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Section: Visualization Toolkit Widget Classes
The vtkBiDimensionalRepresentation2D is used to represent the bi-dimensional measure in a 2D (overlay) context. This representation consists of two perpendicular lines defined by four vtkHandleRepresentations. The four handles can be independently manipulated consistent with the orthogonal constraint on the lines. (Note: the four points are referred to as Point1, Point2, Point3 and Point4. Point1 and Point2 define the first line; and Point3 and Point4 define the second orthogonal line.)
To create this widget, you click to place the first two points. The third point is mirrored with the fourth point; when you place the third point (which is orthogonal to the lined defined by the first two points), the fourth point is dropped as well. After definition, the four points can be moved (in constrained fashion, preserving orthogonality). Further, the entire widget can be translated by grabbing the center point of the widget; each line can be moved along the other line; and the entire widget can be rotated around its center point.
To create an instance of class vtkBiDimensionalRepresentation2D, simply invoke its constructor as follows
obj = vtkBiDimensionalRepresentation2D
The class vtkBiDimensionalRepresentation2D has several methods that can be used. They are listed below. Note that the documentation is translated automatically from the VTK sources, and may not be completely intelligible. When in doubt, consult the VTK website. In the methods listed below, obj
is an instance of the vtkBiDimensionalRepresentation2D class.
string = obj.GetClassName ()
- Standard VTK methods. int = obj.IsA (string name)
- Standard VTK methods. vtkBiDimensionalRepresentation2D = obj.NewInstance ()
- Standard VTK methods. vtkBiDimensionalRepresentation2D = obj.SafeDownCast (vtkObject o)
- Standard VTK methods. obj.SetPoint1WorldPosition (double pos[3])
- Methods to Set/Get the coordinates of the four points defining this representation. Note that methods are available for both display and world coordinates. obj.SetPoint2WorldPosition (double pos[3])
- Methods to Set/Get the coordinates of the four points defining this representation. Note that methods are available for both display and world coordinates. obj.SetPoint3WorldPosition (double pos[3])
- Methods to Set/Get the coordinates of the four points defining this representation. Note that methods are available for both display and world coordinates. obj.SetPoint4WorldPosition (double pos[3])
- Methods to Set/Get the coordinates of the four points defining this representation. Note that methods are available for both display and world coordinates. obj.GetPoint1WorldPosition (double pos[3])
- Methods to Set/Get the coordinates of the four points defining this representation. Note that methods are available for both display and world coordinates. obj.GetPoint2WorldPosition (double pos[3])
- Methods to Set/Get the coordinates of the four points defining this representation. Note that methods are available for both display and world coordinates. obj.GetPoint3WorldPosition (double pos[3])
- Methods to Set/Get the coordinates of the four points defining this representation. Note that methods are available for both display and world coordinates. obj.GetPoint4WorldPosition (double pos[3])
- Methods to Set/Get the coordinates of the four points defining this representation. Note that methods are available for both display and world coordinates. obj.SetPoint1DisplayPosition (double pos[3])
- Methods to Set/Get the coordinates of the four points defining this representation. Note that methods are available for both display and world coordinates. obj.SetPoint2DisplayPosition (double pos[3])
- Methods to Set/Get the coordinates of the four points defining this representation. Note that methods are available for both display and world coordinates. obj.SetPoint3DisplayPosition (double pos[3])
- Methods to Set/Get the coordinates of the four points defining this representation. Note that methods are available for both display and world coordinates. obj.SetPoint4DisplayPosition (double pos[3])
- Methods to Set/Get the coordinates of the four points defining this representation. Note that methods are available for both display and world coordinates. obj.GetPoint1DisplayPosition (double pos[3])
- Methods to Set/Get the coordinates of the four points defining this representation. Note that methods are available for both display and world coordinates. obj.GetPoint2DisplayPosition (double pos[3])
- Methods to Set/Get the coordinates of the four points defining this representation. Note that methods are available for both display and world coordinates. obj.GetPoint3DisplayPosition (double pos[3])
- Methods to Set/Get the coordinates of the four points defining this representation. Note that methods are available for both display and world coordinates. obj.GetPoint4DisplayPosition (double pos[3])
- Methods to Set/Get the coordinates of the four points defining this representation. Note that methods are available for both display and world coordinates. obj.SetLine1Visibility (int )
- Special methods for turning off the lines that define the bi-dimensional measure. Generally these methods are used by the vtkBiDimensionalWidget to control the appearance of the widget. Note: turning off Line1 actually turns off Line1 and Line2. int = obj.GetLine1Visibility ()
- Special methods for turning off the lines that define the bi-dimensional measure. Generally these methods are used by the vtkBiDimensionalWidget to control the appearance of the widget. Note: turning off Line1 actually turns off Line1 and Line2. obj.Line1VisibilityOn ()
- Special methods for turning off the lines that define the bi-dimensional measure. Generally these methods are used by the vtkBiDimensionalWidget to control the appearance of the widget. Note: turning off Line1 actually turns off Line1 and Line2. obj.Line1VisibilityOff ()
- Special methods for turning off the lines that define the bi-dimensional measure. Generally these methods are used by the vtkBiDimensionalWidget to control the appearance of the widget. Note: turning off Line1 actually turns off Line1 and Line2. obj.SetLine2Visibility (int )
- Special methods for turning off the lines that define the bi-dimensional measure. Generally these methods are used by the vtkBiDimensionalWidget to control the appearance of the widget. Note: turning off Line1 actually turns off Line1 and Line2. int = obj.GetLine2Visibility ()
- Special methods for turning off the lines that define the bi-dimensional measure. Generally these methods are used by the vtkBiDimensionalWidget to control the appearance of the widget. Note: turning off Line1 actually turns off Line1 and Line2. obj.Line2VisibilityOn ()
- Special methods for turning off the lines that define the bi-dimensional measure. Generally these methods are used by the vtkBiDimensionalWidget to control the appearance of the widget. Note: turning off Line1 actually turns off Line1 and Line2. obj.Line2VisibilityOff ()
- Special methods for turning off the lines that define the bi-dimensional measure. Generally these methods are used by the vtkBiDimensionalWidget to control the appearance of the widget. Note: turning off Line1 actually turns off Line1 and Line2. obj.SetHandleRepresentation (vtkHandleRepresentation handle)
- This method is used to specify the type of handle representation to use for the four internal vtkHandleRepresentations within vtkBiDimensionalRepresentation2D. To use this method, create a dummy vtkHandleRepresentation (or subclass), and then invoke this method with this dummy. Then the vtkBiDimensionalRepresentation2D uses this dummy to clone four vtkHandleRepresentations of the same type. Make sure you set the handle representation before the widget is enabled. (The method InstantiateHandleRepresentation() is invoked by the vtkBiDimensionalWidget for the purposes of cloning.) obj.InstantiateHandleRepresentation ()
- This method is used to specify the type of handle representation to use for the four internal vtkHandleRepresentations within vtkBiDimensionalRepresentation2D. To use this method, create a dummy vtkHandleRepresentation (or subclass), and then invoke this method with this dummy. Then the vtkBiDimensionalRepresentation2D uses this dummy to clone four vtkHandleRepresentations of the same type. Make sure you set the handle representation before the widget is enabled. (The method InstantiateHandleRepresentation() is invoked by the vtkBiDimensionalWidget for the purposes of cloning.) vtkHandleRepresentation = obj.GetPoint1Representation ()
- Set/Get the handle representations used within the vtkBiDimensionalRepresentation2D. (Note: properties can be set by grabbing these representations and setting the properties appropriately.) vtkHandleRepresentation = obj.GetPoint2Representation ()
- Set/Get the handle representations used within the vtkBiDimensionalRepresentation2D. (Note: properties can be set by grabbing these representations and setting the properties appropriately.) vtkHandleRepresentation = obj.GetPoint3Representation ()
- Set/Get the handle representations used within the vtkBiDimensionalRepresentation2D. (Note: properties can be set by grabbing these representations and setting the properties appropriately.) vtkHandleRepresentation = obj.GetPoint4Representation ()
- Set/Get the handle representations used within the vtkBiDimensionalRepresentation2D. (Note: properties can be set by grabbing these representations and setting the properties appropriately.) vtkProperty2D = obj.GetLineProperty ()
- Retrieve the property used to control the appearance of the two orthogonal lines. vtkProperty2D = obj.GetSelectedLineProperty ()
- Retrieve the property used to control the appearance of the two orthogonal lines. vtkTextProperty = obj.GetTextProperty ()
- Retrieve the property used to control the appearance of the text labels. obj.SetTolerance (int )
- The tolerance representing the distance to the representation (in pixels) in which the cursor is considered near enough to the representation to be active. int = obj.GetToleranceMinValue ()
- The tolerance representing the distance to the representation (in pixels) in which the cursor is considered near enough to the representation to be active. int = obj.GetToleranceMaxValue ()
- The tolerance representing the distance to the representation (in pixels) in which the cursor is considered near enough to the representation to be active. int = obj.GetTolerance ()
- The tolerance representing the distance to the representation (in pixels) in which the cursor is considered near enough to the representation to be active. double = obj.GetLength1 ()
- Return the length of the line defined by (Point1,Point2). This is the distance in the world coordinate system. double = obj.GetLength2 ()
- Return the length of the line defined by (Point3,Point4). This is the distance in the world coordinate system. obj.SetLabelFormat (string )
- Specify the format to use for labelling the distance. Note that an empty string results in no label, or a format string without a "%" character will not print the distance value. string = obj.GetLabelFormat ()
- Specify the format to use for labelling the distance. Note that an empty string results in no label, or a format string without a "%" character will not print the distance value. obj.BuildRepresentation ()
- These are methods that satisfy vtkWidgetRepresentation's API. int = obj.ComputeInteractionState (int X, int Y, int modify)
- These are methods that satisfy vtkWidgetRepresentation's API. obj.StartWidgetDefinition (double e[2])
- These are methods that satisfy vtkWidgetRepresentation's API. obj.Point2WidgetInteraction (double e[2])
- These are methods that satisfy vtkWidgetRepresentation's API. obj.Point3WidgetInteraction (double e[2])
- These are methods that satisfy vtkWidgetRepresentation's API. obj.StartWidgetManipulation (double e[2])
- These are methods that satisfy vtkWidgetRepresentation's API. obj.WidgetInteraction (double e[2])
- These are methods that satisfy vtkWidgetRepresentation's API. obj.Highlight (int highlightOn)
- These are methods that satisfy vtkWidgetRepresentation's API. obj.ReleaseGraphicsResources (vtkWindow w)
- Methods required by vtkProp superclass. int = obj.RenderOverlay (vtkViewport viewport)
- Methods required by vtkProp superclass. obj.SetShowLabelAboveWidget (int )
- Toggle whether to display the label above or below the widget. Defaults to 1. int = obj.GetShowLabelAboveWidget ()
- Toggle whether to display the label above or below the widget. Defaults to 1. obj.ShowLabelAboveWidgetOn ()
- Toggle whether to display the label above or below the widget. Defaults to 1. obj.ShowLabelAboveWidgetOff ()
- Toggle whether to display the label above or below the widget. Defaults to 1. obj.SetID (long id)
- Set/get the id to display in the label. long = obj.GetID ()
- Set/get the id to display in the label. string = obj.GetLabelText ()
- Get the text shown in the widget's label. obj.GetLabelPosition (double pos[3])
- Get the position of the widget's label in display coordinates. obj.GetWorldLabelPosition (double pos[3])
- Get the position of the widget's label in display coordinates.