Public Member Functions |
| vtkOpenGLCamera (IntPtr rawCppThis, bool callDisposalMethod, bool strong) |
| Automatically generated constructor - called from generated code. DO NOT call directly.
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| vtkOpenGLCamera () |
| Undocumented Block
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override int | IsA (string type) |
| Undocumented Block
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new vtkOpenGLCamera | NewInstance () |
| Undocumented Block
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override void | Render (vtkRenderer ren) |
| Implement base class method.
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override void | UpdateViewport (vtkRenderer ren) |
| Implement base class method.
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| vtkCamera (IntPtr rawCppThis, bool callDisposalMethod, bool strong) |
| Automatically generated constructor - called from generated code. DO NOT call directly.
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| vtkCamera () |
| Construct camera instance with its focal point at the origin, and position=(0,0,1). The view up is along the y-axis, view angle is 30 degrees, and the clipping range is (.1,1000).
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void | ApplyTransform (vtkTransform t) |
| Apply a transform to the camera. The camera position, focal-point, and view-up are re-calculated using the transform's matrix to multiply the old points by the new transform.
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void | Azimuth (double angle) |
| Rotate the camera about the view up vector centered at the focal point. Note that the view up vector is whatever was set via SetViewUp, and is not necessarily perpendicular to the direction of projection. The result is a horizontal rotation of the camera.
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void | ComputeProjAndViewParams () |
| This function does 3 things.
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void | ComputeViewPlaneNormal () |
| This method is called automatically whenever necessary, it should never be used outside of vtkCamera.cxx.
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void | DeepCopy (vtkCamera source) |
| Copy the properties of source' into this'. Copy the contents of the matrices.
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void | Dolly (double value) |
| Divide the camera's distance from the focal point by the given dolly value. Use a value greater than one to dolly-in toward the focal point, and use a value less than one to dolly-out away from the focal point.
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void | Elevation (double angle) |
| Rotate the camera about the cross product of the negative of the direction of projection and the view up vector, using the focal point as the center of rotation. The result is a vertical rotation of the scene.
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vtkMatrix4x4 | GetCameraLightTransformMatrix () |
| Returns a transformation matrix for a coordinate frame attached to the camera, where the camera is located at (0, 0, 1) looking at the focal point at (0, 0, 0), with up being (0, 1, 0).
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virtual double[] | GetClippingRange () |
| Set/Get the location of the near and far clipping planes along the direction of projection. Both of these values must be positive. How the clipping planes are set can have a large impact on how well z-buffering works. In particular the front clipping plane can make a very big difference. Setting it to 0.01 when it really could be 1.0 can have a big impact on your z-buffer resolution farther away. The default clipping range is (0.1,1000).
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virtual void | GetClippingRange (ref double _arg1, ref double _arg2) |
| Set/Get the location of the near and far clipping planes along the direction of projection. Both of these values must be positive. How the clipping planes are set can have a large impact on how well z-buffering works. In particular the front clipping plane can make a very big difference. Setting it to 0.01 when it really could be 1.0 can have a big impact on your z-buffer resolution farther away. The default clipping range is (0.1,1000).
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virtual void | GetClippingRange (IntPtr _arg) |
| Set/Get the location of the near and far clipping planes along the direction of projection. Both of these values must be positive. How the clipping planes are set can have a large impact on how well z-buffering works. In particular the front clipping plane can make a very big difference. Setting it to 0.01 when it really could be 1.0 can have a big impact on your z-buffer resolution farther away. The default clipping range is (0.1,1000).
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virtual vtkMatrix4x4 | GetCompositeProjectionTransformMatrix (double aspect, double nearz, double farz) |
| Return the concatenation of the ViewTransform and the ProjectionTransform. This transform will convert world coordinates to viewport coordinates. The 'aspect' is the width/height for the viewport, and the nearz and farz are the Z-buffer values that map to the near and far clipping planes. The viewport coordinates of a point located inside the frustum are in the range ([-1,+1],[-1,+1],[nearz,farz]).
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virtual double[] | GetDirectionOfProjection () |
| Get the vector in the direction from the camera position to the focal point. This is usually the opposite of the ViewPlaneNormal, the vector perpendicular to the screen, unless the view is oblique.
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virtual void | GetDirectionOfProjection (ref double _arg1, ref double _arg2, ref double _arg3) |
| Get the vector in the direction from the camera position to the focal point. This is usually the opposite of the ViewPlaneNormal, the vector perpendicular to the screen, unless the view is oblique.
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virtual void | GetDirectionOfProjection (IntPtr _arg) |
| Get the vector in the direction from the camera position to the focal point. This is usually the opposite of the ViewPlaneNormal, the vector perpendicular to the screen, unless the view is oblique.
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virtual double | GetDistance () |
| Return the distance from the camera position to the focal point. This distance is positive.
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virtual double | GetEyeAngle () |
| Set/Get the separation between eyes (in degrees). This is used when generating stereo images.
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virtual double | GetFocalDisk () |
| Set the size of the cameras lens in world coordinates. This is only used when the renderer is doing focal depth rendering. When that is being done the size of the focal disk will effect how significant the depth effects will be.
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virtual double[] | GetFocalPoint () |
| Set/Get the focal of the camera in world coordinates. The default focal point is the origin.
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virtual void | GetFocalPoint (ref double _arg1, ref double _arg2, ref double _arg3) |
| Set/Get the focal of the camera in world coordinates. The default focal point is the origin.
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virtual void | GetFocalPoint (IntPtr _arg) |
| Set/Get the focal of the camera in world coordinates. The default focal point is the origin.
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virtual void | GetFrustumPlanes (double aspect, IntPtr planes) |
| Get the plane equations that bound the view frustum. The plane normals point inward. The planes array contains six plane equations of the form (Ax+By+Cz+D=0), the first four values are (A,B,C,D) which repeats for each of the planes. The planes are given in the following order: -x,+x,-y,+y,-z,+z. Warning: it means left,right,bottom,top,far,near (NOT near,far) The aspect of the viewport is needed to correctly compute the planes
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virtual int | GetHeadTracked () |
| HeadTracker mode. It impacts on the computation of the transforms. Initial value is false. vtkSetMacro(HeadTracked,bool);
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virtual int | GetLeftEye () |
| Set the Left Eye setting
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double[] | GetOrientation () |
| Get the orientation of the camera.
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double[] | GetOrientationWXYZ () |
| Get the orientation of the camera.
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virtual int | GetParallelProjection () |
| Set/Get the value of the ParallelProjection instance variable. This determines if the camera should do a perspective or parallel projection.
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virtual double | GetParallelScale () |
| Set/Get the scaling used for a parallel projection, i.e. the height of the viewport in world-coordinate distances. The default is 1. Note that the "scale" parameter works as an "inverse scale" — larger numbers produce smaller images. This method has no effect in perspective projection mode.
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virtual double[] | GetPosition () |
| Set/Get the position of the camera in world coordinates. The default position is (0,0,1).
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virtual void | GetPosition (ref double _arg1, ref double _arg2, ref double _arg3) |
| Set/Get the position of the camera in world coordinates. The default position is (0,0,1).
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virtual void | GetPosition (IntPtr _arg) |
| Set/Get the position of the camera in world coordinates. The default position is (0,0,1).
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virtual vtkMatrix4x4 | GetProjectionTransformMatrix (double aspect, double nearz, double farz) |
| Return the projection transform matrix, which converts from camera coordinates to viewport coordinates. The 'aspect' is the width/height for the viewport, and the nearz and farz are the Z-buffer values that map to the near and far clipping planes. The viewport coordinates of a point located inside the frustum are in the range ([-1,+1],[-1,+1],[nearz,farz]).
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virtual vtkPerspectiveTransform | GetProjectionTransformObject (double aspect, double nearz, double farz) |
| Return the projection transform matrix, which converts from camera coordinates to viewport coordinates. The 'aspect' is the width/height for the viewport, and the nearz and farz are the Z-buffer values that map to the near and far clipping planes. The viewport coordinates of a point located inside the frustum are in the range ([-1,+1],[-1,+1],[nearz,farz]).
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double | GetRoll () |
| Set the roll angle of the camera about the direction of projection.
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virtual double | GetThickness () |
| Set the distance between clipping planes. This method adjusts the far clipping plane to be set a distance 'thickness' beyond the near clipping plane.
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virtual int | GetUseHorizontalViewAngle () |
| Set/Get the value of the UseHorizontalViewAngle instance variable. If set, the camera's view angle represents a horizontal view angle, rather than the default vertical view angle. This is useful if the application uses a display device which whose specs indicate a particular horizontal view angle, or if the application varies the window height but wants to keep the perspective transform unchanges.
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virtual vtkHomogeneousTransform | GetUserTransform () |
| In addition to the instance variables such as position and orientation, you can add an additional transformation for your own use. This transformation is concatenated to the camera's ProjectionTransform
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virtual vtkHomogeneousTransform | GetUserViewTransform () |
| In addition to the instance variables such as position and orientation, you can add an additional transformation for your own use. This transformation is concatenated to the camera's ViewTransform
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virtual double | GetViewAngle () |
| Set/Get the camera view angle, which is the angular height of the camera view measured in degrees. The default angle is 30 degrees. This method has no effect in parallel projection mode. The formula for setting the angle up for perfect perspective viewing is: angle = 2*atan((h/2)/d) where h is the height of the RenderWindow (measured by holding a ruler up to your screen) and d is the distance from your eyes to the screen.
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virtual double[] | GetViewPlaneNormal () |
| Get the ViewPlaneNormal. This vector will point opposite to the direction of projection, unless you have created an sheared output view using SetViewShear/SetObliqueAngles.
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virtual void | GetViewPlaneNormal (ref double _arg1, ref double _arg2, ref double _arg3) |
| Get the ViewPlaneNormal. This vector will point opposite to the direction of projection, unless you have created an sheared output view using SetViewShear/SetObliqueAngles.
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virtual void | GetViewPlaneNormal (IntPtr _arg) |
| Get the ViewPlaneNormal. This vector will point opposite to the direction of projection, unless you have created an sheared output view using SetViewShear/SetObliqueAngles.
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virtual double[] | GetViewShear () |
| Set/get the shear transform of the viewing frustum. Parameters are dx/dz, dy/dz, and center. center is a factor that describes where to shear around. The distance dshear from the camera where no shear occurs is given by (dshear = center * FocalDistance).
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virtual void | GetViewShear (ref double _arg1, ref double _arg2, ref double _arg3) |
| Set/get the shear transform of the viewing frustum. Parameters are dx/dz, dy/dz, and center. center is a factor that describes where to shear around. The distance dshear from the camera where no shear occurs is given by (dshear = center * FocalDistance).
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virtual void | GetViewShear (IntPtr _arg) |
| Set/get the shear transform of the viewing frustum. Parameters are dx/dz, dy/dz, and center. center is a factor that describes where to shear around. The distance dshear from the camera where no shear occurs is given by (dshear = center * FocalDistance).
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virtual vtkMatrix4x4 | GetViewTransformMatrix () |
| Return the matrix of the view transform. The ViewTransform depends on only three ivars: the Position, the FocalPoint, and the ViewUp vector. All the other methods are there simply for the sake of the users' convenience.
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virtual vtkTransform | GetViewTransformObject () |
| Return the view transform. The ViewTransform depends on only three ivars: the Position, the FocalPoint, and the ViewUp vector. All the other methods are there simply for the sake of the users' convenience.
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virtual double[] | GetViewUp () |
| Set/Get the view up direction for the camera. The default is (0,1,0).
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virtual void | GetViewUp (ref double _arg1, ref double _arg2, ref double _arg3) |
| Set/Get the view up direction for the camera. The default is (0,1,0).
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virtual void | GetViewUp (IntPtr _arg) |
| Set/Get the view up direction for the camera. The default is (0,1,0).
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uint | GetViewingRaysMTime () |
| Return the MTime that concerns recomputing the view rays of the camera.
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virtual double[] | GetWindowCenter () |
| Set/Get the center of the window in viewport coordinates. The viewport coordinate range is ([-1,+1],[-1,+1]). This method is for if you have one window which consists of several viewports, or if you have several screens which you want to act together as one large screen.
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virtual void | GetWindowCenter (ref double _arg1, ref double _arg2) |
| Set/Get the center of the window in viewport coordinates. The viewport coordinate range is ([-1,+1],[-1,+1]). This method is for if you have one window which consists of several viewports, or if you have several screens which you want to act together as one large screen.
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virtual void | GetWindowCenter (IntPtr _arg) |
| Set/Get the center of the window in viewport coordinates. The viewport coordinate range is ([-1,+1],[-1,+1]). This method is for if you have one window which consists of several viewports, or if you have several screens which you want to act together as one large screen.
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void | OrthogonalizeViewUp () |
| Recompute the ViewUp vector to force it to be perpendicular to camera->focalpoint vector. Unless you are going to use Yaw or Azimuth on the camera, there is no need to do this.
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virtual void | ParallelProjectionOff () |
| Set/Get the value of the ParallelProjection instance variable. This determines if the camera should do a perspective or parallel projection.
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virtual void | ParallelProjectionOn () |
| Set/Get the value of the ParallelProjection instance variable. This determines if the camera should do a perspective or parallel projection.
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void | Pitch (double angle) |
| Rotate the focal point about the cross product of the view up vector and the direction of projection, using the camera's position as the center of rotation. The result is a vertical rotation of the camera.
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void | Roll (double angle) |
| Rotate the camera about the direction of projection. This will spin the camera about its axis.
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void | SetClippingRange (double dNear, double dFar) |
| Set/Get the location of the near and far clipping planes along the direction of projection. Both of these values must be positive. How the clipping planes are set can have a large impact on how well z-buffering works. In particular the front clipping plane can make a very big difference. Setting it to 0.01 when it really could be 1.0 can have a big impact on your z-buffer resolution farther away. The default clipping range is (0.1,1000).
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void | SetClippingRange (IntPtr a) |
| Set/Get the location of the near and far clipping planes along the direction of projection. Both of these values must be positive. How the clipping planes are set can have a large impact on how well z-buffering works. In particular the front clipping plane can make a very big difference. Setting it to 0.01 when it really could be 1.0 can have a big impact on your z-buffer resolution farther away. The default clipping range is (0.1,1000).
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void | SetConfigParams (double o2screen, double o2right, double o2left, double o2top, double o2bottom, double interOccDist, double scale, vtkMatrix4x4 surfaceRot) |
| Setting the configuration parameters for head tracked camera
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void | SetDistance (double arg0) |
| Move the focal point so that it is the specified distance from the camera position. This distance must be positive.
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virtual void | SetEyeAngle (double _arg) |
| Set/Get the separation between eyes (in degrees). This is used when generating stereo images.
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virtual void | SetFocalDisk (double _arg) |
| Set the size of the cameras lens in world coordinates. This is only used when the renderer is doing focal depth rendering. When that is being done the size of the focal disk will effect how significant the depth effects will be.
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void | SetFocalPoint (double x, double y, double z) |
| Set/Get the focal of the camera in world coordinates. The default focal point is the origin.
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void | SetFocalPoint (IntPtr a) |
| Set/Get the focal of the camera in world coordinates. The default focal point is the origin.
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void | SetHeadPose (double x00, double x01, double x02, double x03, double x10, double x11, double x12, double x13, double x20, double x21, double x22, double x23, double x30, double x31, double x32, double x33) |
| This function is a convinience function intended for the Paraview ServerManager
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virtual void | SetHeadTracked (int _arg) |
| HeadTracker mode. It impacts on the computation of the transforms. Initial value is false. vtkSetMacro(HeadTracked,bool);
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virtual void | SetLeftEye (int _arg) |
| Set the Left Eye setting
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void | SetObliqueAngles (double alpha, double beta) |
| Get/Set the oblique viewing angles. The first angle, alpha, is the angle (measured from the horizontal) that rays along the direction of projection will follow once projected onto the 2D screen. The second angle, beta, is the angle between the view plane and the direction of projection. This creates a shear transform x' = x + dz*cos(alpha)/tan(beta), y' = dz*sin(alpha)/tan(beta) where dz is the distance of the point from the focal plane. The angles are (45,90) by default. Oblique projections commonly use (30,63.435).
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void | SetParallelProjection (int flag) |
| Set/Get the value of the ParallelProjection instance variable. This determines if the camera should do a perspective or parallel projection.
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void | SetParallelScale (double scale) |
| Set/Get the scaling used for a parallel projection, i.e. the height of the viewport in world-coordinate distances. The default is 1. Note that the "scale" parameter works as an "inverse scale" — larger numbers produce smaller images. This method has no effect in perspective projection mode.
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void | SetPosition (double x, double y, double z) |
| Set/Get the position of the camera in world coordinates. The default position is (0,0,1).
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void | SetPosition (IntPtr a) |
| Set/Get the position of the camera in world coordinates. The default position is (0,0,1).
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void | SetRoll (double angle) |
| Set the roll angle of the camera about the direction of projection.
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void | SetThickness (double arg0) |
| Set the distance between clipping planes. This method adjusts the far clipping plane to be set a distance 'thickness' beyond the near clipping plane.
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void | SetUseHorizontalViewAngle (int flag) |
| Set/Get the value of the UseHorizontalViewAngle instance variable. If set, the camera's view angle represents a horizontal view angle, rather than the default vertical view angle. This is useful if the application uses a display device which whose specs indicate a particular horizontal view angle, or if the application varies the window height but wants to keep the perspective transform unchanges.
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void | SetUserTransform (vtkHomogeneousTransform transform) |
| In addition to the instance variables such as position and orientation, you can add an additional transformation for your own use. This transformation is concatenated to the camera's ProjectionTransform
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void | SetUserViewTransform (vtkHomogeneousTransform transform) |
| In addition to the instance variables such as position and orientation, you can add an additional transformation for your own use. This transformation is concatenated to the camera's ViewTransform
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void | SetViewAngle (double angle) |
| Set/Get the camera view angle, which is the angular height of the camera view measured in degrees. The default angle is 30 degrees. This method has no effect in parallel projection mode. The formula for setting the angle up for perfect perspective viewing is: angle = 2*atan((h/2)/d) where h is the height of the RenderWindow (measured by holding a ruler up to your screen) and d is the distance from your eyes to the screen.
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void | SetViewShear (double dxdz, double dydz, double center) |
| Set/get the shear transform of the viewing frustum. Parameters are dx/dz, dy/dz, and center. center is a factor that describes where to shear around. The distance dshear from the camera where no shear occurs is given by (dshear = center * FocalDistance).
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void | SetViewShear (IntPtr d) |
| Set/get the shear transform of the viewing frustum. Parameters are dx/dz, dy/dz, and center. center is a factor that describes where to shear around. The distance dshear from the camera where no shear occurs is given by (dshear = center * FocalDistance).
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void | SetViewUp (double vx, double vy, double vz) |
| Set/Get the view up direction for the camera. The default is (0,1,0).
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void | SetViewUp (IntPtr a) |
| Set/Get the view up direction for the camera. The default is (0,1,0).
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void | SetWindowCenter (double x, double y) |
| Set/Get the center of the window in viewport coordinates. The viewport coordinate range is ([-1,+1],[-1,+1]). This method is for if you have one window which consists of several viewports, or if you have several screens which you want to act together as one large screen.
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void | ShallowCopy (vtkCamera source) |
| Copy the properties of source' into this'. Copy pointers of matrices.
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virtual void | UseHorizontalViewAngleOff () |
| Set/Get the value of the UseHorizontalViewAngle instance variable. If set, the camera's view angle represents a horizontal view angle, rather than the default vertical view angle. This is useful if the application uses a display device which whose specs indicate a particular horizontal view angle, or if the application varies the window height but wants to keep the perspective transform unchanges.
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virtual void | UseHorizontalViewAngleOn () |
| Set/Get the value of the UseHorizontalViewAngle instance variable. If set, the camera's view angle represents a horizontal view angle, rather than the default vertical view angle. This is useful if the application uses a display device which whose specs indicate a particular horizontal view angle, or if the application varies the window height but wants to keep the perspective transform unchanges.
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void | ViewingRaysModified () |
| Mark that something has changed which requires the view rays to be recomputed.
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void | Yaw (double angle) |
| Rotate the focal point about the view up vector, using the camera's position as the center of rotation. Note that the view up vector is whatever was set via SetViewUp, and is not necessarily perpendicular to the direction of projection. The result is a horizontal rotation of the scene.
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void | Zoom (double factor) |
| In perspective mode, decrease the view angle by the specified factor. In parallel mode, decrease the parallel scale by the specified factor. A value greater than 1 is a zoom-in, a value less than 1 is a zoom-out.
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| vtkObject (IntPtr rawCppThis, bool callDisposalMethod, bool strong) |
| Automatically generated constructor - called from generated code. DO NOT call directly.
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| vtkObject () |
| Create an object with Debug turned off, modified time initialized to zero, and reference counting on.
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uint | AddObserver (uint arg0, vtkCommand arg1, float priority) |
| This is a global flag that controls whether any debug, warning or error messages are displayed.
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uint | AddObserver (string arg0, vtkCommand arg1, float priority) |
| This is a global flag that controls whether any debug, warning or error messages are displayed.
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virtual void | DebugOff () |
| Turn debugging output off.
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virtual void | DebugOn () |
| Turn debugging output on.
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vtkCommand | GetCommand (uint tag) |
| This is a global flag that controls whether any debug, warning or error messages are displayed.
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byte | GetDebug () |
| Get the value of the debug flag.
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virtual uint | GetMTime () |
| Return this object's modified time.
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int | HasObserver (uint arg0, vtkCommand arg1) |
| This is a global flag that controls whether any debug, warning or error messages are displayed.
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int | HasObserver (string arg0, vtkCommand arg1) |
| This is a global flag that controls whether any debug, warning or error messages are displayed.
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int | HasObserver (uint arg0) |
| This is a global flag that controls whether any debug, warning or error messages are displayed.
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int | HasObserver (string arg0) |
| This is a global flag that controls whether any debug, warning or error messages are displayed.
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int | InvokeEvent (uint arg0, IntPtr callData) |
| This is a global flag that controls whether any debug, warning or error messages are displayed.
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int | InvokeEvent (string arg0, IntPtr callData) |
| This is a global flag that controls whether any debug, warning or error messages are displayed.
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int | InvokeEvent (uint arg0) |
| This is a global flag that controls whether any debug, warning or error messages are displayed.
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int | InvokeEvent (string arg0) |
| This is a global flag that controls whether any debug, warning or error messages are displayed.
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virtual void | Modified () |
| Update the modification time for this object. Many filters rely on the modification time to determine if they need to recompute their data. The modification time is a unique monotonically increasing unsigned long integer.
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void | RemoveAllObservers () |
| This is a global flag that controls whether any debug, warning or error messages are displayed.
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void | RemoveObserver (vtkCommand arg0) |
| This is a global flag that controls whether any debug, warning or error messages are displayed.
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void | RemoveObserver (uint tag) |
| This is a global flag that controls whether any debug, warning or error messages are displayed.
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void | RemoveObservers (uint arg0, vtkCommand arg1) |
| This is a global flag that controls whether any debug, warning or error messages are displayed.
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void | RemoveObservers (string arg0, vtkCommand arg1) |
| This is a global flag that controls whether any debug, warning or error messages are displayed.
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void | RemoveObservers (uint arg0) |
| This is a global flag that controls whether any debug, warning or error messages are displayed.
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void | RemoveObservers (string arg0) |
| This is a global flag that controls whether any debug, warning or error messages are displayed.
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void | SetDebug (byte debugFlag) |
| Set the value of the debug flag. A non-zero value turns debugging on.
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override string | ToString () |
| Returns the result of calling vtkObject::Print as a C# string.
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delegate void | vtkObjectEventHandler (vtkObject sender, vtkObjectEventArgs e) |
| Generic signature for all vtkObject events.
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void | RemoveAllHandlersForAllEvents () |
| Call RemoveAllHandlers on each non-null vtkObjectEventRelay. TODO: This method needs to get called by the generated Dispose. Make that happen...
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| vtkObjectBase (IntPtr rawCppThis, bool callDisposalMethod, bool strong) |
| Automatically generated constructor - called from generated code. DO NOT call directly.
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| vtkObjectBase () |
| Create an object with Debug turned off, modified time initialized to zero, and reference counting on.
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virtual void | Register (vtkObjectBase o) |
| Increase the reference count (mark as used by another object).
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virtual void | FastDelete () |
| Delete a reference to this object. This version will not invoke garbage collection and can potentially leak the object if it is part of a reference loop. Use this method only when it is known that the object has another reference and would not be collected if a full garbage collection check were done.
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string | GetClassName () |
| Return the class name as a string. This method is defined in all subclasses of vtkObjectBase with the vtkTypeMacro found in vtkSetGet.h.
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int | GetReferenceCount () |
| Return the current reference count of this object.
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void | SetReferenceCount (int arg0) |
| Sets the reference count. (This is very dangerous, use with care.)
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