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SoCallbackAction Class Reference
Action Classes

The SoCallbackAction class invokes callbacks at specific nodes. More...

#include <Inventor/actions/SoCallbackAction.h>

Inheritance diagram for SoCallbackAction:
SoAction SoVectorizeAction SoVectorizePSAction

Public Types

enum  Response { CONTINUE, ABORT, PRUNE }
 
typedef Response SoCallbackActionCB(void *userdata, SoCallbackAction *action, const SoNode *node)
 
- Public Types inherited from SoAction
enum  AppliedCode { NODE = 0, PATH = 1, PATH_LIST = 2 }
 
enum  PathCode { NO_PATH = 0, IN_PATH = 1, BELOW_PATH = 2, OFF_PATH = 3 }
 

Public Member Functions

virtual SoType getTypeId (void) const
 
 SoCallbackAction (void)
 
 SoCallbackAction (const SbViewportRegion &vp)
 
virtual ~SoCallbackAction (void)
 
void setViewportRegion (const SbViewportRegion &vp)
 
void addPreCallback (const SoType type, SoCallbackActionCB *cb, void *userdata)
 
void addPostCallback (const SoType type, SoCallbackActionCB *cb, void *userdata)
 
void addPreTailCallback (SoCallbackActionCB *cb, void *userdata)
 
void addPostTailCallback (SoCallbackActionCB *cb, void *userdata)
 
void addTriangleCallback (const SoType type, SoTriangleCB *cb, void *userdata)
 
void addLineSegmentCallback (const SoType type, SoLineSegmentCB *cb, void *userdata)
 
void addPointCallback (const SoType type, SoPointCB *cb, void *userdata)
 
SoDecimationTypeElement::Type getDecimationType (void) const
 
float getDecimationPercentage (void) const
 
float getComplexity (void) const
 
SoComplexity::Type getComplexityType (void) const
 
int32_t getNumCoordinates (void) const
 
const SbVec3fgetCoordinate3 (const int index) const
 
const SbVec4fgetCoordinate4 (const int index) const
 
SoDrawStyle::Style getDrawStyle (void) const
 
unsigned short getLinePattern (void) const
 
float getLineWidth (void) const
 
float getPointSize (void) const
 
const SbNamegetFontName (void) const
 
float getFontSize (void) const
 
SoLightModel::Model getLightModel (void) const
 
const SbVec3fgetLightAttenuation (void) const
 
void getMaterial (SbColor &ambient, SbColor &diffuse, SbColor &specular, SbColor &emission, float &shininess, float &transparency, const int index=0) const
 
SoMaterialBinding::Binding getMaterialBinding (void) const
 
uint32_t getNumNormals (void) const
 
const SbVec3fgetNormal (const int index) const
 
SoNormalBinding::Binding getNormalBinding (void) const
 
int32_t getNumProfileCoordinates (void) const
 
const SbVec2fgetProfileCoordinate2 (const int index) const
 
const SbVec3fgetProfileCoordinate3 (const int index) const
 
const SoNodeListgetProfile (void) const
 
SoShapeHints::VertexOrdering getVertexOrdering (void) const
 
SoShapeHints::ShapeType getShapeType (void) const
 
SoShapeHints::FaceType getFaceType (void) const
 
float getCreaseAngle (void) const
 
int32_t getNumTextureCoordinates (void) const
 
const SbVec2fgetTextureCoordinate2 (const int index) const
 
const SbVec3fgetTextureCoordinate3 (const int index) const
 
const SbVec4fgetTextureCoordinate4 (const int index) const
 
SoTextureCoordinateBinding::Binding getTextureCoordinateBinding (void) const
 
const SbColorgetTextureBlendColor (void) const
 
const unsigned char * getTextureImage (SbVec2s &size, int &numcomps) const
 
const unsigned char * getTextureImage (SbVec3s &size, int &numcomps) const
 
const SbMatrixgetTextureMatrix (void) const
 
SoTexture2::Model getTextureModel (void) const
 
SoTexture2::Wrap getTextureWrapS (void) const
 
SoTexture2::Wrap getTextureWrapT (void) const
 
SoTexture2::Wrap getTextureWrapR (void) const
 
const SbMatrixgetModelMatrix (void) const
 
SoUnits::Units getUnits (void) const
 
float getFocalDistance (void) const
 
const SbMatrixgetProjectionMatrix (void) const
 
const SbMatrixgetViewingMatrix (void) const
 
const SbViewVolumegetViewVolume (void) const
 
const SbViewportRegiongetViewportRegion (void) const
 
SoPickStyle::Style getPickStyle (void) const
 
int32_t getSwitch (void) const
 
Response getCurrentResponse (void) const
 
void invokePreCallbacks (const SoNode *const node)
 
void invokePostCallbacks (const SoNode *const node)
 
void invokeTriangleCallbacks (const SoShape *const shape, const SoPrimitiveVertex *const v1, const SoPrimitiveVertex *const v2, const SoPrimitiveVertex *const v3)
 
void invokeLineSegmentCallbacks (const SoShape *const shape, const SoPrimitiveVertex *const v1, const SoPrimitiveVertex *const v2)
 
void invokePointCallbacks (const SoShape *const shape, const SoPrimitiveVertex *const v)
 
SbBool shouldGeneratePrimitives (const SoShape *shape) const
 
virtual SoNodegetCurPathTail (void)
 
void setCurrentNode (SoNode *const node)
 
void setCallbackAll (SbBool callbackall)
 
SbBool isCallbackAll (void) const
 
- Public Member Functions inherited from SoAction
virtual ~SoAction (void)
 
virtual SbBool isOfType (SoType type) const
 
virtual void apply (SoNode *root)
 
virtual void apply (SoPath *path)
 
virtual void apply (const SoPathList &pathlist, SbBool obeysrules=FALSE)
 
void apply (SoAction *beingApplied)
 
virtual void invalidateState (void)
 
AppliedCode getWhatAppliedTo (void) const
 
SoNodegetNodeAppliedTo (void) const
 
SoPathgetPathAppliedTo (void) const
 
const SoPathListgetPathListAppliedTo (void) const
 
const SoPathListgetOriginalPathListAppliedTo (void) const
 
SbBool isLastPathListAppliedTo (void) const
 
PathCode getPathCode (int &numindices, const int *&indices)
 
void traverse (SoNode *const node)
 
SbBool hasTerminated (void) const
 
const SoPathgetCurPath (void)
 
SoStategetState (void) const
 
PathCode getCurPathCode (void) const
 
void usePathCode (int &numindices, const int *&indices)
 
void pushCurPath (const int childindex, SoNode *node=NULL)
 
void popCurPath (const PathCode prevpathcode)
 
void pushCurPath (void)
 
void popPushCurPath (const int childindex, SoNode *node=NULL)
 
void popCurPath (void)
 
void switchToPathTraversal (SoPath *path)
 
void switchToNodeTraversal (SoNode *node)
 

Static Public Member Functions

static SoType getClassTypeId (void)
 
static void addMethod (const SoType type, SoActionMethod method)
 
static void enableElement (const SoType type, const int stackindex)
 
static void initClass (void)
 
- Static Public Member Functions inherited from SoAction
static void initClass (void)
 
static void initClasses (void)
 
static SoType getClassTypeId (void)
 
static void nullAction (SoAction *action, SoNode *node)
 

Protected Member Functions

virtual const SoEnabledElementsListgetEnabledElements (void) const
 
virtual void beginTraversal (SoNode *node)
 
- Protected Member Functions inherited from SoAction
 SoAction (void)
 
virtual void endTraversal (SoNode *node)
 
void setTerminated (const SbBool flag)
 
virtual SbBool shouldCompactPathList (void) const
 

Static Protected Member Functions

static SoEnabledElementsListgetClassEnabledElements (void)
 
static SoActionMethodListgetClassActionMethods (void)
 
- Static Protected Member Functions inherited from SoAction
static SoEnabledElementsListgetClassEnabledElements (void)
 
static SoActionMethodListgetClassActionMethods (void)
 

Additional Inherited Members

- Protected Attributes inherited from SoAction
SoStatestate
 
SoActionMethodListtraversalMethods
 

Detailed Description

The SoCallbackAction class invokes callbacks at specific nodes.

This action has mechanisms for tracking traversal position and traversal state. In combination with the ability to pass geometry primitives to callback actions set by the user, this does for instance make it rather straightforward to extract the geometry of a scene graph.

You should be able to use this action for most of your "simple" traversal needs, instead of cooking up your own code, as the SoCallbackAction is rather flexible.

A common use of this action is to extract geometry of non-primitive shapes as triangles. A full-fledged example that demonstrates this on a scenegraph with two spheres follows:

#include <Inventor/SoDB.h>
#include <Inventor/SoPrimitiveVertex.h>
#include <Inventor/actions/SoCallbackAction.h>
#include <Inventor/nodes/SoCoordinate3.h>
#include <Inventor/nodes/SoIndexedFaceSet.h>
#include <Inventor/nodes/SoSeparator.h>
#include <Inventor/nodes/SoShape.h>
#include <Inventor/nodes/SoSphere.h>
#include <Inventor/nodes/SoTranslation.h>
static SoCoordinate3 * coord3 = NULL;
static SoIndexedFaceSet * ifs = NULL;
static int coord3idx = 0;
static void
triangle_cb(void * userdata, SoCallbackAction * action,
const SoPrimitiveVertex * v1,
const SoPrimitiveVertex * v2,
const SoPrimitiveVertex * v3)
{
const SbVec3f vtx[] = { v1->getPoint(), v2->getPoint(), v3->getPoint() };
const SbMatrix mm = action->getModelMatrix();
SbVec3f vx[3];
for (int j=0; j < 3; j++) { mm.multVecMatrix(vtx[j], vx[j]); }
// (This is sub-optimal -- should scan for the same vertex
// coordinates already being present in the SoCoordinate3
// node. We'll get lots of duplicate coordinates from this.)
coord3->point.setNum(coord3->point.getNum() + 3);
coord3->point.setValues(coord3idx, 3, vx);
int32_t indices[] = { coord3idx, coord3idx + 1, coord3idx + 2, -1 };
coord3idx += 3;
int oldsize = ifs->coordIndex.getNum();
ifs->coordIndex.setNum(oldsize + 4);
ifs->coordIndex.setValues(oldsize, 4, indices);
// (Note that it would likely be desirable to grab normal vectors,
// materials and / or texture coordinates in a real-world
// application. How to do this is not shown by the above code,
// but it is not much different from the extraction of vertex
// coordinates.)
}
int
main(void)
{
SoDB::init();
SoSeparator * root = new SoSeparator;
root->addChild(new SoSphere);
SoTranslation * trans = new SoTranslation;
trans->translation.setValue(10, 0, 0);
root->addChild(trans);
SoSphere * ss = new SoSphere;
ss->radius = 3;
root->addChild(ss);
root->ref();
coord3 = new SoCoordinate3;
coord3->point.setNum(0);
ifs = new SoIndexedFaceSet;
ifs->coordIndex.setNum(0);
SoCallbackAction ca;
ca.addTriangleCallback(SoShape::getClassTypeId(), triangle_cb, NULL);
ca.apply(root);
root->unref();
// [the generated SoCoordinate3 and SoIndexedFaceSet nodes would now
// typically be used in a scenegraph in a viewer, or written to disk
// or something]
return 0;
}

Member Typedef Documentation

◆ SoCallbackActionCB

Response SoCallbackAction::SoCallbackActionCB

Callback functions need to be of this type. node is at the current traversal point in the scene graph.

Member Enumeration Documentation

◆ Response

enum SoCallbackAction::Response

Response values for callback function.

Enumerator
CONTINUE 

Continue traversal as usual.

ABORT 

Abort traversal immediately. No other callbacks are called after this has been returned.

PRUNE 

Don't do traversal of neither the current node (if returning from a pre-traversal callback) nor its children.

If returned from a pre-callback, the post-callbacks will still be called. If returned from a post-callback, the behaviour will be the same as for returning CONTINUE.

Constructor & Destructor Documentation

◆ SoCallbackAction() [1/2]

SoCallbackAction::SoCallbackAction ( void  )

Default constructor. Will set the viewport to a standard viewport with size 640x512.

◆ SoCallbackAction() [2/2]

SoCallbackAction::SoCallbackAction ( const SbViewportRegion vp)

Constructor which lets you specify the viewport.

This constructor is an extension versus the Open Inventor API.

◆ ~SoCallbackAction()

SoCallbackAction::~SoCallbackAction ( void  )
virtual

Destructor.

Member Function Documentation

◆ getTypeId()

SoType SoCallbackAction::getTypeId ( void  ) const
virtual

Returns the type identification of an action derived from a class inheriting SoAction. This is used for run-time type checking and "downward" casting.

Usage example:

void bar(SoAction * action)
{
if (action->getTypeId() == SoGLRenderAction::getClassTypeId()) {
// safe downward cast, know the type
SoGLRenderAction * glrender = (SoGLRenderAction *)action;
}
return; // ignore if not renderaction
}

For application programmers wanting to extend the library with new actions: this method needs to be overridden in all subclasses. This is typically done as part of setting up the full type system for extension classes, which is usually accomplished by using the pre-defined macros available through Inventor/nodes/SoSubAction.h: SO_ACTION_SOURCE, SO_ACTION_INIT_CLASS and SO_ACTION_CONSTRUCTOR.

For more information on writing Coin extensions, see the SoAction class documentation.

Returns the actual type id of an object derived from a class inheriting SoAction. Needs to be overridden in all subclasses.

Implements SoAction.

Reimplemented in SoVectorizeAction, and SoVectorizePSAction.

◆ addMethod()

void SoCallbackAction::addMethod ( const SoType  type,
SoActionMethod  method 
)
static

This API member is considered internal to the library, as it is not likely to be of interest to the application programmer.

◆ enableElement()

void SoCallbackAction::enableElement ( const SoType  type,
const int  stackindex 
)
static

This API member is considered internal to the library, as it is not likely to be of interest to the application programmer.

◆ getEnabledElements()

const SoEnabledElementsList & SoCallbackAction::getEnabledElements ( void  ) const
protectedvirtual

Returns a list of the elements used by action instances of this class upon traversal operations.

Reimplemented from SoAction.

Reimplemented in SoVectorizeAction, and SoVectorizePSAction.

◆ setViewportRegion()

void SoCallbackAction::setViewportRegion ( const SbViewportRegion vp)

Sets the viewport region for this action. When set, the viewport element is initialized right before a traversal starts, making it the current viewport.

This method is an extension versus the Open Inventor API.

◆ addPreCallback()

void SoCallbackAction::addPreCallback ( const SoType  type,
SoCallbackActionCB cb,
void *  userdata 
)

Set a function cb to call before every node of type is traversed. cb will be called with userdata.

◆ addPostCallback()

void SoCallbackAction::addPostCallback ( const SoType  type,
SoCallbackActionCB cb,
void *  userdata 
)

Set a function cb to call after every node of type has been traversed. cb will be called with userdata.

◆ addPreTailCallback()

void SoCallbackAction::addPreTailCallback ( SoCallbackActionCB cb,
void *  userdata 
)

Set a function cb to call before the tail of a path is traversed. cb will be called with userdata.

◆ addPostTailCallback()

void SoCallbackAction::addPostTailCallback ( SoCallbackActionCB cb,
void *  userdata 
)

Set a function cb to call after the tail of a path has been traversed. cb will be called with userdata.

◆ addTriangleCallback()

void SoCallbackAction::addTriangleCallback ( const SoType  type,
SoTriangleCB cb,
void *  userdata 
)

Set a function cb to call when traversing a node of type which generates triangle primitives for rendering. cb will be called with userdata.

◆ addLineSegmentCallback()

void SoCallbackAction::addLineSegmentCallback ( const SoType  type,
SoLineSegmentCB cb,
void *  userdata 
)

Set a function cb to call when traversing a node of type which generates line primitives for rendering. cb will be called with userdata.

◆ addPointCallback()

void SoCallbackAction::addPointCallback ( const SoType  type,
SoPointCB cb,
void *  userdata 
)

Set a function cb to call when traversing a node of type which generates single point primitives for rendering. cb will be called with userdata.

◆ getDecimationType()

SoDecimationTypeElement::Type SoCallbackAction::getDecimationType ( void  ) const

Returns current decimation type setting.

◆ getDecimationPercentage()

float SoCallbackAction::getDecimationPercentage ( void  ) const

Returns current decimation percentage setting.

◆ getComplexity()

float SoCallbackAction::getComplexity ( void  ) const

Returns current complexity setting.

◆ getComplexityType()

SoComplexity::Type SoCallbackAction::getComplexityType ( void  ) const

Returns current complexity type setting.

◆ getNumCoordinates()

int32_t SoCallbackAction::getNumCoordinates ( void  ) const

Returns current number of coordinates in the state.

◆ getCoordinate3()

const SbVec3f & SoCallbackAction::getCoordinate3 ( const int  index) const

Returns a coordinate triplet from the current state pool of coordinates.

◆ getCoordinate4()

const SbVec4f & SoCallbackAction::getCoordinate4 ( const int  index) const

Returns a coordinate quartuplet from the current state pool of coordinates.

◆ getDrawStyle()

SoDrawStyle::Style SoCallbackAction::getDrawStyle ( void  ) const

Returns current draw style setting.

◆ getLinePattern()

unsigned short SoCallbackAction::getLinePattern ( void  ) const

Returns current line pattern setting.

◆ getLineWidth()

float SoCallbackAction::getLineWidth ( void  ) const

Returns current line width setting.

◆ getPointSize()

float SoCallbackAction::getPointSize ( void  ) const

Returns current point size setting.

◆ getFontName()

const SbName & SoCallbackAction::getFontName ( void  ) const

Returns current fontname setting.

◆ getFontSize()

float SoCallbackAction::getFontSize ( void  ) const

Returns current fontsize setting.

◆ getLightModel()

SoLightModel::Model SoCallbackAction::getLightModel ( void  ) const

Returns current lightmodel setting.

◆ getLightAttenuation()

const SbVec3f & SoCallbackAction::getLightAttenuation ( void  ) const

Returns current light attenuation setting.

◆ getMaterial()

void SoCallbackAction::getMaterial ( SbColor ambient,
SbColor diffuse,
SbColor specular,
SbColor emission,
float &  shininess,
float &  transparency,
const int  index = 0 
) const

Returns current material settings.

◆ getMaterialBinding()

SoMaterialBinding::Binding SoCallbackAction::getMaterialBinding ( void  ) const

Returns current materialbinding setting.

◆ getNumNormals()

uint32_t SoCallbackAction::getNumNormals ( void  ) const

Returns current number of normals in the state.

◆ getNormal()

const SbVec3f & SoCallbackAction::getNormal ( const int  index) const

Returns the normal vectors at index from the current state.

◆ getNormalBinding()

SoNormalBinding::Binding SoCallbackAction::getNormalBinding ( void  ) const

Returns current normalbinding setting.

◆ getNumProfileCoordinates()

int32_t SoCallbackAction::getNumProfileCoordinates ( void  ) const

Returns current number of profile coordinates in the state.

◆ getProfileCoordinate2()

const SbVec2f & SoCallbackAction::getProfileCoordinate2 ( const int  index) const

Returns current number of SbVec2f profile coordinates in the state.

◆ getProfileCoordinate3()

const SbVec3f & SoCallbackAction::getProfileCoordinate3 ( const int  index) const

Returns current number of SbVec3f profile coordinates in the state.

◆ getProfile()

const SoNodeList & SoCallbackAction::getProfile ( void  ) const

Returns current list of profile nodes.

◆ getVertexOrdering()

SoShapeHints::VertexOrdering SoCallbackAction::getVertexOrdering ( void  ) const

Returns current vertexordering shapehint setting.

Please note that this is the vertex ordering set by the SoShapeHints node. If you want to find the vertex ordering for VRML nodes you'll need to read this directly from the ccw field in those nodes.

◆ getShapeType()

SoShapeHints::ShapeType SoCallbackAction::getShapeType ( void  ) const

Returns current shapetype hint setting.

Please note that this is the shape type set by the SoShapeHints node. If you want to find the shape type for VRML nodes you'll need to read this directly from the solid field in those nodes.

◆ getFaceType()

SoShapeHints::FaceType SoCallbackAction::getFaceType ( void  ) const

Returns current facetype hint setting.

Please note that this is the face type set by the SoShapeHints node. If you want to find the face type for VRML nodes you'll need to read this directly from the convex field in those nodes.

◆ getCreaseAngle()

float SoCallbackAction::getCreaseAngle ( void  ) const

Returns current creaseangle setting. Please note that this is the crease angle value set by the SoShapeHints node. If you want to find the crease angle for VRML nodes you'll need to read this directly from the creaseAngle field in those nodes.

◆ getNumTextureCoordinates()

int32_t SoCallbackAction::getNumTextureCoordinates ( void  ) const

Returns current number of texture coordinates in the traversal state.

◆ getTextureCoordinate2()

const SbVec2f & SoCallbackAction::getTextureCoordinate2 ( const int  index) const

Returns SbVec2f texture coordinate at index from the texture coordinate pool of the traversal state.

◆ getTextureCoordinate3()

const SbVec3f & SoCallbackAction::getTextureCoordinate3 ( const int  index) const

Returns SbVec3f texture coordinate at index from the texture coordinate pool of the traversal state.

This function is an extension for Coin, and it is not available in the original SGI Open Inventor v2.1 API.

Since
Coin 2.0

◆ getTextureCoordinate4()

const SbVec4f & SoCallbackAction::getTextureCoordinate4 ( const int  index) const

Returns SbVec4f texture coordinate at index from the texture coordinate pool of the traversal state.

◆ getTextureCoordinateBinding()

SoTextureCoordinateBinding::Binding SoCallbackAction::getTextureCoordinateBinding ( void  ) const

Returns current texturecoordinate binding setting.

◆ getTextureBlendColor()

const SbColor & SoCallbackAction::getTextureBlendColor ( void  ) const

Returns current texture blend color setting.

◆ getTextureImage() [1/2]

const unsigned char * SoCallbackAction::getTextureImage ( SbVec2s size,
int numcomps 
) const

Returns current texture image settings.

◆ getTextureImage() [2/2]

const unsigned char * SoCallbackAction::getTextureImage ( SbVec3s size,
int numcomps 
) const

Returns current 3D texture image settings.

This function is an extension for Coin, and it is not available in the original SGI Open Inventor v2.1 API.

Since
Coin 2.0

◆ getTextureMatrix()

const SbMatrix & SoCallbackAction::getTextureMatrix ( void  ) const

Returns current texture transformation matrix setting.

◆ getTextureModel()

SoTexture2::Model SoCallbackAction::getTextureModel ( void  ) const

Returns current texturemapping model setting.

◆ getTextureWrapS()

SoTexture2::Wrap SoCallbackAction::getTextureWrapS ( void  ) const

Returns current texture wrapping setting for the S coordinate.

◆ getTextureWrapT()

SoTexture2::Wrap SoCallbackAction::getTextureWrapT ( void  ) const

Returns current texture wrapping setting for the T coordinate.

◆ getTextureWrapR()

SoTexture2::Wrap SoCallbackAction::getTextureWrapR ( void  ) const

Returns current texture wrapping setting for the R coordinate.

This function is an extension for Coin, and it is not available in the original SGI Open Inventor v2.1 API.

Since
Coin 2.0

◆ getModelMatrix()

const SbMatrix & SoCallbackAction::getModelMatrix ( void  ) const

Returns current model matrix.

◆ getUnits()

SoUnits::Units SoCallbackAction::getUnits ( void  ) const

Returns current units setting.

◆ getFocalDistance()

float SoCallbackAction::getFocalDistance ( void  ) const

Returns current camera focal distance setting.

◆ getProjectionMatrix()

const SbMatrix & SoCallbackAction::getProjectionMatrix ( void  ) const

Returns current projection matrix.

◆ getViewingMatrix()

const SbMatrix & SoCallbackAction::getViewingMatrix ( void  ) const

Returns current viewing matrix.

◆ getViewVolume()

const SbViewVolume & SoCallbackAction::getViewVolume ( void  ) const

Returns current view volume setting.

◆ getViewportRegion()

const SbViewportRegion & SoCallbackAction::getViewportRegion ( void  ) const

Returns current viewport region setting.

This method is an extension versus the Open Inventor API.

◆ getPickStyle()

SoPickStyle::Style SoCallbackAction::getPickStyle ( void  ) const

Returns current pickstyle setting.

◆ getSwitch()

int32_t SoCallbackAction::getSwitch ( void  ) const

Returns last SoSwitch::whichChild setting during the traversal.

◆ getCurrentResponse()

SoCallbackAction::Response SoCallbackAction::getCurrentResponse ( void  ) const

This API member is considered internal to the library, as it is not likely to be of interest to the application programmer.

◆ invokePreCallbacks()

void SoCallbackAction::invokePreCallbacks ( const SoNode *const  node)

This API member is considered internal to the library, as it is not likely to be of interest to the application programmer.

Invoke all "pre traversal" callbacks.

◆ invokePostCallbacks()

void SoCallbackAction::invokePostCallbacks ( const SoNode *const  node)

This API member is considered internal to the library, as it is not likely to be of interest to the application programmer.

Invoke all "post traversal" callbacks.

◆ invokeTriangleCallbacks()

void SoCallbackAction::invokeTriangleCallbacks ( const SoShape *const  shape,
const SoPrimitiveVertex *const  v1,
const SoPrimitiveVertex *const  v2,
const SoPrimitiveVertex *const  v3 
)

This API member is considered internal to the library, as it is not likely to be of interest to the application programmer.

Invoke all "triangle generation" callbacks.

◆ invokeLineSegmentCallbacks()

void SoCallbackAction::invokeLineSegmentCallbacks ( const SoShape *const  shape,
const SoPrimitiveVertex *const  v1,
const SoPrimitiveVertex *const  v2 
)

This API member is considered internal to the library, as it is not likely to be of interest to the application programmer.

Invoke all "line segment generation" callbacks.

◆ invokePointCallbacks()

void SoCallbackAction::invokePointCallbacks ( const SoShape *const  shape,
const SoPrimitiveVertex *const  v 
)

This API member is considered internal to the library, as it is not likely to be of interest to the application programmer.

Invoke all "point" callbacks.

◆ shouldGeneratePrimitives()

SbBool SoCallbackAction::shouldGeneratePrimitives ( const SoShape shape) const

This API member is considered internal to the library, as it is not likely to be of interest to the application programmer.

Check from the shape nodes whether or not to generate primitives from the complex shapes. If there are no callbacks attached to the node types, making the primitives would only be a waste of CPU.

◆ getCurPathTail()

SoNode * SoCallbackAction::getCurPathTail ( void  )
virtual

Returns the current tail of the traversal path for the callback action.

Reimplemented from SoAction.

◆ setCurrentNode()

void SoCallbackAction::setCurrentNode ( SoNode *const  node)

Used from nodes during traversal to keep a current node pointer in the action.

◆ beginTraversal()

void SoCallbackAction::beginTraversal ( SoNode node)
protectedvirtual

This virtual method is called from SoAction::apply(), and is the entry point for the actual scenegraph traversal.

It can be overridden to initialize the action at traversal start, for specific initializations in the action subclasses inheriting SoAction.

Default method just calls traverse(), which any overridden implementation of the method must do too (or call SoAction::beginTraversal()) to trigger the scenegraph traversal.

Reimplemented from SoAction.

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