Section: Visualization Toolkit Graphics Classes
vtkConnectivityFilter is generalized to handle any type of input dataset. It generates output data of type vtkUnstructuredGrid. If you know that your input type is vtkPolyData, you may wish to use vtkPolyDataConnectivityFilter.
The behavior of vtkConnectivityFilter can be modified by turning on the boolean ivar ScalarConnectivity. If this flag is on, the connectivity algorithm is modified so that cells are considered connected only if 1) they are geometrically connected (share a point) and 2) the scalar values of one of the cell's points falls in the scalar range specified. This use of ScalarConnectivity is particularly useful for volume datasets: it can be used as a simple "connected segmentation" algorithm. For example, by using a seed voxel (i.e., cell) on a known anatomical structure, connectivity will pull out all voxels "containing" the anatomical structure. These voxels can then be contoured or processed by other visualization filters.
To create an instance of class vtkConnectivityFilter, simply invoke its constructor as follows
obj = vtkConnectivityFilter
obj
is an instance of the vtkConnectivityFilter class.
string = obj.GetClassName ()
int = obj.IsA (string name)
vtkConnectivityFilter = obj.NewInstance ()
vtkConnectivityFilter = obj.SafeDownCast (vtkObject o)
obj.SetScalarConnectivity (int )
- Turn on/off connectivity based on scalar value. If on, cells are connected
only if they share points AND one of the cells scalar values falls in the
scalar range specified.
int = obj.GetScalarConnectivity ()
- Turn on/off connectivity based on scalar value. If on, cells are connected
only if they share points AND one of the cells scalar values falls in the
scalar range specified.
obj.ScalarConnectivityOn ()
- Turn on/off connectivity based on scalar value. If on, cells are connected
only if they share points AND one of the cells scalar values falls in the
scalar range specified.
obj.ScalarConnectivityOff ()
- Turn on/off connectivity based on scalar value. If on, cells are connected
only if they share points AND one of the cells scalar values falls in the
scalar range specified.
obj.SetScalarRange (double , double )
- Set the scalar range to use to extract cells based on scalar connectivity.
obj.SetScalarRange (double a[2])
- Set the scalar range to use to extract cells based on scalar connectivity.
double = obj. GetScalarRange ()
- Set the scalar range to use to extract cells based on scalar connectivity.
obj.SetExtractionMode (int )
- Control the extraction of connected surfaces.
int = obj.GetExtractionModeMinValue ()
- Control the extraction of connected surfaces.
int = obj.GetExtractionModeMaxValue ()
- Control the extraction of connected surfaces.
int = obj.GetExtractionMode ()
- Control the extraction of connected surfaces.
obj.SetExtractionModeToPointSeededRegions ()
- Control the extraction of connected surfaces.
obj.SetExtractionModeToCellSeededRegions ()
- Control the extraction of connected surfaces.
obj.SetExtractionModeToLargestRegion ()
- Control the extraction of connected surfaces.
obj.SetExtractionModeToSpecifiedRegions ()
- Control the extraction of connected surfaces.
obj.SetExtractionModeToClosestPointRegion ()
- Control the extraction of connected surfaces.
obj.SetExtractionModeToAllRegions ()
- Control the extraction of connected surfaces.
string = obj.GetExtractionModeAsString ()
- Control the extraction of connected surfaces.
obj.InitializeSeedList ()
- Initialize list of point ids/cell ids used to seed regions.
obj.AddSeed (vtkIdType id)
- Add a seed id (point or cell id). Note: ids are 0-offset.
obj.DeleteSeed (vtkIdType id)
- Delete a seed id (point or cell id). Note: ids are 0-offset.
obj.InitializeSpecifiedRegionList ()
- Initialize list of region ids to extract.
obj.AddSpecifiedRegion (int id)
- Add a region id to extract. Note: ids are 0-offset.
obj.DeleteSpecifiedRegion (int id)
- Delete a region id to extract. Note: ids are 0-offset.
obj.SetClosestPoint (double , double , double )
- Use to specify x-y-z point coordinates when extracting the region
closest to a specified point.
obj.SetClosestPoint (double a[3])
- Use to specify x-y-z point coordinates when extracting the region
closest to a specified point.
double = obj. GetClosestPoint ()
- Use to specify x-y-z point coordinates when extracting the region
closest to a specified point.
int = obj.GetNumberOfExtractedRegions ()
- Obtain the number of connected regions.
obj.SetColorRegions (int )
- Turn on/off the coloring of connected regions.
int = obj.GetColorRegions ()
- Turn on/off the coloring of connected regions.
obj.ColorRegionsOn ()
- Turn on/off the coloring of connected regions.
obj.ColorRegionsOff ()
- Turn on/off the coloring of connected regions.