SoIntersectionDetectionAction(3) Coin SoIntersectionDetectionAction(3)

SoIntersectionDetectionAction - The SoIntersectionDetectionAction class is for detecting intersecting primitives in a scene.

#include <Inventor/collision/SoIntersectionDetectionAction.h>

Inherits SoAction.


enum Resp { NEXT_PRIMITIVE, NEXT_SHAPE, ABORT }
typedef SoCallbackAction::Response SoIntersectionVisitationCB(void *closure, const SoPath *where)
typedef SbBool SoIntersectionFilterCB(void *closure, const SoPath *p1, const SoPath *p2)
typedef Resp SoIntersectionCB(void *closure, const SoIntersectingPrimitive *p1, const SoIntersectingPrimitive *p2)

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 }


virtual SoType getTypeId (void) const
void setIntersectionDetectionEpsilon (float epsilon)
float getIntersectionDetectionEpsilon (void) const
void setTypeEnabled (SoType type, SbBool enable)
SbBool isTypeEnabled (SoType type, SbBool checkgroups=FALSE) const
void setManipsEnabled (SbBool enable)
SbBool isManipsEnabled (void) const
void setDraggersEnabled (SbBool enable)
SbBool isDraggersEnabled (void) const
void setShapeInternalsEnabled (SbBool enable)
SbBool isShapeInternalsEnabled (void) const
void addVisitationCallback (SoType type, SoIntersectionVisitationCB *cb, void *closure)
void removeVisitationCallback (SoType type, SoIntersectionVisitationCB *cb, void *closure)
virtual void apply (SoNode *node)
virtual void apply (SoPath *path)
virtual void apply (const SoPathList &paths, SbBool obeysRules=FALSE)
virtual void setFilterCallback (SoIntersectionFilterCB *cb, void *closure=NULL)
virtual void addIntersectionCallback (SoIntersectionCB *cb, void *closure=NULL)
virtual void removeIntersectionCallback (SoIntersectionCB *cb, void *closure=NULL)

Public Member Functions inherited from SoAction
virtual ~SoAction (void)
virtual SbBool isOfType (SoType type) const
void apply (SoAction *beingApplied)
virtual void invalidateState (void)
AppliedCode getWhatAppliedTo (void) const
SoNode * getNodeAppliedTo (void) const
SoPath * getPathAppliedTo (void) const
const SoPathList * getPathListAppliedTo (void) const
const SoPathList * getOriginalPathListAppliedTo (void) const
SbBool isLastPathListAppliedTo (void) const
PathCode getPathCode (int &numindices, const int *&indices)
void traverse (SoNode *const node)
SbBool hasTerminated (void) const
const SoPath * getCurPath (void)
SoState * getState (void) const
PathCode getCurPathCode (void) const
virtual SoNode * getCurPathTail (void)
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 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 void setIntersectionEpsilon (float epsilon)
static float getIntersectionEpsilon (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)


virtual const SoEnabledElementsList & getEnabledElements (void) const

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


static SoEnabledElementsList * getClassEnabledElements (void)
static SoActionMethodList * getClassActionMethods (void)

Static Protected Member Functions inherited from SoAction
static SoEnabledElementsList * getClassEnabledElements (void)
static SoActionMethodList * getClassActionMethods (void)

Protected Attributes inherited from SoAction
SoState * state
SoActionMethodList * traversalMethods

The SoIntersectionDetectionAction class is for detecting intersecting primitives in a scene.

Note that only collisions between actual geometry in the scene are detected, so the contents of some special nodes like e.g. SoText2 and SoImage (which projects to screen-plane bitmap graphics, and not actual polygons) will not be considered for collision detection.

Note also that the SoIntersectionDetectionAction class is not a high-performance component in Coin. Using it in a continuous manner over complex scene graphs is doomed to be a performance killer.

Below is a simple usage example for this class. It was written as a standalone framework set up for profiling and optimization of the SoIntersectionDetectionAction. It tests intersection of all shapes against each other for the loaded file.

#include <cstdlib>
#include <Inventor/SbTime.h>
#include <Inventor/SoDB.h>
#include <Inventor/SoInteraction.h>
#include <Inventor/collision/SoIntersectionDetectionAction.h>
#include <Inventor/errors/SoDebugError.h>
#include <Inventor/nodekits/SoNodeKit.h>
#include <Inventor/nodes/SoSeparator.h>
static SoIntersectionDetectionAction::Resp
intersectionCB(void * closure,
               const SoIntersectingPrimitive * pr1,
               const SoIntersectingPrimitive * pr2)
{
  (void)fprintf(stdout, "intersection hit!\n");
  return SoIntersectionDetectionAction::NEXT_PRIMITIVE;
}
int
main(int argc, char ** argv)
{
  SoDB::init();
  SoNodeKit::init();
  SoInteraction::init();
  if (argc != 2) {
    (void)fprintf(stderr, "\n\tUsage: testapp <filename.iv>\n\n");
    exit(1);
  }
  SoInput in;
  SbBool ok = in.openFile(argv[1]);
  assert(ok);
  SoSeparator * root = SoDB::readAll(&in);
  assert(root);
  root->ref();
  SoIntersectionDetectionAction ida;
  ida.addIntersectionCallback(intersectionCB, NULL);
  ida.setManipsEnabled(FALSE);
  ida.setDraggersEnabled(FALSE);
  ida.setIntersectionDetectionEpsilon(10.0f);
  SbTime starttime = SbTime::getTimeOfDay();
  SoDebugError::postInfo("main", "SoIntersectionDetectionAction::apply");
  ida.apply(root);
  SoDebugError::postInfo("main", "apply() done after %f seconds.",
                         (SbTime::getTimeOfDay() - starttime).getValue());
  root->unref();
  return 0;
}

Since

Coin 2.1

TGS Inventor 2.4

SoType SoIntersectionDetectionAction::getTypeId (void ) const [virtual]

Returns the type identification of an object derived from a class inheriting SoAction. This is used for runtime type checking and 'downward' casting.

Implements SoAction.

SoType SoIntersectionDetectionAction::getClassTypeId (void ) [static]

This static method returns the SoType object associated with objects of this class.

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

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

Returns list of enabled elements.

Reimplemented from SoAction.

SoEnabledElementsList * SoIntersectionDetectionAction::getClassEnabledElements (void ) [static], [protected]

Returns list of enabled elements for this class. The enabledElements and methods variables are protected in the original OIV API. This is not such a good idea, since exposed static class member variables is a major grievance with regard to Win32 DLLs. This function is an extension for Coin, and it is not available in the original SGI Open Inventor v2.1 API.

SoActionMethodList * SoIntersectionDetectionAction::getClassActionMethods (void ) [static], [protected]

Returns list of action methods for this class. The enabledElements and methods variables are protected in the original OIV API. This is not such a good idea, since exposed static class member variables is a major grievance with regard to Win32 DLLs. This function is an extension for Coin, and it is not available in the original SGI Open Inventor v2.1 API.

Sets the intersection detection distance epsilon value for the action object. This overrides the global value.

See also SoIntersectionDetectionAction::setIntersectionEpsilon() for important information about how this setting influences performance.

Returns the set intersection detection distance epsilon value for the action object.

Sets the global intersection detection distance epsilon value.

This makes primitives within the epsilon distance be considered to intersect each other.

This will affect all intersection detection action objects in use that don't have a locally set value.

The epsilon value is a world space value.

Be aware that increasing the epsilon value can dramatically increase the number of primitive intersection tests being done to decide intersections. Increasing the epsilon value can therefore cause serious slow-downs in the running time of the intersections checks.

Returns the globally set intersection detection distance epsilon value.

Sets whether nodes of specific types (including derived objects) should be tested for intersection or not.

See also

isTypeEnabled(), setManipsEnabled(), setDraggersEnabled()

Returns whether nodes of specific types are enabled or not. The checkgroups argument can be set to TRUE if you want the return value to reflect whether the node will be implicit enabled/disabled through the settings controlled by the setManipsEnabled() and setDraggersEnabled() functions.

The default is that all node types are enabled.

Note that derivation checks are not performed - the type needs to be the exact same type as has been disabled with setTypeEnabled()

See also

setTypeEnabled()

Sets whether manipulators in the scene graph should be tested for intersection with other geometry or not.

Note that when draggers are disabled with setDraggersEnabled(), this setting has no effect - manipulators are disabled too.

See also

isManipsEnabled(), setDraggersEnabled(), setTypeEnabled()

Returns whether the actions is set up to test intersection on manipulators in the scene or not.

Note that when draggers are disabled with setDraggersEnabled(), this setting has no effect - manipulators are disabled too.

The default is that manipulators are enabled for intersection testing with other geometry in the scene.

See also

setManipsEnabled()

Sets whether draggers in the scene graph should be tested for intersection with other geometry or not.

Note that when you disable draggers, manipulators are also automatically disabled, although the isManipsDisabled() setting might reflect otherwise.

See also

isDraggersEnabled(), setManipsEnabled(), setTypeEnabled()

Returns whether the actions is set up to test intersection on draggers in the scene or not.

The default is that draggers are enabled for intersection testing with other geometry in the scene.

See also

setDraggersEnabled()

Sets whether nodes in the scene graph should be checked for intersecting primitives within themselves.

Default is FALSE.

See also

isShapeInternalsEnabled()

Returns whether nodes in the scene graph will be checked for intersecting primitives within themselves.

The default value for this setting is FALSE.

See also

setShapeInternalsEnabled()

The scene graph traversal can be controlled with callbacks which you set with this method. Use just like you would use SoCallbackAction::addPreCallback().

See also

SoCallbackAction::addPreCallback()

The scene graph traversal can be controlled with callbacks which you remove with this method. Use just like you would use SoCallbackAction::removePreCallback().

See also

SoCallbackAction::removePreCallback()

void SoIntersectionDetectionAction::apply (SoNode * root) [virtual]

Applies the action to the scene graph rooted at root.

Note that you should not apply an action to a node with a zero reference count. The behavior in that case is undefined.

Reimplemented from SoAction.

void SoIntersectionDetectionAction::apply (SoPath * path) [virtual]

Applies the action to the parts of the graph defined by path.

Note that an SoPath will also contain all nodes that may influence e.g. geometry nodes in the path. So for instance applying an SoGLRenderAction on an SoPath will render that path as expected in the view, where geometry will get its materials, textures, and other appearance settings correctly.

If the path ends in an SoGroup node, the action will also traverse the tail node's children.

Reimplemented from SoAction.

Applies action to the graphs defined by pathlist. If obeysrules is set to TRUE, pathlist must obey the following four conditions (which is the case for path lists returned from search actions for non-group nodes and path lists returned from picking actions):

All paths must start at the same head node. All paths must be sorted in traversal order. The paths must be unique. No path can continue through the end point of another path.

See also

SoAction::apply(SoPath * path)

Reimplemented from SoAction.

This callback is called when two shapes are found to have intersecting bounding boxes, and are about to be checked for real intersection between their primitives.

When intersection epsilon values are in use, bounding box intersection testing is done approximately and will trigger the filter callback on boxes that are further from each other than the epsilon length.

If the callback returns TRUE, the intersection test will be performed. If the callback returns FALSE, the intersection testing will be skipped.

The API allows only one filter callback.

Adds a callback to be called when two intersecting primitives are found in the scene.

If the callback returns ABORT, the intersection detection is aborted. If the callback returns NEXT_SHAPE, the intersection detection between these two shapes are aborted and the action continues checking other shapes. If the callback returns NEXT_PRIMITIVE, the intersection detection testing continues checking the other primitives in these two shapes.

See also

removeIntersectionCallback()

Removes a callback set with addIntersectionCallback().

See also

addIntersectionCallback()

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Fri Sep 6 2024 15:32:06 Version 4.0.3