/usr/include/vtk-5.10/vtkSphereRepresentation.h is in libvtk5-dev 5.10.1+dfsg-2.1build1.
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Program: Visualization Toolkit
Module: vtkSphereRepresentation.h
Copyright (c) Ken Martin, Will Schroeder, Bill Lorensen
All rights reserved.
See Copyright.txt or http://www.kitware.com/Copyright.htm for details.
This software is distributed WITHOUT ANY WARRANTY; without even
the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
PURPOSE. See the above copyright notice for more information.
=========================================================================*/
// .NAME vtkSphereRepresentation - a class defining the representation for the vtkSphereWidget2
// .SECTION Description
// This class is a concrete representation for the vtkSphereWidget2. It
// represents a sphere with an optional handle. Through interaction with the
// widget, the sphere can be arbitrarily positioned and scaled in 3D space;
// and the handle can be moved on the surface of the sphere. Typically the
// vtkSphereWidget2/vtkSphereRepresentation are used to position a sphere for
// the purpose of extracting, cutting or clipping data; or the handle is
// moved on the sphere to position a light or camera.
//
// To use this representation, you normally use the PlaceWidget() method
// to position the widget at a specified region in space. It is also possible
// to set the center of the sphere, a radius, and/or a handle position.
//
// .SECTION Caveats
// Note that the representation is overconstrained in that the center and radius
// of the sphere can be defined, this information plus the handle direction defines
// the geometry of the representation. Alternatively, the user may specify the center
// of the sphere plus the handle position.
//
// This class, and vtkSphereWidget2, are second generation VTK widgets. An
// earlier version of this functionality was defined in the class
// vtkSphereWidget.
// .SECTION See Also
// vtkSphereWidget2 vtkSphereWidget
#ifndef __vtkSphereRepresentation_h
#define __vtkSphereRepresentation_h
#include "vtkWidgetRepresentation.h"
#include "vtkSphereSource.h" // Needed for fast access to the sphere source
class vtkActor;
class vtkPolyDataMapper;
class vtkSphere;
class vtkSphereSource;
class vtkCellPicker;
class vtkProperty;
class vtkPolyData;
class vtkPoints;
class vtkPolyDataAlgorithm;
class vtkTransform;
class vtkDoubleArray;
class vtkMatrix4x4;
class vtkTextMapper;
class vtkActor2D;
class vtkTextProperty;
class vtkLineSource;
#define VTK_SPHERE_OFF 0
#define VTK_SPHERE_WIREFRAME 1
#define VTK_SPHERE_SURFACE 2
class VTK_WIDGETS_EXPORT vtkSphereRepresentation : public vtkWidgetRepresentation
{
public:
// Description:
// Instantiate the class.
static vtkSphereRepresentation *New();
// Description:
// Standard methods for type information and to print out the contents of the class.
vtkTypeMacro(vtkSphereRepresentation,vtkWidgetRepresentation);
void PrintSelf(ostream& os, vtkIndent indent);
//BTX - used to manage the state of the widget
enum {Outside=0,MovingHandle,OnSphere,Translating,Scaling};
//ETX
// Description:
// Set the representation (i.e., appearance) of the sphere. Different
// representations are useful depending on the application.
vtkSetClampMacro(Representation,int,VTK_SPHERE_OFF,VTK_SPHERE_SURFACE);
vtkGetMacro(Representation,int);
void SetRepresentationToOff()
{ this->SetRepresentation(VTK_SPHERE_OFF);}
void SetRepresentationToWireframe()
{ this->SetRepresentation(VTK_SPHERE_WIREFRAME);}
void SetRepresentationToSurface()
{ this->SetRepresentation(VTK_SPHERE_SURFACE);}
// Description:
// Set/Get the resolution of the sphere in the theta direction.
void SetThetaResolution(int r)
{ this->SphereSource->SetThetaResolution(r); }
int GetThetaResolution()
{ return this->SphereSource->GetThetaResolution(); }
// Description:
// Set/Get the resolution of the sphere in the phi direction.
void SetPhiResolution(int r)
{ this->SphereSource->SetPhiResolution(r); }
int GetPhiResolution()
{ return this->SphereSource->GetPhiResolution(); }
// Description:
// Set/Get the center position of the sphere. Note that this may
// adjust the direction from the handle to the center, as well as
// the radius of the sphere.
void SetCenter(double c[3]);
void SetCenter(double x, double y, double z)
{double c[3]; c[0]=x; c[1]=y; c[2]=z; this->SetCenter(c);}
double* GetCenter()
{return this->SphereSource->GetCenter();}
void GetCenter(double xyz[3])
{this->SphereSource->GetCenter(xyz);}
// Description:
// Set/Get the radius of sphere. Default is 0.5. Note that this may
// modify the position of the handle based on the handle direction.
void SetRadius(double r);
double GetRadius()
{ return this->SphereSource->GetRadius(); }
// Description:
// The handle sits on the surface of the sphere and may be moved around
// the surface by picking (left mouse) and then moving. The position
// of the handle can be retrieved, this is useful for positioning cameras
// and lights. By default, the handle is turned off.
vtkSetMacro(HandleVisibility,int);
vtkGetMacro(HandleVisibility,int);
vtkBooleanMacro(HandleVisibility,int);
// Description:
// Set/Get the position of the handle. Note that this may adjust the radius
// of the sphere and the handle direction.
void SetHandlePosition(double handle[3]);
void SetHandlePosition(double x, double y, double z)
{double p[3]; p[0]=x; p[1]=y; p[2]=z; this->SetHandlePosition(p);}
vtkGetVector3Macro(HandlePosition,double);
// Description:
// Set/Get the direction vector of the handle relative to the center of
// the sphere. This may affect the position of the handle and the radius
// of the sphere.
void SetHandleDirection(double dir[3]);
void SetHandleDirection(double dx, double dy, double dz)
{double d[3]; d[0]=dx; d[1]=dy; d[2]=dz; this->SetHandleDirection(d);}
vtkGetVector3Macro(HandleDirection,double);
// Description:
// Enable/disable a label that displays the location of the handle in
// spherical coordinates (radius,theta,phi). The two angles, theta and
// phi, are displayed in degrees. Note that phi is measured from the
// north pole down towards the equator; and theta is the angle around
// the north/south axis.
vtkSetMacro(HandleText,int);
vtkGetMacro(HandleText,int);
vtkBooleanMacro(HandleText,int);
// Description:
// Enable/disable a radial line segment that joins the center of the
// outer sphere and the handle.
vtkSetMacro(RadialLine,int);
vtkGetMacro(RadialLine,int);
vtkBooleanMacro(RadialLine,int);
// Description:
// Grab the polydata (including points) that defines the sphere. The
// polydata consists of n+1 points, where n is the resolution of the
// sphere. These point values are guaranteed to be up-to-date when either the
// InteractionEvent or EndInteraction events are invoked. The user provides
// the vtkPolyData and the points and polysphere are added to it.
void GetPolyData(vtkPolyData *pd);
// Description:
// Get the spherical implicit function defined by this widget. Note that
// vtkSphere is a subclass of vtkImplicitFunction, meaning that it can be
// used by a variety of filters to perform clipping, cutting, and selection
// of data.
void GetSphere(vtkSphere *sphere);
// Description:
// Get the sphere properties. The properties of the sphere when selected
// and unselected can be manipulated.
vtkGetObjectMacro(SphereProperty,vtkProperty);
vtkGetObjectMacro(SelectedSphereProperty,vtkProperty);
// Description:
// Get the handle properties (the little ball on the sphere is the
// handle). The properties of the handle when selected and unselected
// can be manipulated.
vtkGetObjectMacro(HandleProperty,vtkProperty);
vtkGetObjectMacro(SelectedHandleProperty,vtkProperty);
// Description:
// Get the handle text property. This can be used to control the appearance
// of the handle text.
vtkGetObjectMacro(HandleTextProperty,vtkTextProperty);
// Description:
// Get the property of the radial line. This can be used to control the
// appearance of the optional line connecting the center to the handle.
vtkGetObjectMacro(RadialLineProperty,vtkProperty);
// Description:
// The interaction state may be set from a widget (e.g., vtkSphereWidget2) or
// other object. This controls how the interaction with the widget
// proceeds. Normally this method is used as part of a handshaking
// process with the widget: First ComputeInteractionState() is invoked that
// returns a state based on geometric considerations (i.e., cursor near a
// widget feature), then based on events, the widget may modify this
// further.
void SetInteractionState(int state);
// Description:
// These are methods that satisfy vtkWidgetRepresentation's API. Note that a
// version of place widget is available where the center and handle position
// are specified.
virtual void PlaceWidget(double bounds[6]);
virtual void PlaceWidget(double center[3], double handlePosition[3]);
virtual void BuildRepresentation();
virtual int ComputeInteractionState(int X, int Y, int modify=0);
virtual void StartWidgetInteraction(double e[2]);
virtual void WidgetInteraction(double e[2]);
virtual double *GetBounds();
// Description:
// Methods supporting, and required by, the rendering process.
virtual void ReleaseGraphicsResources(vtkWindow*);
virtual int RenderOpaqueGeometry(vtkViewport*);
virtual int RenderTranslucentPolygonalGeometry(vtkViewport*);
virtual int RenderOverlay(vtkViewport*);
virtual int HasTranslucentPolygonalGeometry();
protected:
vtkSphereRepresentation();
~vtkSphereRepresentation();
// Manage how the representation appears
double LastEventPosition[3];
// the sphere
vtkActor *SphereActor;
vtkPolyDataMapper *SphereMapper;
vtkSphereSource *SphereSource;
void HighlightSphere(int highlight);
// The representation of the sphere
int Representation;
// Do the picking
vtkCellPicker *HandlePicker;
vtkCellPicker *SpherePicker;
double LastPickPosition[3];
// Methods to manipulate the sphere widget
void Translate(double *p1, double *p2);
void Scale(double *p1, double *p2, int X, int Y);
void PlaceHandle(double *center, double radius);
virtual void SizeHandles();
// Properties used to control the appearance of selected objects and
// the manipulator in general.
vtkProperty *SphereProperty;
vtkProperty *SelectedSphereProperty;
vtkProperty *HandleProperty;
vtkProperty *SelectedHandleProperty;
void CreateDefaultProperties();
// Managing the handle
vtkActor *HandleActor;
vtkPolyDataMapper *HandleMapper;
vtkSphereSource *HandleSource;
void HighlightHandle(int);
int HandleVisibility;
double HandleDirection[3];
double HandlePosition[3];
// Manage the handle label
int HandleText;
vtkTextProperty *HandleTextProperty;
vtkTextMapper *HandleTextMapper;
vtkActor2D *HandleTextActor;
// Manage the radial line segment
int RadialLine;
vtkProperty *RadialLineProperty;
vtkLineSource *RadialLineSource;
vtkPolyDataMapper *RadialLineMapper;
vtkActor *RadialLineActor;
private:
vtkSphereRepresentation(const vtkSphereRepresentation&); //Not implemented
void operator=(const vtkSphereRepresentation&); //Not implemented
};
#endif
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