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Kitware.VTK.vtkConstrainedPointHandleRepresentation Class Reference

vtkConstrainedPointHandleRepresentation - point representation constrained to a 2D plane More...

Inheritance diagram for Kitware.VTK.vtkConstrainedPointHandleRepresentation:
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Collaboration diagram for Kitware.VTK.vtkConstrainedPointHandleRepresentation:
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List of all members.

Public Types

enum  Oblique_WrapperEnum { Oblique = 3, XAxis = 0, YAxis = 1, ZAxis = 2 }
 Methods to make this class behave as a vtkProp. More...

Public Member Functions

 vtkConstrainedPointHandleRepresentation (IntPtr rawCppThis, bool callDisposalMethod, bool strong)
 Automatically generated constructor - called from generated code. DO NOT call directly.
 vtkConstrainedPointHandleRepresentation ()
 Instantiate this class.
void AddBoundingPlane (vtkPlane plane)
 A collection of plane equations used to bound the position of the point. This is in addition to confining the point to a plane - these constraints are meant to, for example, keep a point within the extent of an image. Using a set of plane equations allows for more complex bounds (such as bounding a point to an oblique reliced image that has hexagonal shape) than a simple extent.
override void BuildRepresentation ()
 Subclasses of vtkConstrainedPointHandleRepresentation must implement these methods. These are the methods that the widget and its representation use to communicate with each other.
override int CheckConstraint (vtkRenderer renderer, IntPtr pos)
 Overridden from the base class. It converts the display co-ordinates to world co-ordinates. It returns 1 if the point lies within the constrained region, otherwise return 0.
override int ComputeInteractionState (int X, int Y, int modify)
 Subclasses of vtkConstrainedPointHandleRepresentation must implement these methods. These are the methods that the widget and its representation use to communicate with each other.
vtkPolyData GetActiveCursorShape ()
 Specify the shape of the cursor (handle) when it is active. This is the geometry that will be used when the mouse is close to the handle or if the user is manipulating the handle.
virtual vtkProperty GetActiveProperty ()
 This is the property used when the user is interacting with the handle.
override void GetActors (vtkPropCollection arg0)
 Methods to make this class behave as a vtkProp.
virtual vtkPlaneCollection GetBoundingPlanes ()
 A collection of plane equations used to bound the position of the point. This is in addition to confining the point to a plane - these constraints are meant to, for example, keep a point within the extent of an image. Using a set of plane equations allows for more complex bounds (such as bounding a point to an oblique reliced image that has hexagonal shape) than a simple extent.
vtkPolyData GetCursorShape ()
 Specify the cursor shape. Keep in mind that the shape will be aligned with the constraining plane by orienting it such that the x axis of the geometry lies along the normal of the plane.
virtual vtkPlane GetObliquePlane ()
 If the ProjectionNormal is set to Oblique, then this is the oblique plane used to constrain the handle position.
IntPtr GetPosition ()
 Set/Get the position of the point in display coordinates. These are convenience methods that extend the superclasses' GetHandlePosition() method. Note that only the x-y coordinate values are used.
void GetPosition (IntPtr xyz)
 Set/Get the position of the point in display coordinates. These are convenience methods that extend the superclasses' GetHandlePosition() method. Note that only the x-y coordinate values are used.
virtual int GetProjectionNormal ()
 Set the projection normal to lie along the x, y, or z axis, or to be oblique. If it is oblique, then the plane is defined in the ObliquePlane ivar.
virtual int GetProjectionNormalMaxValue ()
 Set the projection normal to lie along the x, y, or z axis, or to be oblique. If it is oblique, then the plane is defined in the ObliquePlane ivar.
virtual int GetProjectionNormalMinValue ()
 Set the projection normal to lie along the x, y, or z axis, or to be oblique. If it is oblique, then the plane is defined in the ObliquePlane ivar.
virtual double GetProjectionPosition ()
 The position of the bounding plane from the origin along the normal. The origin and normal are defined in the oblique plane when the ProjectionNormal is Oblique. For the X, Y, and Z axes projection normals, the normal is the axis direction, and the origin is (0,0,0).
virtual vtkProperty GetProperty ()
 This is the property used when the handle is not active (the mouse is not near the handle)
virtual vtkProperty GetSelectedProperty ()
 This is the property used when the mouse is near the handle (but the user is not yet interacting with it)
override int HasTranslucentPolygonalGeometry ()
 Methods to make this class behave as a vtkProp.
override void Highlight (int highlight)
 Methods to make this class behave as a vtkProp.
override int IsA (string type)
 Standard methods for instances of this class.
new
vtkConstrainedPointHandleRepresentation 
NewInstance ()
 Standard methods for instances of this class.
override void ReleaseGraphicsResources (vtkWindow arg0)
 Methods to make this class behave as a vtkProp.
void RemoveAllBoundingPlanes ()
 A collection of plane equations used to bound the position of the point. This is in addition to confining the point to a plane - these constraints are meant to, for example, keep a point within the extent of an image. Using a set of plane equations allows for more complex bounds (such as bounding a point to an oblique reliced image that has hexagonal shape) than a simple extent.
void RemoveBoundingPlane (vtkPlane plane)
 A collection of plane equations used to bound the position of the point. This is in addition to confining the point to a plane - these constraints are meant to, for example, keep a point within the extent of an image. Using a set of plane equations allows for more complex bounds (such as bounding a point to an oblique reliced image that has hexagonal shape) than a simple extent.
override int RenderOpaqueGeometry (vtkViewport viewport)
 Methods to make this class behave as a vtkProp.
override int RenderOverlay (vtkViewport viewport)
 Methods to make this class behave as a vtkProp.
override int RenderTranslucentPolygonalGeometry (vtkViewport viewport)
 Methods to make this class behave as a vtkProp.
void SetActiveCursorShape (vtkPolyData activeShape)
 Specify the shape of the cursor (handle) when it is active. This is the geometry that will be used when the mouse is close to the handle or if the user is manipulating the handle.
virtual void SetBoundingPlanes (vtkPlaneCollection arg0)
 A collection of plane equations used to bound the position of the point. This is in addition to confining the point to a plane - these constraints are meant to, for example, keep a point within the extent of an image. Using a set of plane equations allows for more complex bounds (such as bounding a point to an oblique reliced image that has hexagonal shape) than a simple extent.
void SetBoundingPlanes (vtkPlanes planes)
 A collection of plane equations used to bound the position of the point. This is in addition to confining the point to a plane - these constraints are meant to, for example, keep a point within the extent of an image. Using a set of plane equations allows for more complex bounds (such as bounding a point to an oblique reliced image that has hexagonal shape) than a simple extent.
void SetCursorShape (vtkPolyData cursorShape)
 Specify the cursor shape. Keep in mind that the shape will be aligned with the constraining plane by orienting it such that the x axis of the geometry lies along the normal of the plane.
override void SetDisplayPosition (IntPtr pos)
 Method overridden from Superclass. computes the world co-ordinates using GetIntersectionPosition()
void SetObliquePlane (vtkPlane arg0)
 If the ProjectionNormal is set to Oblique, then this is the oblique plane used to constrain the handle position.
void SetPosition (double x, double y, double z)
 Set/Get the position of the point in display coordinates. These are convenience methods that extend the superclasses' GetHandlePosition() method. Note that only the x-y coordinate values are used.
void SetPosition (IntPtr xyz)
 Set/Get the position of the point in display coordinates. These are convenience methods that extend the superclasses' GetHandlePosition() method. Note that only the x-y coordinate values are used.
virtual void SetProjectionNormal (int _arg)
 Set the projection normal to lie along the x, y, or z axis, or to be oblique. If it is oblique, then the plane is defined in the ObliquePlane ivar.
void SetProjectionNormalToOblique ()
 Set the projection normal to lie along the x, y, or z axis, or to be oblique. If it is oblique, then the plane is defined in the ObliquePlane ivar.
void SetProjectionNormalToXAxis ()
 Set the projection normal to lie along the x, y, or z axis, or to be oblique. If it is oblique, then the plane is defined in the ObliquePlane ivar.
void SetProjectionNormalToYAxis ()
 Set the projection normal to lie along the x, y, or z axis, or to be oblique. If it is oblique, then the plane is defined in the ObliquePlane ivar.
void SetProjectionNormalToZAxis ()
 Set the projection normal to lie along the x, y, or z axis, or to be oblique. If it is oblique, then the plane is defined in the ObliquePlane ivar.
void SetProjectionPosition (double position)
 The position of the bounding plane from the origin along the normal. The origin and normal are defined in the oblique plane when the ProjectionNormal is Oblique. For the X, Y, and Z axes projection normals, the normal is the axis direction, and the origin is (0,0,0).
override void SetRenderer (vtkRenderer ren)
 Subclasses of vtkConstrainedPointHandleRepresentation must implement these methods. These are the methods that the widget and its representation use to communicate with each other.
override void ShallowCopy (vtkProp prop)
 Methods to make this class behave as a vtkProp.
override void StartWidgetInteraction (IntPtr eventPos)
 Subclasses of vtkConstrainedPointHandleRepresentation must implement these methods. These are the methods that the widget and its representation use to communicate with each other.
override void WidgetInteraction (IntPtr eventPos)
 Subclasses of vtkConstrainedPointHandleRepresentation must implement these methods. These are the methods that the widget and its representation use to communicate with each other.

Static Public Member Functions

static new
vtkConstrainedPointHandleRepresentation 
New ()
 Instantiate this class.
static new int IsTypeOf (string type)
 Standard methods for instances of this class.
static new
vtkConstrainedPointHandleRepresentation 
SafeDownCast (vtkObjectBase o)
 Standard methods for instances of this class.

Public Attributes

new const string MRFullTypeName = "Kitware.VTK.vtkConstrainedPointHandleRepresentation"
 Automatically generated type registration mechanics.

Static Public Attributes

static new readonly string MRClassNameKey = "39vtkConstrainedPointHandleRepresentation"
 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.

Private Member Functions

static internal IntPtr vtkConstrainedPointHandleRepresentation_New (ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount)
static internal void vtkConstrainedPointHandleRepresentation_AddBoundingPlane_01 (HandleRef pThis, HandleRef plane)
static internal void vtkConstrainedPointHandleRepresentation_BuildRepresentation_02 (HandleRef pThis)
static internal int vtkConstrainedPointHandleRepresentation_CheckConstraint_03 (HandleRef pThis, HandleRef renderer, IntPtr pos)
static internal int vtkConstrainedPointHandleRepresentation_ComputeInteractionState_04 (HandleRef pThis, int X, int Y, int modify)
static internal IntPtr vtkConstrainedPointHandleRepresentation_GetActiveCursorShape_05 (HandleRef pThis, ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount)
static internal IntPtr vtkConstrainedPointHandleRepresentation_GetActiveProperty_06 (HandleRef pThis, ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount)
static internal void vtkConstrainedPointHandleRepresentation_GetActors_07 (HandleRef pThis, HandleRef arg0)
static internal IntPtr vtkConstrainedPointHandleRepresentation_GetBoundingPlanes_08 (HandleRef pThis, ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount)
static internal IntPtr vtkConstrainedPointHandleRepresentation_GetCursorShape_09 (HandleRef pThis, ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount)
static internal IntPtr vtkConstrainedPointHandleRepresentation_GetObliquePlane_10 (HandleRef pThis, ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount)
static internal IntPtr vtkConstrainedPointHandleRepresentation_GetPosition_11 (HandleRef pThis)
static internal void vtkConstrainedPointHandleRepresentation_GetPosition_12 (HandleRef pThis, IntPtr xyz)
static internal int vtkConstrainedPointHandleRepresentation_GetProjectionNormal_13 (HandleRef pThis)
static internal int vtkConstrainedPointHandleRepresentation_GetProjectionNormalMaxValue_14 (HandleRef pThis)
static internal int vtkConstrainedPointHandleRepresentation_GetProjectionNormalMinValue_15 (HandleRef pThis)
static internal double vtkConstrainedPointHandleRepresentation_GetProjectionPosition_16 (HandleRef pThis)
static internal IntPtr vtkConstrainedPointHandleRepresentation_GetProperty_17 (HandleRef pThis, ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount)
static internal IntPtr vtkConstrainedPointHandleRepresentation_GetSelectedProperty_18 (HandleRef pThis, ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount)
static internal int vtkConstrainedPointHandleRepresentation_HasTranslucentPolygonalGeometry_19 (HandleRef pThis)
static internal void vtkConstrainedPointHandleRepresentation_Highlight_20 (HandleRef pThis, int highlight)
static internal int vtkConstrainedPointHandleRepresentation_IsA_21 (HandleRef pThis, string type)
static internal int vtkConstrainedPointHandleRepresentation_IsTypeOf_22 (string type)
static internal IntPtr vtkConstrainedPointHandleRepresentation_NewInstance_24 (HandleRef pThis, ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount)
static internal void vtkConstrainedPointHandleRepresentation_ReleaseGraphicsResources_25 (HandleRef pThis, HandleRef arg0)
static internal void vtkConstrainedPointHandleRepresentation_RemoveAllBoundingPlanes_26 (HandleRef pThis)
static internal void vtkConstrainedPointHandleRepresentation_RemoveBoundingPlane_27 (HandleRef pThis, HandleRef plane)
static internal int vtkConstrainedPointHandleRepresentation_RenderOpaqueGeometry_28 (HandleRef pThis, HandleRef viewport)
static internal int vtkConstrainedPointHandleRepresentation_RenderOverlay_29 (HandleRef pThis, HandleRef viewport)
static internal int vtkConstrainedPointHandleRepresentation_RenderTranslucentPolygonalGeometry_30 (HandleRef pThis, HandleRef viewport)
static internal IntPtr vtkConstrainedPointHandleRepresentation_SafeDownCast_31 (HandleRef o, ref uint mteStatus, ref uint mteIndex, ref uint rawRefCount)
static internal void vtkConstrainedPointHandleRepresentation_SetActiveCursorShape_32 (HandleRef pThis, HandleRef activeShape)
static internal void vtkConstrainedPointHandleRepresentation_SetBoundingPlanes_33 (HandleRef pThis, HandleRef arg0)
static internal void vtkConstrainedPointHandleRepresentation_SetBoundingPlanes_34 (HandleRef pThis, HandleRef planes)
static internal void vtkConstrainedPointHandleRepresentation_SetCursorShape_35 (HandleRef pThis, HandleRef cursorShape)
static internal void vtkConstrainedPointHandleRepresentation_SetDisplayPosition_36 (HandleRef pThis, IntPtr pos)
static internal void vtkConstrainedPointHandleRepresentation_SetObliquePlane_37 (HandleRef pThis, HandleRef arg0)
static internal void vtkConstrainedPointHandleRepresentation_SetPosition_38 (HandleRef pThis, double x, double y, double z)
static internal void vtkConstrainedPointHandleRepresentation_SetPosition_39 (HandleRef pThis, IntPtr xyz)
static internal void vtkConstrainedPointHandleRepresentation_SetProjectionNormal_40 (HandleRef pThis, int _arg)
static internal void vtkConstrainedPointHandleRepresentation_SetProjectionNormalToOblique_41 (HandleRef pThis)
static internal void vtkConstrainedPointHandleRepresentation_SetProjectionNormalToXAxis_42 (HandleRef pThis)
static internal void vtkConstrainedPointHandleRepresentation_SetProjectionNormalToYAxis_43 (HandleRef pThis)
static internal void vtkConstrainedPointHandleRepresentation_SetProjectionNormalToZAxis_44 (HandleRef pThis)
static internal void vtkConstrainedPointHandleRepresentation_SetProjectionPosition_45 (HandleRef pThis, double position)
static internal void vtkConstrainedPointHandleRepresentation_SetRenderer_46 (HandleRef pThis, HandleRef ren)
static internal void vtkConstrainedPointHandleRepresentation_ShallowCopy_47 (HandleRef pThis, HandleRef prop)
static internal void vtkConstrainedPointHandleRepresentation_StartWidgetInteraction_48 (HandleRef pThis, IntPtr eventPos)
static internal void vtkConstrainedPointHandleRepresentation_WidgetInteraction_49 (HandleRef pThis, IntPtr eventPos)

Static Private Member Functions

static vtkConstrainedPointHandleRepresentation ()
 Automatically generated type registration mechanics.

Detailed Description

vtkConstrainedPointHandleRepresentation - point representation constrained to a 2D plane

Description This class is used to represent a vtkHandleWidget. It represents a position in 3D world coordinates that is constrained to a specified plane. The default look is to draw a white point when this widget is not selected or active, a thin green circle when it is highlighted, and a thicker cyan circle when it is active (being positioned). Defaults can be adjusted - but take care to define cursor geometry that makes sense for this widget. The geometry will be aligned on the constraining plane, with the plane normal aligned with the X axis of the geometry (similar behavior to vtkGlyph3D).

TODO: still need to work on 1) translation when mouse is outside bounding planes 2) size of the widget

vtkHandleRepresentation vtkHandleWidget


Member Enumeration Documentation

Methods to make this class behave as a vtkProp.

Enumerator:
Oblique 

enum member

XAxis 

enum member

YAxis 

enum member

ZAxis 

enum member


Constructor & Destructor Documentation

Automatically generated type registration mechanics.

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

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

Instantiate this class.


Member Function Documentation

A collection of plane equations used to bound the position of the point. This is in addition to confining the point to a plane - these constraints are meant to, for example, keep a point within the extent of an image. Using a set of plane equations allows for more complex bounds (such as bounding a point to an oblique reliced image that has hexagonal shape) than a simple extent.

Subclasses of vtkConstrainedPointHandleRepresentation must implement these methods. These are the methods that the widget and its representation use to communicate with each other.

Reimplemented from Kitware.VTK.vtkWidgetRepresentation.

override int Kitware.VTK.vtkConstrainedPointHandleRepresentation.CheckConstraint ( vtkRenderer  renderer,
IntPtr  pos 
) [virtual]

Overridden from the base class. It converts the display co-ordinates to world co-ordinates. It returns 1 if the point lies within the constrained region, otherwise return 0.

Reimplemented from Kitware.VTK.vtkHandleRepresentation.

override int Kitware.VTK.vtkConstrainedPointHandleRepresentation.ComputeInteractionState ( int  X,
int  Y,
int  modify 
) [virtual]

Subclasses of vtkConstrainedPointHandleRepresentation must implement these methods. These are the methods that the widget and its representation use to communicate with each other.

Reimplemented from Kitware.VTK.vtkWidgetRepresentation.

override void Kitware.VTK.vtkConstrainedPointHandleRepresentation.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.vtkHandleRepresentation.

Specify the shape of the cursor (handle) when it is active. This is the geometry that will be used when the mouse is close to the handle or if the user is manipulating the handle.

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This is the property used when the user is interacting with the handle.

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Methods to make this class behave as a vtkProp.

Reimplemented from Kitware.VTK.vtkWidgetRepresentation.

A collection of plane equations used to bound the position of the point. This is in addition to confining the point to a plane - these constraints are meant to, for example, keep a point within the extent of an image. Using a set of plane equations allows for more complex bounds (such as bounding a point to an oblique reliced image that has hexagonal shape) than a simple extent.

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Specify the cursor shape. Keep in mind that the shape will be aligned with the constraining plane by orienting it such that the x axis of the geometry lies along the normal of the plane.

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If the ProjectionNormal is set to Oblique, then this is the oblique plane used to constrain the handle position.

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Set/Get the position of the point in display coordinates. These are convenience methods that extend the superclasses' GetHandlePosition() method. Note that only the x-y coordinate values are used.

Set/Get the position of the point in display coordinates. These are convenience methods that extend the superclasses' GetHandlePosition() method. Note that only the x-y coordinate values are used.

Set the projection normal to lie along the x, y, or z axis, or to be oblique. If it is oblique, then the plane is defined in the ObliquePlane ivar.

Set the projection normal to lie along the x, y, or z axis, or to be oblique. If it is oblique, then the plane is defined in the ObliquePlane ivar.

Set the projection normal to lie along the x, y, or z axis, or to be oblique. If it is oblique, then the plane is defined in the ObliquePlane ivar.

The position of the bounding plane from the origin along the normal. The origin and normal are defined in the oblique plane when the ProjectionNormal is Oblique. For the X, Y, and Z axes projection normals, the normal is the axis direction, and the origin is (0,0,0).

This is the property used when the handle is not active (the mouse is not near the handle)

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This is the property used when the mouse is near the handle (but the user is not yet interacting with it)

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Methods to make this class behave as a vtkProp.

Reimplemented from Kitware.VTK.vtkWidgetRepresentation.

override void Kitware.VTK.vtkConstrainedPointHandleRepresentation.Highlight ( int  highlight) [virtual]

Methods to make this class behave as a vtkProp.

Reimplemented from Kitware.VTK.vtkWidgetRepresentation.

override int Kitware.VTK.vtkConstrainedPointHandleRepresentation.IsA ( string  type) [virtual]

Standard methods for instances of this class.

Reimplemented from Kitware.VTK.vtkHandleRepresentation.

static new int Kitware.VTK.vtkConstrainedPointHandleRepresentation.IsTypeOf ( string  type) [static]

Standard methods for instances of this class.

Reimplemented from Kitware.VTK.vtkHandleRepresentation.

Instantiate this class.

Reimplemented from Kitware.VTK.vtkObject.

Standard methods for instances of this class.

Reimplemented from Kitware.VTK.vtkHandleRepresentation.

Methods to make this class behave as a vtkProp.

Reimplemented from Kitware.VTK.vtkWidgetRepresentation.

A collection of plane equations used to bound the position of the point. This is in addition to confining the point to a plane - these constraints are meant to, for example, keep a point within the extent of an image. Using a set of plane equations allows for more complex bounds (such as bounding a point to an oblique reliced image that has hexagonal shape) than a simple extent.

A collection of plane equations used to bound the position of the point. This is in addition to confining the point to a plane - these constraints are meant to, for example, keep a point within the extent of an image. Using a set of plane equations allows for more complex bounds (such as bounding a point to an oblique reliced image that has hexagonal shape) than a simple extent.

Methods to make this class behave as a vtkProp.

Reimplemented from Kitware.VTK.vtkWidgetRepresentation.

Methods to make this class behave as a vtkProp.

Reimplemented from Kitware.VTK.vtkWidgetRepresentation.

Methods to make this class behave as a vtkProp.

Reimplemented from Kitware.VTK.vtkWidgetRepresentation.

Standard methods for instances of this class.

Reimplemented from Kitware.VTK.vtkHandleRepresentation.

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Specify the shape of the cursor (handle) when it is active. This is the geometry that will be used when the mouse is close to the handle or if the user is manipulating the handle.

A collection of plane equations used to bound the position of the point. This is in addition to confining the point to a plane - these constraints are meant to, for example, keep a point within the extent of an image. Using a set of plane equations allows for more complex bounds (such as bounding a point to an oblique reliced image that has hexagonal shape) than a simple extent.

A collection of plane equations used to bound the position of the point. This is in addition to confining the point to a plane - these constraints are meant to, for example, keep a point within the extent of an image. Using a set of plane equations allows for more complex bounds (such as bounding a point to an oblique reliced image that has hexagonal shape) than a simple extent.

Specify the cursor shape. Keep in mind that the shape will be aligned with the constraining plane by orienting it such that the x axis of the geometry lies along the normal of the plane.

Method overridden from Superclass. computes the world co-ordinates using GetIntersectionPosition()

Reimplemented from Kitware.VTK.vtkHandleRepresentation.

If the ProjectionNormal is set to Oblique, then this is the oblique plane used to constrain the handle position.

void Kitware.VTK.vtkConstrainedPointHandleRepresentation.SetPosition ( double  x,
double  y,
double  z 
)

Set/Get the position of the point in display coordinates. These are convenience methods that extend the superclasses' GetHandlePosition() method. Note that only the x-y coordinate values are used.

Set/Get the position of the point in display coordinates. These are convenience methods that extend the superclasses' GetHandlePosition() method. Note that only the x-y coordinate values are used.

Set the projection normal to lie along the x, y, or z axis, or to be oblique. If it is oblique, then the plane is defined in the ObliquePlane ivar.

Set the projection normal to lie along the x, y, or z axis, or to be oblique. If it is oblique, then the plane is defined in the ObliquePlane ivar.

Set the projection normal to lie along the x, y, or z axis, or to be oblique. If it is oblique, then the plane is defined in the ObliquePlane ivar.

Set the projection normal to lie along the x, y, or z axis, or to be oblique. If it is oblique, then the plane is defined in the ObliquePlane ivar.

Set the projection normal to lie along the x, y, or z axis, or to be oblique. If it is oblique, then the plane is defined in the ObliquePlane ivar.

The position of the bounding plane from the origin along the normal. The origin and normal are defined in the oblique plane when the ProjectionNormal is Oblique. For the X, Y, and Z axes projection normals, the normal is the axis direction, and the origin is (0,0,0).

Subclasses of vtkConstrainedPointHandleRepresentation must implement these methods. These are the methods that the widget and its representation use to communicate with each other.

Reimplemented from Kitware.VTK.vtkHandleRepresentation.

Methods to make this class behave as a vtkProp.

Reimplemented from Kitware.VTK.vtkHandleRepresentation.

Subclasses of vtkConstrainedPointHandleRepresentation must implement these methods. These are the methods that the widget and its representation use to communicate with each other.

Reimplemented from Kitware.VTK.vtkWidgetRepresentation.

static internal void Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_AddBoundingPlane_01 ( HandleRef  pThis,
HandleRef  plane 
) [private]
static internal int Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_CheckConstraint_03 ( HandleRef  pThis,
HandleRef  renderer,
IntPtr  pos 
) [private]
static internal int Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_ComputeInteractionState_04 ( HandleRef  pThis,
int  X,
int  Y,
int  modify 
) [private]
static internal IntPtr Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_GetActiveCursorShape_05 ( HandleRef  pThis,
ref uint  mteStatus,
ref uint  mteIndex,
ref uint  rawRefCount 
) [private]
static internal IntPtr Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_GetActiveProperty_06 ( HandleRef  pThis,
ref uint  mteStatus,
ref uint  mteIndex,
ref uint  rawRefCount 
) [private]
static internal void Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_GetActors_07 ( HandleRef  pThis,
HandleRef  arg0 
) [private]
static internal IntPtr Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_GetBoundingPlanes_08 ( HandleRef  pThis,
ref uint  mteStatus,
ref uint  mteIndex,
ref uint  rawRefCount 
) [private]
static internal IntPtr Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_GetCursorShape_09 ( HandleRef  pThis,
ref uint  mteStatus,
ref uint  mteIndex,
ref uint  rawRefCount 
) [private]
static internal IntPtr Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_GetObliquePlane_10 ( HandleRef  pThis,
ref uint  mteStatus,
ref uint  mteIndex,
ref uint  rawRefCount 
) [private]
static internal void Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_GetPosition_12 ( HandleRef  pThis,
IntPtr  xyz 
) [private]
static internal IntPtr Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_GetProperty_17 ( HandleRef  pThis,
ref uint  mteStatus,
ref uint  mteIndex,
ref uint  rawRefCount 
) [private]
static internal IntPtr Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_GetSelectedProperty_18 ( HandleRef  pThis,
ref uint  mteStatus,
ref uint  mteIndex,
ref uint  rawRefCount 
) [private]
static internal void Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_Highlight_20 ( HandleRef  pThis,
int  highlight 
) [private]
static internal int Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_IsA_21 ( HandleRef  pThis,
string  type 
) [private]
static internal IntPtr Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_New ( ref uint  mteStatus,
ref uint  mteIndex,
ref uint  rawRefCount 
) [private]
static internal IntPtr Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_NewInstance_24 ( HandleRef  pThis,
ref uint  mteStatus,
ref uint  mteIndex,
ref uint  rawRefCount 
) [private]
static internal void Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_RemoveBoundingPlane_27 ( HandleRef  pThis,
HandleRef  plane 
) [private]
static internal int Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_RenderOpaqueGeometry_28 ( HandleRef  pThis,
HandleRef  viewport 
) [private]
static internal int Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_RenderOverlay_29 ( HandleRef  pThis,
HandleRef  viewport 
) [private]
static internal IntPtr Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_SafeDownCast_31 ( HandleRef  o,
ref uint  mteStatus,
ref uint  mteIndex,
ref uint  rawRefCount 
) [private]
static internal void Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_SetActiveCursorShape_32 ( HandleRef  pThis,
HandleRef  activeShape 
) [private]
static internal void Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_SetBoundingPlanes_33 ( HandleRef  pThis,
HandleRef  arg0 
) [private]
static internal void Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_SetBoundingPlanes_34 ( HandleRef  pThis,
HandleRef  planes 
) [private]
static internal void Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_SetCursorShape_35 ( HandleRef  pThis,
HandleRef  cursorShape 
) [private]
static internal void Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_SetObliquePlane_37 ( HandleRef  pThis,
HandleRef  arg0 
) [private]
static internal void Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_SetPosition_38 ( HandleRef  pThis,
double  x,
double  y,
double  z 
) [private]
static internal void Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_SetPosition_39 ( HandleRef  pThis,
IntPtr  xyz 
) [private]
static internal void Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_SetRenderer_46 ( HandleRef  pThis,
HandleRef  ren 
) [private]
static internal void Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_ShallowCopy_47 ( HandleRef  pThis,
HandleRef  prop 
) [private]
static internal void Kitware.VTK.vtkConstrainedPointHandleRepresentation.vtkConstrainedPointHandleRepresentation_WidgetInteraction_49 ( HandleRef  pThis,
IntPtr  eventPos 
) [private]
override void Kitware.VTK.vtkConstrainedPointHandleRepresentation.WidgetInteraction ( IntPtr  eventPos) [virtual]

Subclasses of vtkConstrainedPointHandleRepresentation must implement these methods. These are the methods that the widget and its representation use to communicate with each other.

Reimplemented from Kitware.VTK.vtkWidgetRepresentation.


Member Data Documentation

new readonly string Kitware.VTK.vtkConstrainedPointHandleRepresentation.MRClassNameKey = "39vtkConstrainedPointHandleRepresentation" [static]

Automatically generated type registration mechanics.

Reimplemented from Kitware.VTK.vtkHandleRepresentation.

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

Automatically generated type registration mechanics.

Reimplemented from Kitware.VTK.vtkHandleRepresentation.


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