SoWinViewer Class Reference

The SoWinViewer class is the top level base viewer class. More...

#include <Inventor/Win/viewers/SoWinViewer.h>

Inheritance diagram for SoWinViewer:

Public Types
enum	Type { BROWSER, EDITOR }
enum	DrawStyle {   VIEW_AS_IS, VIEW_HIDDEN_LINE, VIEW_NO_TEXTURE, VIEW_LOW_COMPLEXITY,   VIEW_LINE, VIEW_POINT, VIEW_BBOX, VIEW_LOW_RES_LINE,   VIEW_LOW_RES_POINT, VIEW_SAME_AS_STILL, VIEW_WIREFRAME_OVERLAY }
enum	DrawType { STILL = 0, INTERACTIVE }
enum	BufferType { BUFFER_SINGLE, BUFFER_DOUBLE, BUFFER_INTERACTIVE }
enum	AutoClippingStrategy { VARIABLE_NEAR_PLANE, CONSTANT_NEAR_PLANE }
enum	StereoType {   STEREO_NONE, STEREO_ANAGLYPH, STEREO_QUADBUFFER, STEREO_INTERLEAVED_ROWS,   STEREO_INTERLEAVED_COLUMNS }

Public Member Functions
virtual void	setCamera (SoCamera *camera)
SoCamera *	getCamera (void) const
virtual void	setCameraType (SoType type)
SoType	getCameraType (void) const
virtual void	toggleCameraType (void)
virtual void	viewAll (void)
virtual void	saveHomePosition (void)
virtual void	resetToHomePosition (void)
virtual void	setHeadlight (SbBool enable)
SbBool	isHeadlight (void) const
SoDirectionalLight *	getHeadlight (void) const
virtual void	setDrawStyle (SoWinViewer::DrawType type, SoWinViewer::DrawStyle style)
SoWinViewer::DrawStyle	getDrawStyle (const SoWinViewer::DrawType type) const
virtual void	setBufferingType (SoWinViewer::BufferType type)
SoWinViewer::BufferType	getBufferingType (void) const
virtual void	setViewing (SbBool enable)
SbBool	isViewing (void) const
virtual void	setCursorEnabled (SbBool enable)
SbBool	isCursorEnabled (void) const
void	setAutoClipping (SbBool enable)
SbBool	isAutoClipping (void) const
void	setAutoClippingStrategy (const AutoClippingStrategy strategy, const float value=0.6f, SoWinAutoClippingCB *cb=NULL, void *cbuserdata=NULL)
virtual void	setStereoViewing (SbBool enable)
SbBool	isStereoViewing (void) const
virtual void	setStereoOffset (const float dist)
float	getStereoOffset (void) const
SbBool	setStereoType (SoWinViewer::StereoType s)
SoWinViewer::StereoType	getStereoType (void) const
void	setAnaglyphStereoColorMasks (const SbBool left[3], const SbBool right[3])
void	getAnaglyphStereoColorMasks (SbBool left[3], SbBool right[3])
void	setDetailSeek (const SbBool enable)
SbBool	isDetailSeek (void) const
void	setSeekTime (const float seconds)
float	getSeekTime (void) const
void	addStartCallback (SoWinViewerCB *func, void *data=NULL)
void	addFinishCallback (SoWinViewerCB *func, void *data=NULL)
void	removeStartCallback (SoWinViewerCB *func, void *data=NULL)
void	removeFinishCallback (SoWinViewerCB *func, void *data=NULL)
void	setWireframeOverlayColor (const SbColor &color)
const SbColor &	getWireframeOverlayColor (void) const
virtual void	setDoubleBuffer (const SbBool enable)
virtual void	setSceneGraph (SoNode *root)
virtual SoNode *	getSceneGraph (void)
Public Member Functions inherited from SoWinRenderArea
	SoWinRenderArea (HWND parent=NULL, const char *name=NULL, SbBool embed=TRUE, SbBool mouseInput=TRUE, SbBool keyboardInput=TRUE)
	~SoWinRenderArea ()
void	setOverlaySceneGraph (SoNode *scene)
SoNode *	getOverlaySceneGraph (void)
void	setBackgroundColor (const SbColor &color)
const SbColor &	getBackgroundColor (void) const
void	setBackgroundIndex (int idx)
int	getBackgroundIndex (void) const
void	setOverlayBackgroundIndex (int idx)
int	getOverlayBackgroundIndex (void) const
void	setColorMap (int start, int num, const SbColor *colors)
void	setOverlayColorMap (int start, int num, const SbColor *colors)
void	setViewportRegion (const SbViewportRegion &newRegion)
const SbViewportRegion &	getViewportRegion (void) const
void	setTransparencyType (SoGLRenderAction::TransparencyType type)
SoGLRenderAction::TransparencyType	getTransparencyType (void) const
void	setAntialiasing (SbBool smoothing, int numPasses)
void	getAntialiasing (SbBool &smoothing, int &numPasses) const
void	setClearBeforeRender (SbBool enable, SbBool zbEnable=TRUE)
SbBool	isClearBeforeRender (void) const
SbBool	isClearZBufferBeforeRender (void) const
void	setClearBeforeOverlayRender (SbBool enable)
SbBool	isClearBeforeOverlayRender (void) const
void	setAutoRedraw (SbBool enable)
SbBool	isAutoRedraw (void) const
void	setRedrawPriority (uint32_t priority)
uint32_t	getRedrawPriority (void) const
void	render (void)
void	renderOverlay (void)
void	scheduleRedraw (void)
void	scheduleOverlayRedraw (void)
void	redrawOnSelectionChange (SoSelection *selection)
void	redrawOverlayOnSelectionChange (SoSelection *selection)
void	setEventCallback (SoWinRenderAreaEventCB *func, void *user=NULL)
void	setSceneManager (SoSceneManager *manager)
SoSceneManager *	getSceneManager (void) const
void	setOverlaySceneManager (SoSceneManager *manager)
SoSceneManager *	getOverlaySceneManager (void) const
void	setGLRenderAction (SoGLRenderAction *action)
SoGLRenderAction *	getGLRenderAction (void) const
void	setOverlayGLRenderAction (SoGLRenderAction *action)
SoGLRenderAction *	getOverlayGLRenderAction (void) const
SbBool	sendSoEvent (const SoEvent *event)
void	registerDevice (SoWinDevice *device)
void	unregisterDevice (SoWinDevice *device)
Public Member Functions inherited from SoWinGLWidget
void	setBorder (const SbBool enable)
SbBool	isBorder (void) const
SbBool	isDoubleBuffer (void) const
void	setDrawToFrontBufferEnable (const SbBool enable)
SbBool	isDrawToFrontBufferEnable (void) const
void	setQuadBufferStereo (const SbBool enable)
SbBool	isQuadBufferStereo (void) const
void	setAccumulationBuffer (const SbBool enable)
SbBool	getAccumulationBuffer (void) const
void	setStencilBuffer (const SbBool enable)
SbBool	getStencilBuffer (void) const
void	setAlphaChannel (const SbBool enable)
SbBool	getAlphaChannel (void) const
void	setOverlayRender (const SbBool onoff)
SbBool	isOverlayRender (void) const
void	setSampleBuffers (const int numsamples)
int	getSampleBuffers (void) const
void	setStealFocus (SbBool enable)
SbBool	isStealFocus (void) const
HWND	getGLWidget (void) const
HWND	getNormalWidget (void) const
HWND	getOverlayWidget (void) const
SbBool	hasOverlayGLArea (void) const
SbBool	hasNormalGLArea (void) const
unsigned long	getOverlayTransparentPixel (void)
void	getPointSizeLimits (SbVec2f &range, float &granularity)
void	getLineWidthLimits (SbVec2f &range, float &granularity)
Public Member Functions inherited from SoWinComponent
virtual	~SoWinComponent ()
virtual void	show (void)
virtual void	hide (void)
virtual void	setComponentCursor (const SoWinCursor &cursor)
SbBool	isFullScreen (void) const
SbBool	setFullScreen (const SbBool onoff)
SbBool	isVisible (void)
SbBool	isTopLevelShell (void) const
HWND	getWidget (void) const
HWND	getBaseWidget (void) const
HWND	getShellWidget (void) const
HWND	getParentWidget (void) const
void	setSize (const SbVec2s size)
SbVec2s	getSize (void) const
void	setTitle (const char *const title)
const char *	getTitle (void) const
void	setIconTitle (const char *const title)
const char *	getIconTitle (void) const
const char *	getWidgetName (void) const
const char *	getClassName (void) const
void	setWindowCloseCallback (SoWinComponentCB *const func, void *const user=NULL)
Public Member Functions inherited from SoWinObject
virtual SoType	getTypeId (void) const =0
SbBool	isOfType (SoType type) const

Protected Member Functions
	SoWinViewer (HWND parent, const char *name, SbBool embed, Type type, SbBool build)
	~SoWinViewer ()
virtual void	sizeChanged (const SbVec2s &size)
virtual void	setSeekMode (SbBool enable)
SbBool	isSeekMode (void) const
SbBool	seekToPoint (const SbVec2s screenpos)
void	seekToPoint (const SbVec3f &scenepos)
virtual void	computeSeekFinalOrientation (void)
virtual void	actualRedraw (void)
virtual SbBool	processSoEvent (const SoEvent *const event)
void	interactiveCountInc (void)
void	interactiveCountDec (void)
int	getInteractiveCount (void) const
void	setSeekDistance (const float distance)
float	getSeekDistance (void) const
void	setSeekValueAsPercentage (const SbBool on)
SbBool	isSeekValuePercentage (void) const
virtual void	changeCameraValues (SoCamera *camera)
void	addSuperimposition (SoNode *scene)
void	removeSuperimposition (SoNode *scene)
void	setSuperimpositionEnabled (SoNode *scene, const SbBool enable)
SbBool	getSuperimpositionEnabled (SoNode *scene) const
Protected Member Functions inherited from SoWinRenderArea
	SoWinRenderArea (HWND parent, const char *name, SbBool embed, SbBool mouseInput, SbBool keyboardInput, SbBool build)
virtual void	redraw (void)
virtual void	redrawOverlay (void)
virtual void	actualOverlayRedraw (void)
virtual void	processEvent (MSG *event)
virtual void	initGraphic (void)
virtual void	initOverlayGraphic (void)
virtual void	widgetChanged (HWND widget)
virtual void	afterRealizeHook (void)
HWND	buildWidget (HWND parent)
virtual const char *	getDefaultWidgetName (void) const
virtual const char *	getDefaultTitle (void) const
virtual const char *	getDefaultIconTitle (void) const
virtual SbBool	glScheduleRedraw (void)
Protected Member Functions inherited from SoWinGLWidget
	SoWinGLWidget (HWND const parent=NULL, const char *const name=NULL, const SbBool embed=TRUE, const int glmodes=SO_GL_RGB, const SbBool build=TRUE)
	~SoWinGLWidget ()
HWND	buildWidget (HWND parent)
void	setGLSize (const SbVec2s size)
SbVec2s	getGLSize (void) const
float	getGLAspectRatio (void) const
void	setGlxSize (const SbVec2s size)
SbVec2s	getGlxSize (void) const
float	getGlxAspectRatio (void) const
void	setStereoBuffer (SbBool flag)
SbBool	isStereoBuffer (void) const
SbBool	isRGBMode (void)
void	glLockNormal (void)
void	glUnlockNormal (void)
void	glLockOverlay (void)
void	glUnlockOverlay (void)
void	glSwapBuffers (void)
void	glFlushBuffer (void)
Protected Member Functions inherited from SoWinComponent
	SoWinComponent (HWND const parent=NULL, const char *const name=NULL, const SbBool embed=TRUE)
void	setClassName (const char *const name)
void	setBaseWidget (HWND widget)
void	registerWidget (HWND widget)
void	unregisterWidget (HWND widget)
void	addVisibilityChangeCallback (SoWinComponentVisibilityCB *const func, void *const user=NULL)
void	removeVisibilityChangeCallback (SoWinComponentVisibilityCB *const func, void *const user=NULL)

Additional Inherited Members
Static Public Member Functions inherited from SoWinRenderArea
static uint32_t	getDefaultRedrawPriority (void)
Static Public Member Functions inherited from SoWinComponent
static void	setWidgetCursor (HWND w, const SoWinCursor &cursor)
static SoWinComponent *	getComponent (HWND widget)
static void	initClasses (void)
Static Public Member Functions inherited from SoWinObject
static void	initClass (void)
static SoType	getClassTypeId (void)
static void	init (void)
Protected Attributes inherited from SoWinGLWidget
SbBool	waitForExpose
SbBool	drawToFrontBuffer
Protected Attributes inherited from SoWinComponent
SbBool	firstRealize

Detailed Description

The SoWinViewer class is the top level base viewer class.

This is an abstract class, which adds the following features to its SoWinRenderArea superclass: convenient methods for camera handling, an automatic headlight configuration.

As for the camera handling: when setting a new scene graph for the viewer, the scene graph will automatically be scanned for a node derived from SoCamera. If not found, the viewer will itself set up a camera for the scene. The camera can then be conveniently controlled by the application programmers in many aspects:

• camera type: toggle between using an orthographic camera and a perspective camera with SoWinViewer::toggleCameraType()

• zoom out to exactly encompass all scene geometry within the view by using SoWinViewer::viewAll()

• tag a specific position and orientation for the camera as the "home" position with SoWinViewer::saveHomePosition(), which one can then return to by using SoWinViewer::resetToHomePosition()

• automatically fit the near and far clipping planes of the camera around the scene's geometry by using SoWinViewer::setAutoClipping()

• control stereo viewing parameters

Note that there is no dragger or manipulator attached to the scene camera. The camera transform manipulation is calculated in a more direct manner in the non-abstract viewer classes inheriting SoWinViewer by reading mouse and keyboard events and interpreting how these should influence the camera. The calculations results in new values for SoCamera::position, SoCamera::orientation, and the other SoCamera field values for the camera designated to be the viewer viewpoint camera. These values are then inserted directly into the viewer's SoCamera node.

See e.g. the source code for SoWinExaminerViewer::processSoEvent() for the details.

The SoWinViewer class automatically adds a headlight to the scene, which will always point in the approximate same direction as the current viewer camera, thereby securing that the scene geometry is always lighted and visible. (If you don't want the constant headlight, but rather want to light the scene on your own, this behavior can be turned off with SoWinViewer::setHeadlight()).

SoWinViewer-derived viewers all inherit the following keyboard controls from this class (but only when the viewer is in "examine mode", i.e. SoWinViewer::isViewing() returns TRUE):

• "s": put the viewer in "seek mode", where the end user may click anywhere on scene geometry to trigger an animation which moves the camera towards the point clicked

• "Home": hit this key to move camera back to last saved "home position"

• arrow keys: moves camera slightly left, right, up or down

• "q": exit application

Member Enumeration Documentation

Type

enum SoWinViewer::Type

Hints about what context the viewer will be used in. Usually not very interesting for the application programmer, it doesn't matter much which value is used for the viewer type. This "feature" of the viewer is included just to be compatible with the old SGI Inventor API.

Enumerator
BROWSER	If a user-supplied scene graph passed into the setSceneGraph() function does not contain a camera, setting the viewer type to BROWSER will make the viewer in that case automatically set up a camera outside the scene, as part of the viewer's private and hidden "supergraph".
EDITOR	If a user-supplied scene graph passed into the setSceneGraph() function does not contain a camera, setting the viewer type to EDITOR will make the viewer in that case automatically set up a camera in the user-supplied scene. So if you want to avoid having the SoWinViewer class muck about with your supplied scene graph, set the type-flag to SoWinViewer::BROWSER instead, which makes an inserted camera node go into the viewer's own "wrapper" scene graph instead.

DrawStyle

enum SoWinViewer::DrawStyle

Decides draw style for a scene with either a still camera or an animating camera.

See also

SoWinViewer::setDrawStyle(), SoWinViewer::DrawType

Enumerator
VIEW_AS_IS	Normal rendering, draws all scene geometry in its original style.
VIEW_HIDDEN_LINE	Draw scene in "hidden line" mode: that is, as wireframe with no "see-through". Note that this is actually an expensive way to render, as the scene must be rendered twice to achieve the effect of hiding lines behind the invisible geometry.
VIEW_NO_TEXTURE	Render scene without textures.
VIEW_LOW_COMPLEXITY	Render all "complex" shape types with low complexity to improve rendering performance. "Complex shapes" in this context includes spheres, cones, cylinder, NURBS surfaces, and others which are tessellated to polygons before being rendered.
VIEW_LINE	View all polygon geometry in wireframe mode.
VIEW_POINT	Render only the vertex positions of the geometry.
VIEW_BBOX	View the scene's bounding boxes, instead of rendering the full geometry. A very efficient way of optimizing rendering performance for scenes with high primitive counts while moving the camera about is to set this mode for the SoWinViewer::INTERACTIVE DrawType.
VIEW_LOW_RES_LINE	Render as wireframe and don't bother with getting them rendered correctly in depth.
VIEW_LOW_RES_POINT	Render as vertex points and don't bother with getting them rendered correctly in depth.
VIEW_SAME_AS_STILL	Always render a scene with an animating camera (i.e. SoWinViewer::INTERACTIVE DrawType) in the same manner as scene with a still camera.
VIEW_WIREFRAME_OVERLAY	Render the scene as normal, but overlay a set of lines showing the contours of all polygons.

DrawType

enum SoWinViewer::DrawType

Contains valid values for the first argument to the SoWinViewer::setDrawStyle() call. Decides the effect of the second argument.

See also

SoWinViewer::setDrawStyle(), SoWinViewer::DrawStyle

Enumerator
STILL	If this value is passed as the first argument of SoWinViewer::setDrawStyle(), the second argument decides which draw style to use when the viewer camera is standing still in the same position with the same orientation – i.e. when the end user is not interacting with the scene camera.
INTERACTIVE	If this value is passed as the first argument of SoWinViewer::setDrawStyle(), the second argument decides which draw style to use when the end user is interacting with the scene camera, causing continuous animation redraws.

BufferType

enum SoWinViewer::BufferType

Set of valid values for SoWinViewer::setBufferingType().

Enumerator
BUFFER_SINGLE	Change underlying OpenGL canvas to be single buffered.
BUFFER_DOUBLE	Change underlying OpenGL canvas to be double buffered.
BUFFER_INTERACTIVE	Set up so animation rendering is done in a double buffered OpenGL canvas, but ordinary rendering happens directly in the front buffer. This mode can be useful with absurdly large scenes, as the rendering will visibly progress, and one will avoid having the end user wonder why nothing is happening while the scene is rendered to the back buffer in the default SoWinViewer::BUFFER_DOUBLE mode.

AutoClippingStrategy

enum SoWinViewer::AutoClippingStrategy

Enum for auto clipping strategy.

See also

setAutoClippingStrategy()

Enumerator
VARIABLE_NEAR_PLANE	Variable near plane auto clipping strategy. Explained in detail in the documentation for the SoWinViewer::setAutoClippingStrategy() method.
CONSTANT_NEAR_PLANE	Constant near plane auto clipping strategy. Explained in detail in the documentation for the SoWinViewer::setAutoClippingStrategy() method.

StereoType

enum SoWinViewer::StereoType

Contains list of supported stereo rendering techniques.

See also

SoWinViewer::setStereoType()

Enumerator
STEREO_NONE	Use monoscopic rendering.
STEREO_ANAGLYPH	Render stereo by superimposing two images of the same scene, but with different color filters over the left and right view (or "eye"). This is a way of rendering stereo which works on any display, using color-filter glasses. Such glasses are usually cheap and easy to come by. See also setAnaglyphStereoColorMasks()
STEREO_QUADBUFFER	Render stereo by using OpenGL quad-buffers. This is the most common interface for stereo rendering for more expensive hardware devices, such as shutter glasses and polarized glasses. The well known Crystal Eyes glasses are commonly used with this type of stereo display.
STEREO_INTERLEAVED_ROWS	Interleaving / interlacing rows from the left and right eye is another stereo rendering method requiring special hardware. One example of a provider of shutter glasses working with interleaved glasses is VRex: http://www.vrex.com/
STEREO_INTERLEAVED_COLUMNS	Basically the same technique as SoWinViewer::STEREO_INTERLEAVED_ROWS, but vertical lines are interleaved / interlaced, instead of horizontal lines.

Constructor & Destructor Documentation

SoWinViewer()

SoWinViewer::SoWinViewer ( HWND  parent, const char *  name, SbBool  embed, SoWinViewer::Type  t, SbBool  build  )

protected

Constructor. parent, name and embed are passed on to SoWinRenderArea, so see the documentation for our parent constructor for for more information on those.

The t type setting hints about what context the viewer will be used in. Usually not very interesting for the application programmer, but if you want to make sure the SoWinViewer class doesn't muck about with your supplied scene graph, set the type-flag to SoWinViewer::BROWSER. (This "feature" of the viewer is included just to be compatible with the old SGI Inventor API.)

The build flag decides whether or not to delay building the widgets / window which is going to make up the components of the viewer.

~SoWinViewer()

SoWinViewer::~SoWinViewer ( )

protected

Destructor.

Member Function Documentation

setCamera()

void SoWinViewer::setCamera ( SoCamera *  cam )

virtual

Set the camera we want the viewer to manipulate when interacting with the viewer controls.

The camera passed in as an argument to this method must already be part of the viewer's scene graph. You do not inject viewpoint cameras to the viewer with this method.

You should rather insert a camera into the scene graph first (if necessary, often one will be present already), then register it as the camera used by the viewer controls with this method.

If the application code doesn't explicitly set up a camera through this method, the viewer will automatically scan through the scene graph to find a camera to use. If no camera is available in the scene graph at all, it will set up its own camera.

See also

getCamera()

Reimplemented in SoWinExaminerViewer, SoWinFlyViewer, SoWinPlaneViewer, and SoWinConstrainedViewer.

getCamera()

SoCamera * SoWinViewer::getCamera

(

void

)

const

Returns the camera currently used by the viewer for the user's main viewpoint.

It is possible that this function returns NULL, for instance if there's no scene graph present in the viewer. (This is mostly meant as a note for developers extending the SoWin library, as application programmers usually controls if and when a viewer contains a scene graph, and therefore know in advance if this method will return a valid camera pointer.)

See also

setCamera()

setCameraType()

void SoWinViewer::setCameraType ( SoType  t )

virtual

When the viewer has to make its own camera as a result of the graph passed to setSceneGraph() not containing any camera nodes, this call can be made in advance to decide which type the camera will be of.

Default is to use an SoPerspectiveCamera.

If this method is called when there is a scene graph and a camera already set up, it will delete the old camera and set up a camera with the new type if the t type is different from that of the current camera.

See also

getCameraType()

Reimplemented in SoWinFlyViewer.

getCameraType()

SoType SoWinViewer::getCameraType

(

void

)

const

Returns camera type which will be used when the viewer has to make its own camera.

Note that this call does not return the current camera type, as one might expect. Use getCamera() and SoType::getTypeId() for that inquiry.

See also

setCameraType()

toggleCameraType()

void SoWinViewer::toggleCameraType ( void  )

virtual

If the current camera is of perspective type, switch to orthographic, and vice versa.

Automatically calls SoWinViewer::setCameraType() so the change will immediately take place.

viewAll()

void SoWinViewer::viewAll ( void  )

virtual

Reposition the current camera so we can see the complete scene.

Reimplemented in SoWinFlyViewer.

saveHomePosition()

void SoWinViewer::saveHomePosition ( void  )

virtual

Store the current camera settings for later retrieval with resetToHomePosition().

See also

resetToHomePosition()

Reimplemented in SoWinConstrainedViewer.

resetToHomePosition()

void SoWinViewer::resetToHomePosition ( void  )

virtual

Restore the saved camera settings.

See also

saveHomePosition()

Reimplemented in SoWinFlyViewer, and SoWinConstrainedViewer.

setHeadlight()

void SoWinViewer::setHeadlight ( SbBool  on )

virtual

Turn the camera headlight on or off.

Default is to have a headlight turned on.

See also

isHeadlight(), getHeadlight()

isHeadlight()

SbBool SoWinViewer::isHeadlight

(

void

)

const

Returns status of the viewer headlight, whether it is on or off.

See also

setHeadlight(), getHeadlight()

getHeadlight()

SoDirectionalLight * SoWinViewer::getHeadlight

(

void

)

const

Returns the a pointer to the directional light node which is the viewer headlight.

The fields of the node is available for user editing.

See also

isHeadlight(), setHeadlight()

setDrawStyle()

void SoWinViewer::setDrawStyle ( SoWinViewer::DrawType  type, SoWinViewer::DrawStyle  style  )

virtual

Set up a drawing style. The type argument specifies if the given style should be interpreted as the draw style during animation or when the camera is static.

Default values for the drawing style is to render the scene "as is" in both still mode and while the camera is moving.

See the documentation for the DrawType and DrawStyle for more information.

See also

getDrawStyle()

getDrawStyle()

SoWinViewer::DrawStyle SoWinViewer::getDrawStyle

(

const SoWinViewer::DrawType

type

)

const

Return current draw styles for the given type (STILL or INTERACTIVE).

See also

setDrawStyle()

setBufferingType()

void SoWinViewer::setBufferingType ( SoWinViewer::BufferType  type )

virtual

Set the viewer's buffer type. Available types are SoWinViewer::BUFFER_SINGLE, SoWinViewer::BUFFER_DOUBLE and SoWinViewer::BUFFER_INTERACTIVE.

(With a buffer type of SoWinViewer::BUFFER_INTERACTIVE, the viewer will render with double buffering during user interaction and with single buffering otherwise.)

Default is SoWinViewer::BUFFER_DOUBLE.

See also

getBufferingType()

getBufferingType()

SoWinViewer::BufferType SoWinViewer::getBufferingType

(

void

)

const

Return the viewer's buffer type.

See also

setBufferingType()

setViewing()

void SoWinViewer::setViewing ( SbBool  enable )

virtual

Set view mode.

If the view mode is on, user events will be caught and used to influence the camera position / orientation. If view mode is off, all events in the viewer canvas (like for instance keypresses or mouse clicks and -movements) will be passed along to the scene graph.

Default is to have the view mode active.

See also

isViewing()

Reimplemented in SoWinExaminerViewer, SoWinFullViewer, SoWinFlyViewer, and SoWinPlaneViewer.

isViewing()

SbBool SoWinViewer::isViewing

(

void

)

const

Return state of view mode.

TRUE means that the mode of the viewer is set such that user interaction with the mouse is used to modify the position and orientation of the camera.

See also

setViewing()

setCursorEnabled()

void SoWinViewer::setCursorEnabled ( SbBool  on )

virtual

Set whether or not the mouse cursor representation should be visible in the viewer canvas.

Default value is on.

See also

isCursorEnabled()

Reimplemented in SoWinExaminerViewer, SoWinFlyViewer, and SoWinPlaneViewer.

isCursorEnabled()

SbBool SoWinViewer::isCursorEnabled

(

void

)

const

Returns visibility status of mouse cursor.

See also

setCursorEnabled()

setAutoClipping()

void SoWinViewer::setAutoClipping

(

SbBool

enable

)

Turn on or off continuous automatic adjustments of the near and far clipping planes.

If on, the distance from the camera position to the near and far planes will be calculated to be a "best fit" around the geometry in the scene, to maximize the "stretch" of values for the visible geometry in the z-buffer. This is important, as z-buffer resolution is usually limited enough that one will quickly see flickering in the rasterization of close polygons upon lousy utilization of the z-buffer.

Automatic calculations of near and far clip planes are on as default.

For better control over what happens in boundary conditions (for instance when the distance between near and far planes get very far, or if geometry gets very close to the camera position), it is possible to use the SoWinViewer::setAutoClippingStrategy() method to fine-tune the near/far clipping plane settings.

On a major note, be aware that turning auto-updating of near and far clip planes off have a potentially serious detrimental effect on performance, due to an important side effect: updating the near and far clip planes triggers an SoGetBoundingBoxAction to traverse the scene graph, which causes bounding boxes to be calculated and stored in caches. The bounding box caches are then used by the SoGLRenderAction traversal for view frustum culling operations. With no bounding box caches, the rendering will not do culling, which can cause much worse performance. Kongsberg Oil & Gas Technologies are working on correcting this problem properly from within the Coin library.

On a minor note, be aware that notifications will be temporarily turned off for the scene's SoCamera when changing the near and far clipping planes (which is done right before each redraw). This is done to avoid notifications being sent through the scene graph right before rendering, as that causes some latency. It is mentioned here in case you have any client code which for some reason needs to sense all changes to the scene camera. This is however unlikely, so you can very probably ignore this.

See also

getAutoClipping()

isAutoClipping()

SbBool SoWinViewer::isAutoClipping

(

void

)

const

Return value of the automatic near/far clip plane adjustment indicator.

See also

setAutoClipping()

setAutoClippingStrategy()

void SoWinViewer::setAutoClippingStrategy	(	const AutoClippingStrategy	strategy,
		const float	value = 0.6f,
		SoWinAutoClippingCB *	cb = NULL,
		void *	cbuserdata = NULL
	)

Set the strategy used for automatic updates of the distances to the near and far clipping planes.

When auto clipping is enabled, the near plane distance is calculated so that it is just in front of the scene bounding box. If this near plane is behind or very close to the projection point, one of the following strategies will be used to calculate the new clipping plane.

The VARIABLE_NEAR_PLANE strategy considers the number of z buffer bits available for the current OpenGL context, and uses value to calculate the number of bits that is lost because of the far/near ratio. value should be in the range [0.0, 1.0]. A higher value will increase the z-buffer precision, but also push the near plane further away from the projection point.

The CONSTANT_NEAR_PLANE strategy simply sets the near plane to value. If value at some point approaches the far clipping plane distance, the near plane distance will be set to far plane distance divided by 5000.0.

The default strategy is VARIABLE_NEAR_PLANE.

It is also possible to register a callback method cb, which will then be invoked after the near and far clipping planes have been calculated by the SoWinViewer code. The callback can then adjust the values for the distance to the near and far planes to exactly match the needs of the application (for instance at specific parts in the scene), to limit the distance to either plane, or whatever else needs to be controlled.

The signature of the SoWinAutoClippingCB callback must match:

SbVec2f myfunc(void * data, const SbVec2f & nearfar);

The first argument is the cbuserdata passed in along with the callback function pointer itself (i.e. the callback function's closure). The second argument are the near and far clipping plane distances from the camera position, as calculated internally by the viewer, including "slack".

The function callback can then modify the near and far clipping plane distances to what will actually be used by the viewer. These values will then be used unmodified for the viewer's camera.

This is a good way of dynamically modifying the near and far distances such that they at all times exactly matches the specific layout of the application scene, for instance with regard to the trade-off between z-buffer resolution and how early geometry is clipped at the near plane (or at the far plane).

Note that the internal near/far calculations should be good enough for the vast majority of scenes. Application programmers should only need to set up their own adjustments upon "unusual" scenes, like for instance scenes with a large world space, but where one would still like to be able to get up extremely close on details in some parts of the scene.

See also

setAutoClipping()

setStereoViewing()

void SoWinViewer::setStereoViewing ( SbBool  enable )

virtual

Turn stereo viewing on or off.

Note: this function is being obsoleted, you should use the setStereoType() function instead.

Coin does "correct" stereo rendering, using the method known as "parallel axis asymmetric frustum perspective projection". For more information, see this link:

http://astronomy.swin.edu.au/~pbourke/opengl/stereogl/

See also

isStereoViewing(), setStereoType()

isStereoViewing()

SbBool SoWinViewer::isStereoViewing

(

void

)

const

Returns a boolean indicating whether or not we're in stereo viewing mode.

NOTE: in the original InventorXt API, this method was virtual. It is not virtual here.

See also

setStereoViewing(), getStereoType()

setStereoOffset()

void SoWinViewer::setStereoOffset ( const float  dist )

virtual

Set the offset between the two viewpoints when in stereo mode. Default value is 0.1.

NOTE: In the original InventorXt API, this method was not virtual.

See also

getStereoOffset()

getStereoOffset()

float SoWinViewer::getStereoOffset

(

void

)

const

Return the offset distance between the two viewpoints when in stereo mode.

See also

setStereoOffset()

setStereoType()

SbBool SoWinViewer::setStereoType

(

SoWinViewer::StereoType

s

)

Set up stereo rendering.

Coin does "correct" stereo rendering, using the method known as "parallel axis asymmetric frustum perspective projection". For more information, see this link:

http://astronomy.swin.edu.au/~pbourke/opengl/stereogl/

Note: it is preferred that one uses this function for control of which type of stereo rendering to use, instead of the older SoWinViewer::setStereoViewing() and SoWinGLWidget::setQuadBufferStereo() functions.

The default is to do monoscopic rendering, i.e. the default SoWinViewer::StereoType value is SoWinViewer::STEREO_NONE.

See also

SoWinViewer::StereoType, SoCamera::setStereoAdjustment

Since

SoWin 1.2

getStereoType()

SoWinViewer::StereoType SoWinViewer::getStereoType

(

void

)

const

Returns the current type of stereo rendering used (or SoWinViewer::STEREO_NONE if monoscopic).

setAnaglyphStereoColorMasks()

void SoWinViewer::setAnaglyphStereoColorMasks	(	const SbBool	left[3],
		const SbBool	right[3]
	)

If display is configured to render in anaglyph stereo, this function can be used to control which filter is used for each eye.

The default filters are red (i.e. color vector [TRUE,FALSE,FALSE]) for the left eye, and cyan (color vector [FALSE,TRUE,TRUE]) for the right eye.

See also

SoWinViewer::StereoType, setStereoType()

getAnaglyphStereoColorMasks()

void SoWinViewer::getAnaglyphStereoColorMasks	(	SbBool	left[3],
		SbBool	right[3]
	)

Returns color masks for left and right eye filters in anaglyph stereo.

See also

setAnaglyphStereoColorMasks()

setDetailSeek()

void SoWinViewer::setDetailSeek

(

const SbBool

on

)

Toggle between seeking to a point or seeking to an object.

Default is to seek to a point.

See also

isDetailSeek()

isDetailSeek()

SbBool SoWinViewer::isDetailSeek

(

void

)

const

Returns a value indicating whether or not seeks will be performed to the exact point of picking or just towards the picked object.

See also

setDetailSeek()

setSeekTime()

void SoWinViewer::setSeekTime

(

const float

seconds

)

Set the duration of animating the camera repositioning after a successful seek. Call with seconds equal to 0.0 to make the camera jump immediately to the correct spot.

Default value is 2 seconds.

See also

getSeekTime()

getSeekTime()

float SoWinViewer::getSeekTime

(

void

)

const

Returns the camera repositioning duration following a seek action.

See also

setSeekTime()

addStartCallback()

void SoWinViewer::addStartCallback	(	SoWinViewerCB *	func,
		void *	data = NULL
	)

Add a function to call when user interaction with the scene starts.

See also

removeStartCallback(), addFinishCallback()

addFinishCallback()

void SoWinViewer::addFinishCallback	(	SoWinViewerCB *	func,
		void *	data = NULL
	)

Add a function to call when user interaction with the scene ends.

See also

removeFinishCallback(), addStartCallback()

removeStartCallback()

void SoWinViewer::removeStartCallback	(	SoWinViewerCB *	func,
		void *	data = NULL
	)

Remove one of the functions which has been set up to be called when user interaction with the scene starts.

See also

addStartCallback(), removeFinishCallback()

removeFinishCallback()

void SoWinViewer::removeFinishCallback	(	SoWinViewerCB *	func,
		void *	data = NULL
	)

Remove one of the functions which has been set up to be called when user interaction with the scene ends.

See also

addFinishCallback(), removeStartCallback()

setWireframeOverlayColor()

void SoWinViewer::setWireframeOverlayColor

(

const SbColor &

color

)

Set the color of the overlay wireframe to color.

See also

getWireframeOverlayColor()

getWireframeOverlayColor()

const SbColor & SoWinViewer::getWireframeOverlayColor

(

void

)

const

Returns the current color of the overlay wireframe. The default color is [1,0,0], i.e. pure red.

See also

setWireframeOverlayColor()

setDoubleBuffer()

void SoWinViewer::setDoubleBuffer ( const SbBool  on )

virtual

Overloaded to update the local bufferingtype variable.

See also

setBufferingType(), getBufferingType()

Reimplemented from SoWinGLWidget.

setSceneGraph()

void SoWinViewer::setSceneGraph ( SoNode *  root )

virtual

Give the viewer a scene graph to render and interact with. Overridden from parent class so the viewer can add its own nodes to control rendering in different styles, rendering with a headlight, etc.

The root node will be inserted under the viewer's root node, which also covers the nodes necessary to implement the different preferences drawing style settings.

If no camera is part of the scene graph under root, one will automatically be instantiated and added. You can get a reference to this camera by using the SoWinViewer::getCamera() method.

See also

getSceneGraph(), setCameraType()

Reimplemented from SoWinRenderArea.

getSceneGraph()

SoNode * SoWinViewer::getSceneGraph ( void  )

virtual

This method returns a reference to the scene graph root node as set by the user.

See also

SoWinRenderArea::getSceneManager()

Reimplemented from SoWinRenderArea.

sizeChanged()

void SoWinViewer::sizeChanged ( const SbVec2s &  size )

protectedvirtual

Called internally from within the SoWin library when the widget embedded in a component changes its size, which is usually triggered by end-user interaction.

This method is then invoked to notify the component that the size has changed. It is called from the top and all the way down to the bottom, the size being adjusted to take into account extra decorations having been added at each level in the component class hierarchy.

Reimplemented from SoWinRenderArea.

Reimplemented in SoWinFullViewer.

setSeekMode()

void SoWinViewer::setSeekMode ( SbBool  enable )

protectedvirtual

Put the viewer in or out of "waiting-to-seek" mode.

If the user performs a mouse button click when the viewer is in "waiting-to-seek" mode, the camera will be repositioned so the camera focal point lies on the point of the geometry under the mouse cursor.

See also

isSeekMode(), setDetailSeek()

Reimplemented in SoWinExaminerViewer, SoWinFlyViewer, and SoWinPlaneViewer.

isSeekMode()

SbBool SoWinViewer::isSeekMode ( void  ) const

protected

Return a flag which indicates whether or not the viewer is in "waiting-to-seek" mode.

(The actual animated translation will not occur until the end user really starts the seek operation, typically by clicking with the left mouse button.)

See also

setSeekMode()

seekToPoint() [1/2]

SbBool SoWinViewer::seekToPoint ( const SbVec2s  screenpos )

protected

Call this method to initiate a seek action towards the 3D intersection of the scene and the ray from the screen coordinate's point and in the same direction as the camera is pointing.

Returns TRUE if the ray from the screenpos position intersect with any parts of the onscreen geometry, otherwise FALSE.

seekToPoint() [2/2]

void SoWinViewer::seekToPoint ( const SbVec3f &  scenepos )

protected

Call this method to initiate a seek action towards the given 3D world coordinate point in the scene, scenepos.

Since

SoWin 1.3.0

computeSeekFinalOrientation()

void SoWinViewer::computeSeekFinalOrientation ( void  )

protectedvirtual

This method can be overridden in subclasses if the final orientation of the camera after a seek should be something other than what is computed in SoWinViewer::seekToPoint(const SbVec3f & scenepos)

Reimplemented in SoWinPlaneViewer.

actualRedraw()

void SoWinViewer::actualRedraw ( void  )

protectedvirtual

This method instantly redraws the normal (non-overlay) scene graph by calling SoSceneManager::render().

Subclasses may override this method to add their own rendering before or after Coin renders its scene graph.

The following is a complete example that demonstrates one way of adding both a background image and foreground (overlay) geometry to the "normal" rendering:

// This example shows how to put a permanent background image on
// your viewer canvas, below the 3D graphics, plus overlay
// foreground geometry.  Written by mortene.
// Copyright Kongsberg Oil & Gas Technologies 2002.

// *************************************************************************

#include <Inventor/Win/SoWin.h>
#include <Inventor/Win/viewers/SoWinExaminerViewer.h>
#include <Inventor/nodes/SoBaseColor.h>
#include <Inventor/nodes/SoCone.h>
#include <Inventor/nodes/SoCube.h>
#include <Inventor/nodes/SoImage.h>
#include <Inventor/nodes/SoLightModel.h>
#include <Inventor/nodes/SoOrthographicCamera.h>
#include <Inventor/nodes/SoRotationXYZ.h>
#include <Inventor/nodes/SoSeparator.h>
#include <Inventor/nodes/SoTranslation.h>

#include <GL/gl.h>

// *************************************************************************

class MyExaminerViewer : public SoWinExaminerViewer {

public:
  MyExaminerViewer(HWND parent, const char * filename);
  ~MyExaminerViewer();

protected:
  virtual void actualRedraw(void);

private:
  SoSeparator * bckgroundroot;
  SoSeparator * foregroundroot;
  SoRotationXYZ * arrowrotation;
};

MyExaminerViewer::MyExaminerViewer(HWND parent, const char * filename)
  : SoWinExaminerViewer(parent)
{
  // Coin should not clear the pixel-buffer, so the background image
  // is not removed.
  this->setClearBeforeRender(FALSE, TRUE);


  // Set up background scene graph with image in it.

  this->bckgroundroot = new SoSeparator;
  this->bckgroundroot->ref();

  SoOrthographicCamera * cam = new SoOrthographicCamera;
  cam->position = SbVec3f(0, 0, 1);
  cam->height = 1;
  // SoImage will be at z==0.0.
  cam->nearDistance = 0.5;
  cam->farDistance = 1.5;

  SoImage * img = new SoImage;
  img->vertAlignment = SoImage::HALF;
  img->horAlignment = SoImage::CENTER;
  img->filename = filename;

  this->bckgroundroot->addChild(cam);
  this->bckgroundroot->addChild(img);

  // Set up foreground, overlaid scene graph.

  this->foregroundroot = new SoSeparator;
  this->foregroundroot->ref();

  SoLightModel * lm = new SoLightModel;
  lm->model = SoLightModel::BASE_COLOR;

  SoBaseColor * bc = new SoBaseColor;
  bc->rgb = SbColor(1, 1, 0);

  cam = new SoOrthographicCamera;
  cam->position = SbVec3f(0, 0, 5);
  cam->height = 10;
  cam->nearDistance = 0;
  cam->farDistance = 10;

  const double ARROWSIZE = 2.0;

  SoTranslation * posit = new SoTranslation;
  posit->translation = SbVec3f(-2.5 * ARROWSIZE, 1.5 * ARROWSIZE, 0);

  arrowrotation = new SoRotationXYZ;
  arrowrotation->axis = SoRotationXYZ::Z;

  SoTranslation * offset = new SoTranslation;
  offset->translation = SbVec3f(ARROWSIZE/2.0, 0, 0);

  SoCube * cube = new SoCube;
  cube->width = ARROWSIZE;
  cube->height = ARROWSIZE/15.0;

  this->foregroundroot->addChild(cam);
  this->foregroundroot->addChild(lm);
  this->foregroundroot->addChild(bc);
  this->foregroundroot->addChild(posit);
  this->foregroundroot->addChild(arrowrotation);
  this->foregroundroot->addChild(offset);
  this->foregroundroot->addChild(cube);
}

MyExaminerViewer::~MyExaminerViewer()
{
  this->bckgroundroot->unref();
  this->foregroundroot->unref();
}

void
MyExaminerViewer::actualRedraw(void)
{
  // Must set up the OpenGL viewport manually, as upon resize
  // operations, Coin won't set it up until the SoGLRenderAction is
  // applied again. And since we need to do glClear() before applying
  // the action..
  const SbViewportRegion vp = this->getViewportRegion();
  SbVec2s origin = vp.getViewportOriginPixels();
  SbVec2s size = vp.getViewportSizePixels();
  glViewport(origin[0], origin[1], size[0], size[1]);

  const SbColor col = this->getBackgroundColor();
  glClearColor(col[0], col[1], col[2], 0.0f);
  glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);

  // Render our scene graph with the image.
  SoGLRenderAction * glra = this->getGLRenderAction();
  glra->apply(this->bckgroundroot);


  // Render normal scene graph.
  SoWinExaminerViewer::actualRedraw();


  // Increase arrow angle with 1/1000 degrees every frame.
  arrowrotation->angle = arrowrotation->angle.getValue() + (0.001 / M_PI * 180);
  // Render overlay front scene graph.
  glClear(GL_DEPTH_BUFFER_BIT);
  glra->apply(this->foregroundroot);
}

// *************************************************************************

int
main(int argc, char ** argv)
{
  if (argc != 2) {
    (void)fprintf(stderr, "\n\n\tUsage: %s <image-filename>\n\n", argv[0]);
    exit(1);
  }

  HWND window = SoWin::init(argv[0]);

  MyExaminerViewer * viewer = new MyExaminerViewer(window, argv[1]);

  viewer->setSceneGraph(new SoCone);
  viewer->show();

  SoWin::show(window);
  SoWin::mainLoop();

  delete viewer;
  return 0;
}

// *************************************************************************

Reimplemented from SoWinRenderArea.

Reimplemented in SoWinExaminerViewer, SoWinFlyViewer, and SoWinPlaneViewer.

processSoEvent()

SbBool SoWinViewer::processSoEvent ( const SoEvent *const  event )

protectedvirtual

Toolkit-native events are tried to convert to Coin-generic events in the SoWinRenderArea::processEvent() method. If this succeeds, they are forwarded to this method.

This is a virtual method, and is overridden in its subclasses to catch events of particular interest to the viewer classes, for instance.

Return TRUE if the event was processed. If not it should be passed on further up in the inheritance hierarchy by the caller. This last point is extremely important to take note of if you are expanding the toolkit with your own viewer class.

This method is not part of the original SGI InventorXt API. Note that you can still override the toolkit-native processEvent() method instead of this "generic" method.

Reimplemented from SoWinRenderArea.

Reimplemented in SoWinFullViewer, SoWinExaminerViewer, SoWinFlyViewer, and SoWinPlaneViewer.

interactiveCountInc()

void SoWinViewer::interactiveCountInc ( void  )

protected

To be able to trigger callback functions when user interaction starts and/or stops, we need to keep track of the viewer state (i.e. are we in still mode or in animation mode?).

SoWinViewer automatically adds callbacks to switch between still and moving draw style, and to switch between single/double buffer when the buffer type is INTERACTIVE.

See also

interactiveCountDec(), getInteractiveCount()

addStartCallback(), addFinishCallback()

removeStartCallback(), removeFinishCallback()

setDrawStyle(), setBufferingType()

interactiveCountDec()

void SoWinViewer::interactiveCountDec ( void  )

protected

To be able to trigger callback functions when user interaction starts and/or stops, we need to keep track of the viewer state (i.e. are we in still mode or in animation mode?).

SoWinViewer automatically adds callbacks to switch between still and moving draw style, and to switch between single/double buffer when the buffer type is INTERACTIVE.

See also

interactiveCountInc(), getInteractiveCount()

addStartCallback(), addFinishCallback()

removeStartCallback(), removeFinishCallback()

setDrawStyle(), setBufferingType()

getInteractiveCount()

int SoWinViewer::getInteractiveCount ( void  ) const

protected

Return current interaction count nesting. If equal to zero, the viewer is in animation mode, otherwise the camera is still.

See also

interactiveCountInc(), interactiveCountDec()

setSeekDistance()

void SoWinViewer::setSeekDistance ( const float  distance )

protected

Set the value used for calculating how close the camera and intersection hit point should be made at the end of a seek operation.

The value can be interpreted as an absolute value in the given world unit (which typically is meters) or as a percentage value of the distance between the camera starting position and the intersection hit point. This can be controlled through the setSeekValueAsPercentage() method. It is as default used as an absolute value.

Default value is 50 (absolute distance or percent).

See also

getSeekDistance(), setSeekValueAsPercentage(), setSeekTime()

getSeekDistance()

float SoWinViewer::getSeekDistance ( void  ) const

protected

Returns the current seek distance. Value given as an absolute scalar length or as a percentage value of the original distance between the hit point and the camera starting position.

See also

setSeekDistance(), isSeekValueAsPercentage()

setSeekValueAsPercentage()

void SoWinViewer::setSeekValueAsPercentage ( const SbBool  on )

protected

Control whether or not the seek distance value should be interpreted as a percentage value or as an absolute distance. See documentation on setSeekDistance() for more information.

See also

setSeekDistance(), isSeekValueAsPercentage()

isSeekValuePercentage()

SbBool SoWinViewer::isSeekValuePercentage ( void  ) const

protected

Returns an boolean which indicates if the seek distance value from getSeekDistance() should be interpreted as a percentage value or as an absolute value.

See also

setSeekValuePercentage(), getSeekDistance()

changeCameraValues()

void SoWinViewer::changeCameraValues ( SoCamera *  camera )

protectedvirtual

Copies the settings of camera into our current camera. Cameras must be of the same class type.

Reimplemented in SoWinConstrainedViewer.

addSuperimposition()

void SoWinViewer::addSuperimposition ( SoNode *  scene )

protected

This method is for setting up a superimposed scene graph on top of the viewer scene graph. It will be used for adding spin-rotation coordinate systems, fly-viewer speed indicators and similar things.

This method is not part of the original InventorXt API.

removeSuperimposition()

void SoWinViewer::removeSuperimposition ( SoNode *  scene )

protected

This method is not part of the original InventorXt API.

setSuperimpositionEnabled()

void SoWinViewer::setSuperimpositionEnabled ( SoNode *  scene, const SbBool  enable  )

protected

This method sets whether the superimposed scene graph should be traversed or not.

This method is not part of the original InventorXt API.

getSuperimpositionEnabled()

SbBool SoWinViewer::getSuperimpositionEnabled ( SoNode *  scene ) const

protected

This method returns whether the superimposed scene is rendered or not.

This method is not part of the original InventorXt API.

---

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

• SoWinViewer.h
• SoWinViewer.cpp