure in parallel which divides the total distributed data set into spatial regions. The K-d tree object also creates tables describing which processes have data for which regions. Only then does this filter redistribute the data according to the region assignment scheme. By default, the K-d tree structure and it's associated tables are deleted after the filter executes. If you anticipate changing only the region assignment scheme (input is unchanged) and explicitly re-executing, then RetainKdTreeOn, and the K-d tree structure and tables will be saved. Then, when you re-execute, this filter will skip the k-d tree build phase and go straight to redistributing the data according to region assignment. See vtkPKdTree for more information about region assignment. | |
virtual int | GetTiming () |
Turn on collection of timing data | |
virtual int | GetUseMinimalMemory () |
This class does a great deal of all-to-all communication when exchanging portions of data sets and building new sub grids. By default it will do fast communication. It can instead use communication routines that use the least possible amount of memory, but these are slower. Set this option ON to choose these latter routines. | |
virtual void | IncludeAllIntersectingCellsOff () |
Each cell in the data set is associated with one of the spatial regions of the k-d tree decomposition. In particular, the cell belongs to the region that it's centroid lies in. When the new vtkUnstructuredGrid is created, by default it is composed of the cells associated with the region(s) assigned to this process. If you also want it to contain cells that intersect these regions, but have their centroid elsewhere, then set this variable on. By default it is off. | |
virtual void | IncludeAllIntersectingCellsOn () |
Each cell in the data set is associated with one of the spatial regions of the k-d tree decomposition. In particular, the cell belongs to the region that it's centroid lies in. When the new vtkUnstructuredGrid is created, by default it is composed of the cells associated with the region(s) assigned to this process. If you also want it to contain cells that intersect these regions, but have their centroid elsewhere, then set this variable on. By default it is off. | |
override int | IsA (string type) |
Undocumented Block | |
new vtkDistributedDataFilter | NewInstance () |
Undocumented Block | |
virtual void | RetainKdtreeOff () |
When this filter executes, it creates a vtkPKdTree (K-d tree) data structure in parallel which divides the total distributed data set into spatial regions. The K-d tree object also creates tables describing which processes have data for which regions. Only then does this filter redistribute the data according to the region assignment scheme. By default, the K-d tree structure and it's associated tables are deleted after the filter executes. If you anticipate changing only the region assignment scheme (input is unchanged) and explicitly re-executing, then RetainKdTreeOn, and the K-d tree structure and tables will be saved. Then, when you re-execute, this filter will skip the k-d tree build phase and go straight to redistributing the data according to region assignment. See vtkPKdTree for more information about region assignment. | |
virtual void | RetainKdtreeOn () |
When this filter executes, it creates a vtkPKdTree (K-d tree) data structure in parallel which divides the total distributed data set into spatial regions. The K-d tree object also creates tables describing which processes have data for which regions. Only then does this filter redistribute the data according to the region assignment scheme. By default, the K-d tree structure and it's associated tables are deleted after the filter executes. If you anticipate changing only the region assignment scheme (input is unchanged) and explicitly re-executing, then RetainKdTreeOn, and the K-d tree structure and tables will be saved. Then, when you re-execute, this filter will skip the k-d tree build phase and go straight to redistributing the data according to region assignment. See vtkPKdTree for more information about region assignment. | |
void | SetBoundaryMode (int mode) |
Handling of ClipCells and IncludeAllIntersectingCells. | |
void | SetBoundaryModeToAssignToAllIntersectingRegions () |
Handling of ClipCells and IncludeAllIntersectingCells. | |
void | SetBoundaryModeToAssignToOneRegion () |
Handling of ClipCells and IncludeAllIntersectingCells. | |
void | SetBoundaryModeToSplitBoundaryCells () |
Handling of ClipCells and IncludeAllIntersectingCells. | |
virtual void | SetClipCells (int _arg) |
Set this variable if you want the cells of the output vtkUnstructuredGrid to be clipped to the spatial region boundaries. By default this is off. | |
void | SetController (vtkMultiProcessController c) |
Set/Get the communicator object | |
void | SetCuts (vtkBSPCuts cuts) |
You can set the k-d tree decomposition, rather than have D3 compute it. This allows you to divide a dataset using the decomposition computed for another dataset. Obtain a description of the k-d tree cuts this way: | |
virtual void | SetIncludeAllIntersectingCells (int _arg) |
Each cell in the data set is associated with one of the spatial regions of the k-d tree decomposition. In particular, the cell belongs to the region that it's centroid lies in. When the new vtkUnstructuredGrid is created, by default it is composed of the cells associated with the region(s) assigned to this process. If you also want it to contain cells that intersect these regions, but have their centroid elsewhere, then set this variable on. By default it is off. | |
virtual void | SetRetainKdtree (int _arg) |
When this filter executes, it creates a vtkPKdTree (K-d tree) data structure in parallel which divides the total distributed data set into spatial regions. The K-d tree object also creates tables describing which processes have data for which regions. Only then does this filter redistribute the data according to the region assignment scheme. By default, the K-d tree structure and it's associated tables are deleted after the filter executes. If you anticipate changing only the region assignment scheme (input is unchanged) and explicitly re-executing, then RetainKdTreeOn, and the K-d tree structure and tables will be saved. Then, when you re-execute, this filter will skip the k-d tree build phase and go straight to redistributing the data according to region assignment. See vtkPKdTree for more information about region assignment. | |
virtual void | SetTiming (int _arg) |
Turn on collection of timing data | |
virtual void | SetUseMinimalMemory (int _arg) |
This class does a great deal of all-to-all communication when exchanging portions of data sets and building new sub grids. By default it will do fast communication. It can instead use communication routines that use the least possible amount of memory, but these are slower. Set this option ON to choose these latter routines. | |
void | SetUserRegionAssignments (IntPtr map, int numRegions) |
vtkBSPCuts doesn't have information about process assignments for the cuts. Typically D3 filter simply reassigns the processes for each cut. However, that may not always work, sometimes the processes have be pre-assigned and we want to preserve that partitioning. In that case, one sets the region assignments explicitly. Look at vtkPKdTree::AssignRegions for details about the arguments. Calling SetUserRegionAssignments(NULL, 0) will revert to default behavior i.e. letting the KdTree come up with the assignments. | |
virtual void | TimingOff () |
Turn on collection of timing data | |
virtual void | TimingOn () |
Turn on collection of timing data | |
virtual void | UseMinimalMemoryOff () |
This class does a great deal of all-to-all communication when exchanging portions of data sets and building new sub grids. By default it will do fast communication. It can instead use communication routines that use the least possible amount of memory, but these are slower. Set this option ON to choose these latter routines. | |
virtual void | UseMinimalMemoryOn () |
This class does a great deal of all-to-all communication when exchanging portions of data sets and building new sub grids. By default it will do fast communication. It can instead use communication routines that use the least possible amount of memory, but these are slower. Set this option ON to choose these latter routines. | |
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vtkDataObjectAlgorithm (IntPtr rawCppThis, bool callDisposalMethod, bool strong) | |
Automatically generated constructor - called from generated code. DO NOT call directly. | |
vtkDataObjectAlgorithm () | |
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 | |
vtkDataObject | GetOutput () |
Get the output data object for a port on this algorithm. | |
vtkDataObject | GetOutput (int arg0) |
Get the output data object for a port on this algorithm. | |
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. | |
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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. | |
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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... | |
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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 vtkDistributedDataFilter | New () |
Undocumented Block | |
static new int | IsTypeOf (string type) |
Undocumented Block | |
static new vtkDistributedDataFilter | SafeDownCast (vtkObjectBase o) |
Undocumented Block |
Public Attributes | |
new const string | MRFullTypeName = "Kitware.VTK.vtkDistributedDataFilter" |
Automatically generated type registration mechanics. | |
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new const string | MRFullTypeName = "Kitware.VTK.vtkDataObjectAlgorithm" |
Automatically generated type registration mechanics. | |
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new const string | MRFullTypeName = "Kitware.VTK.vtkAlgorithm" |
Automatically generated type registration mechanics. | |
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new const string | MRFullTypeName = "Kitware.VTK.vtkObject" |
Automatically generated type registration mechanics. | |
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new const string | MRFullTypeName = "Kitware.VTK.vtkObjectBase" |
Automatically generated type registration mechanics. | |
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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 = "24vtkDistributedDataFilter" |
Automatically generated type registration mechanics. | |
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static new readonly string | MRClassNameKey = "22vtkDataObjectAlgorithm" |
Automatically generated type registration mechanics. | |
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static new readonly string | MRClassNameKey = "12vtkAlgorithm" |
Automatically generated type registration mechanics. | |
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static new readonly string | MRClassNameKey = "9vtkObject" |
Automatically generated type registration mechanics. | |
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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 | vtkDistributedDataFilter () |
Automatically generated type registration mechanics. |
Additional Inherited Members | |
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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. |
vtkDistributedDataFilter - Distribute data among processors
Description This filter redistributes data among processors in a parallel application into spatially contiguous vtkUnstructuredGrids. The execution model anticipated is that all processes read in part of a large vtkDataSet. Each process sets the input of filter to be that DataSet. When executed, this filter builds in parallel a k-d tree, decomposing the space occupied by the distributed DataSet into spatial regions. It assigns each spatial region to a processor. The data is then redistributed and the output is a single vtkUnstructuredGrid containing the cells in the process' assigned regions.
This filter is sometimes called "D3" for "distributed data decomposition".
Enhancement: You can set the k-d tree decomposition, rather than have D3 compute it. This allows you to divide a dataset using the decomposition computed for another dataset. Obtain a description of the k-d tree cuts this way:
vtkBSPCuts *cuts = D3Object1->GetCuts()
And set it this way:
D3Object2->SetCuts(cuts)
It is desirable to have a field array of global node IDs for two reasons:
If you know the name of a global node ID array in the input dataset, set that name with this method. If you leave it unset, D3 will search the input data set for certain common names of global node ID arrays. If none is found, and ghost cells have been requested, D3 will create a temporary global node ID array before aquiring ghost cells. It is also desirable to have global element IDs. However, if they don't exist D3 can create them relatively quickly. Set the name of the global element ID array if you have it. If it is not set, D3 will search for it using common names. If still not found, D3 will create a temporary array of global element IDs.
Caveats The Execute() method must be called by all processes in the parallel application, or it will hang. If you are not certain that your pipeline will execute identically on all processors, you may want to use this filter in an explicit execution mode.
Set this variable if you want the cells of the output vtkUnstructuredGrid to be clipped to the spatial region boundaries. By default this is off.
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staticprivate |
Automatically generated type registration mechanics.
Kitware.VTK.vtkDistributedDataFilter.vtkDistributedDataFilter | ( | IntPtr | rawCppThis, |
bool | callDisposalMethod, | ||
bool | strong | ||
) |
Automatically generated constructor - called from generated code. DO NOT call directly.
Kitware.VTK.vtkDistributedDataFilter.vtkDistributedDataFilter | ( | ) |
Undocumented Block
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virtual |
Set this variable if you want the cells of the output vtkUnstructuredGrid to be clipped to the spatial region boundaries. By default this is off.
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virtual |
Set this variable if you want the cells of the output vtkUnstructuredGrid to be clipped to the spatial region boundaries. By default this is off.
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protected |
Automatically generated protected Dispose method - called from public Dispose or the C# destructor. DO NOT call directly.
Reimplemented from Kitware.VTK.vtkDataObjectAlgorithm.
int Kitware.VTK.vtkDistributedDataFilter.GetBoundaryMode | ( | ) |
Handling of ClipCells and IncludeAllIntersectingCells.
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virtual |
Set this variable if you want the cells of the output vtkUnstructuredGrid to be clipped to the spatial region boundaries. By default this is off.
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virtual |
Set/Get the communicator object
vtkBSPCuts Kitware.VTK.vtkDistributedDataFilter.GetCuts | ( | ) |
You can set the k-d tree decomposition, rather than have D3 compute it. This allows you to divide a dataset using the decomposition computed for another dataset. Obtain a description of the k-d tree cuts this way:
vtkBSPCuts *cuts = D3Object1->GetCuts()
And set it this way:
D3Object2->SetCuts(cuts)
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virtual |
Each cell in the data set is associated with one of the spatial regions of the k-d tree decomposition. In particular, the cell belongs to the region that it's centroid lies in. When the new vtkUnstructuredGrid is created, by default it is composed of the cells associated with the region(s) assigned to this process. If you also want it to contain cells that intersect these regions, but have their centroid elsewhere, then set this variable on. By default it is off.
vtkPKdTree Kitware.VTK.vtkDistributedDataFilter.GetKdtree | ( | ) |
Get a pointer to the parallel k-d tree object. Required for changing default behavior for region assignment, changing default depth of tree, or other tree building default parameters. See vtkPKdTree and vtkKdTree for more information about these options. NOTE: Changing the tree returned by this method does NOT change the d3 filter. Make sure to call Modified() on the d3 object if you want it to re-execute.
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virtual |
When this filter executes, it creates a vtkPKdTree (K-d tree) data structure in parallel which divides the total distributed data set into spatial regions. The K-d tree object also creates tables describing which processes have data for which regions. Only then does this filter redistribute the data according to the region assignment scheme. By default, the K-d tree structure and it's associated tables are deleted after the filter executes. If you anticipate changing only the region assignment scheme (input is unchanged) and explicitly re-executing, then RetainKdTreeOn, and the K-d tree structure and tables will be saved. Then, when you re-execute, this filter will skip the k-d tree build phase and go straight to redistributing the data according to region assignment. See vtkPKdTree for more information about region assignment.
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virtual |
Turn on collection of timing data
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virtual |
This class does a great deal of all-to-all communication when exchanging portions of data sets and building new sub grids. By default it will do fast communication. It can instead use communication routines that use the least possible amount of memory, but these are slower. Set this option ON to choose these latter routines.
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virtual |
Each cell in the data set is associated with one of the spatial regions of the k-d tree decomposition. In particular, the cell belongs to the region that it's centroid lies in. When the new vtkUnstructuredGrid is created, by default it is composed of the cells associated with the region(s) assigned to this process. If you also want it to contain cells that intersect these regions, but have their centroid elsewhere, then set this variable on. By default it is off.
|
virtual |
Each cell in the data set is associated with one of the spatial regions of the k-d tree decomposition. In particular, the cell belongs to the region that it's centroid lies in. When the new vtkUnstructuredGrid is created, by default it is composed of the cells associated with the region(s) assigned to this process. If you also want it to contain cells that intersect these regions, but have their centroid elsewhere, then set this variable on. By default it is off.
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virtual |
Undocumented Block
Reimplemented from Kitware.VTK.vtkDataObjectAlgorithm.
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static |
Undocumented Block
Reimplemented from Kitware.VTK.vtkDataObjectAlgorithm.
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static |
Undocumented Block
Reimplemented from Kitware.VTK.vtkDataObjectAlgorithm.
new vtkDistributedDataFilter Kitware.VTK.vtkDistributedDataFilter.NewInstance | ( | ) |
Undocumented Block
Reimplemented from Kitware.VTK.vtkDataObjectAlgorithm.
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virtual |
When this filter executes, it creates a vtkPKdTree (K-d tree) data structure in parallel which divides the total distributed data set into spatial regions. The K-d tree object also creates tables describing which processes have data for which regions. Only then does this filter redistribute the data according to the region assignment scheme. By default, the K-d tree structure and it's associated tables are deleted after the filter executes. If you anticipate changing only the region assignment scheme (input is unchanged) and explicitly re-executing, then RetainKdTreeOn, and the K-d tree structure and tables will be saved. Then, when you re-execute, this filter will skip the k-d tree build phase and go straight to redistributing the data according to region assignment. See vtkPKdTree for more information about region assignment.
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virtual |
When this filter executes, it creates a vtkPKdTree (K-d tree) data structure in parallel which divides the total distributed data set into spatial regions. The K-d tree object also creates tables describing which processes have data for which regions. Only then does this filter redistribute the data according to the region assignment scheme. By default, the K-d tree structure and it's associated tables are deleted after the filter executes. If you anticipate changing only the region assignment scheme (input is unchanged) and explicitly re-executing, then RetainKdTreeOn, and the K-d tree structure and tables will be saved. Then, when you re-execute, this filter will skip the k-d tree build phase and go straight to redistributing the data according to region assignment. See vtkPKdTree for more information about region assignment.
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static |
Undocumented Block
Reimplemented from Kitware.VTK.vtkDataObjectAlgorithm.
void Kitware.VTK.vtkDistributedDataFilter.SetBoundaryMode | ( | int | mode | ) |
Handling of ClipCells and IncludeAllIntersectingCells.
void Kitware.VTK.vtkDistributedDataFilter.SetBoundaryModeToAssignToAllIntersectingRegions | ( | ) |
Handling of ClipCells and IncludeAllIntersectingCells.
void Kitware.VTK.vtkDistributedDataFilter.SetBoundaryModeToAssignToOneRegion | ( | ) |
Handling of ClipCells and IncludeAllIntersectingCells.
void Kitware.VTK.vtkDistributedDataFilter.SetBoundaryModeToSplitBoundaryCells | ( | ) |
Handling of ClipCells and IncludeAllIntersectingCells.
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virtual |
Set this variable if you want the cells of the output vtkUnstructuredGrid to be clipped to the spatial region boundaries. By default this is off.
void Kitware.VTK.vtkDistributedDataFilter.SetController | ( | vtkMultiProcessController | c | ) |
Set/Get the communicator object
void Kitware.VTK.vtkDistributedDataFilter.SetCuts | ( | vtkBSPCuts | cuts | ) |
You can set the k-d tree decomposition, rather than have D3 compute it. This allows you to divide a dataset using the decomposition computed for another dataset. Obtain a description of the k-d tree cuts this way:
vtkBSPCuts *cuts = D3Object1->GetCuts()
And set it this way:
D3Object2->SetCuts(cuts)
|
virtual |
Each cell in the data set is associated with one of the spatial regions of the k-d tree decomposition. In particular, the cell belongs to the region that it's centroid lies in. When the new vtkUnstructuredGrid is created, by default it is composed of the cells associated with the region(s) assigned to this process. If you also want it to contain cells that intersect these regions, but have their centroid elsewhere, then set this variable on. By default it is off.
|
virtual |
When this filter executes, it creates a vtkPKdTree (K-d tree) data structure in parallel which divides the total distributed data set into spatial regions. The K-d tree object also creates tables describing which processes have data for which regions. Only then does this filter redistribute the data according to the region assignment scheme. By default, the K-d tree structure and it's associated tables are deleted after the filter executes. If you anticipate changing only the region assignment scheme (input is unchanged) and explicitly re-executing, then RetainKdTreeOn, and the K-d tree structure and tables will be saved. Then, when you re-execute, this filter will skip the k-d tree build phase and go straight to redistributing the data according to region assignment. See vtkPKdTree for more information about region assignment.
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virtual |
Turn on collection of timing data
|
virtual |
This class does a great deal of all-to-all communication when exchanging portions of data sets and building new sub grids. By default it will do fast communication. It can instead use communication routines that use the least possible amount of memory, but these are slower. Set this option ON to choose these latter routines.
void Kitware.VTK.vtkDistributedDataFilter.SetUserRegionAssignments | ( | IntPtr | map, |
int | numRegions | ||
) |
vtkBSPCuts doesn't have information about process assignments for the cuts. Typically D3 filter simply reassigns the processes for each cut. However, that may not always work, sometimes the processes have be pre-assigned and we want to preserve that partitioning. In that case, one sets the region assignments explicitly. Look at vtkPKdTree::AssignRegions for details about the arguments. Calling SetUserRegionAssignments(NULL, 0) will revert to default behavior i.e. letting the KdTree come up with the assignments.
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virtual |
Turn on collection of timing data
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virtual |
Turn on collection of timing data
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virtual |
This class does a great deal of all-to-all communication when exchanging portions of data sets and building new sub grids. By default it will do fast communication. It can instead use communication routines that use the least possible amount of memory, but these are slower. Set this option ON to choose these latter routines.
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virtual |
This class does a great deal of all-to-all communication when exchanging portions of data sets and building new sub grids. By default it will do fast communication. It can instead use communication routines that use the least possible amount of memory, but these are slower. Set this option ON to choose these latter routines.
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static |
Automatically generated type registration mechanics.
new const string Kitware.VTK.vtkDistributedDataFilter.MRFullTypeName = "Kitware.VTK.vtkDistributedDataFilter" |
Automatically generated type registration mechanics.