Section: Visualization Toolkit Widget Classes
To create an instance of class vtkSphereHandleRepresentation, simply invoke its constructor as follows
obj = vtkSphereHandleRepresentation
obj
is an instance of the vtkSphereHandleRepresentation class.
string = obj.GetClassName ()
- Standard methods for instances of this class.
int = obj.IsA (string name)
- Standard methods for instances of this class.
vtkSphereHandleRepresentation = obj.NewInstance ()
- Standard methods for instances of this class.
vtkSphereHandleRepresentation = obj.SafeDownCast (vtkObject o)
- Standard methods for instances of this class.
obj.SetWorldPosition (double p[3])
- Set the position of the point in world and display coordinates. Note
that if the position is set outside of the bounding box, it will be
clamped to the boundary of the bounding box. This method overloads
the superclasses' SetWorldPosition() and SetDisplayPosition() in
order to set the focal point of the cursor properly.
obj.SetDisplayPosition (double p[3])
- Set the position of the point in world and display coordinates. Note
that if the position is set outside of the bounding box, it will be
clamped to the boundary of the bounding box. This method overloads
the superclasses' SetWorldPosition() and SetDisplayPosition() in
order to set the focal point of the cursor properly.
obj.SetTranslationMode (int )
- If translation mode is on, as the widget is moved the bounding box,
shadows, and cursor are all translated simultaneously as the point moves
(i.e., the left and middle mouse buttons act the same). Otherwise, only
the cursor focal point moves, which is constrained by the bounds of the
point representation. (Note that the bounds can be scaled up using the
right mouse button.)
int = obj.GetTranslationMode ()
- If translation mode is on, as the widget is moved the bounding box,
shadows, and cursor are all translated simultaneously as the point moves
(i.e., the left and middle mouse buttons act the same). Otherwise, only
the cursor focal point moves, which is constrained by the bounds of the
point representation. (Note that the bounds can be scaled up using the
right mouse button.)
obj.TranslationModeOn ()
- If translation mode is on, as the widget is moved the bounding box,
shadows, and cursor are all translated simultaneously as the point moves
(i.e., the left and middle mouse buttons act the same). Otherwise, only
the cursor focal point moves, which is constrained by the bounds of the
point representation. (Note that the bounds can be scaled up using the
right mouse button.)
obj.TranslationModeOff ()
- If translation mode is on, as the widget is moved the bounding box,
shadows, and cursor are all translated simultaneously as the point moves
(i.e., the left and middle mouse buttons act the same). Otherwise, only
the cursor focal point moves, which is constrained by the bounds of the
point representation. (Note that the bounds can be scaled up using the
right mouse button.)
obj.SetSphereRadius (double )
double = obj.GetSphereRadius ()
obj.SetProperty (vtkProperty )
- Set/Get the handle properties when unselected and selected.
obj.SetSelectedProperty (vtkProperty )
- Set/Get the handle properties when unselected and selected.
vtkProperty = obj.GetProperty ()
- Set/Get the handle properties when unselected and selected.
vtkProperty = obj.GetSelectedProperty ()
- Set/Get the handle properties when unselected and selected.
obj.SetHotSpotSize (double )
- Set the "hot spot" size; i.e., the region around the focus, in which the
motion vector is used to control the constrained sliding action. Note the
size is specified as a fraction of the length of the diagonal of the
point widget's bounding box.
double = obj.GetHotSpotSizeMinValue ()
- Set the "hot spot" size; i.e., the region around the focus, in which the
motion vector is used to control the constrained sliding action. Note the
size is specified as a fraction of the length of the diagonal of the
point widget's bounding box.
double = obj.GetHotSpotSizeMaxValue ()
- Set the "hot spot" size; i.e., the region around the focus, in which the
motion vector is used to control the constrained sliding action. Note the
size is specified as a fraction of the length of the diagonal of the
point widget's bounding box.
double = obj.GetHotSpotSize ()
- Set the "hot spot" size; i.e., the region around the focus, in which the
motion vector is used to control the constrained sliding action. Note the
size is specified as a fraction of the length of the diagonal of the
point widget's bounding box.
obj.SetHandleSize (double size)
- Overload the superclasses SetHandleSize() method to update internal
variables.
double = obj.GetBounds ()
- Methods to make this class properly act like a vtkWidgetRepresentation.
obj.BuildRepresentation ()
- Methods to make this class properly act like a vtkWidgetRepresentation.
obj.StartWidgetInteraction (double eventPos[2])
- Methods to make this class properly act like a vtkWidgetRepresentation.
obj.WidgetInteraction (double eventPos[2])
- Methods to make this class properly act like a vtkWidgetRepresentation.
int = obj.ComputeInteractionState (int X, int Y, int modify)
- Methods to make this class properly act like a vtkWidgetRepresentation.
obj.PlaceWidget (double bounds[6])
- Methods to make this class properly act like a vtkWidgetRepresentation.
obj.ShallowCopy (vtkProp prop)
- Methods to make this class behave as a vtkProp.
obj.DeepCopy (vtkProp prop)
- Methods to make this class behave as a vtkProp.
obj.GetActors (vtkPropCollection )
- Methods to make this class behave as a vtkProp.
obj.ReleaseGraphicsResources (vtkWindow )
- Methods to make this class behave as a vtkProp.
int = obj.RenderOpaqueGeometry (vtkViewport viewport)
- Methods to make this class behave as a vtkProp.
int = obj.RenderTranslucentPolygonalGeometry (vtkViewport viewport)
- Methods to make this class behave as a vtkProp.
int = obj.HasTranslucentPolygonalGeometry ()
- Methods to make this class behave as a vtkProp.