Intersects objects with a ray cast into scene. More...
#include <Inventor/actions/SoRayPickAction.h>
Public Types | |
enum | PickingMode { DEFAULT , POINT_PICKING } |
Public Types inherited from SoAction | |
enum | DistribMode { LOCAL_ONLY , CLUSTER_ONLY , ALL } |
This is used to define the way an action is distributed across a cluster. More... | |
enum | AppliedCode { NODE , PATH , PATH_LIST } |
This enum is used to determine what the action is being applied to. More... | |
enum | PathCode { NO_PATH , IN_PATH , BELOW_PATH , OFF_PATH } |
This enum may be used during traversal of nodes to indicate where the node is with respect to the path being traversed. More... | |
Public Member Functions | |
virtual SoType | getTypeId () const |
Returns the type identifier for this specific instance. | |
SoRayPickAction (const SbViewportRegion &viewportRegion) | |
Constructor takes viewport region to use for picking. | |
virtual void | clearApplyResult () |
Clears the picked point list. | |
void | setPickingMode (PickingMode pickingMode) |
Sets the picking mode. | |
PickingMode | getPickingMode () const |
Returns the PickingMode used for the ray pick action. | |
virtual void | setPoint (const SbVec2s &viewportPoint) |
Sets the viewport point through which the ray passes, starting at the camera position. | |
virtual void | setPoint (const SbVec2f &viewportPoint) |
Float version of setPoint. | |
const SbVec2s & | getPoint () const |
Gets the viewport point in pixels (returns the last value passed to setPoint). | |
const SbVec2f & | getPointFloat () const |
Float version of getPoint(). | |
virtual void | setNormalizedPoint (const SbVec2f &normPoint) |
Sets the viewport point in normalized coordinates, which range from (0,0) at the lower left to (1,1) at the upper right. | |
const SbVec2f | getNormalizedPoint () const |
Gets the viewport point in normalized coordinates [0..1] (returns the last value passed to setNormalizedPoint). | |
void | setRadius (float radius) |
Sets the radius around the point. | |
float | getRadius () const |
Gets the radius (in pixels) around the point. | |
virtual void | setRay (const SbVec3f &start, const SbVec3f &direction, float nearDistance=-1.0, float farDistance=-1.0) |
Sets a world-space ray along which to pick. | |
virtual void | setRay (float fovy, const SbVec3f &start, const SbVec3f &direction, float nearDistance=-1.0, float farDistance=-1.0) |
Sets a world-space ray along which to pick in the the same way as the other version of setRay(), but allows you to set a view angle value. | |
void | setPickAll (SbBool flag) |
Sets whether the action will return all objects intersected or just the closest one. | |
SbBool | isPickAll () const |
Returns whether the action will return all objects intersected or just the closest one. | |
const SoPickedPointList & | getPickedPointList () const |
Returns list of picked points. | |
SoPickedPoint * | getPickedPoint (int index=0) const |
Returns the indexed picked point from the list. | |
SoDEPRECATED void | clearPickedPointList () |
Clears the picked point list. | |
void | enableRadiusForTriangles (SbBool flag) |
Enable radius for triangle-based shape. | |
SbBool | isRadiusEnableForTriangles () |
Returns whether the pick radius specified by setRadius is taken into account for picking on triangle-based shapes. | |
void | enableTexCoordsGeneration (const SbBool enable) |
Enables generation of texture coordinates for picked points. | |
void | enableNormalsGeneration (const SbBool enable) |
Enables generation of normal vectors for picked points. | |
SbBool | isTexCoordsGenerationEnabled () const |
Returns whether texture coordinate generation is enabled for picked points. | |
SbBool | isNormalsGenerationEnabled () const |
Returns whether generation of normal vectors is enabled for picked points. | |
void | enableConicPickVolume (SbBool flag) |
Controls the pick volume shape for picking with setRay(). | |
SbBool | isConicPickVolume () |
Returns TRUE if the picking volume is a conic shape (not a frustum). | |
virtual void | apply (SoNode *node) |
Initiates an action on the graph defined by a node. | |
virtual void | apply (SoPath *path) |
Initiates an action on the graph defined by a path. | |
virtual void | apply (const SoPathList &pathList, SbBool obeysRules=FALSE) |
Initiates an action on the graph defined by a list of paths. | |
Public Member Functions inherited from SoPickAction | |
void | setViewportRegion (const SbViewportRegion &newRegion) |
Sets current viewport region to use for action. | |
const SbViewportRegion & | getViewportRegion () const |
Returns current viewport region to use for action. | |
void | enableCulling (SbBool flag) |
SbBool | isCullingEnabled () const |
Public Member Functions inherited from SoAction | |
virtual | ~SoAction () |
Destructor. | |
virtual void | invalidateState () |
Invalidates the current traversal state in the action, forcing it to be recreated when the action is next applied. | |
void | stopActionInBranch () |
This function stops the action in the current Scene Graph branch. | |
SbBool | getContinueActionInBranchFlag () const |
This function indicates if the action must stop in the current branch. | |
void | resetContinueActionInBranchFlag () |
This function resets the continue action flag. | |
void | useAlternateRep (const SbBool enable) |
Tell the action to use alternate representations during traversal when available. | |
SbBool | isUsingAlternateRep () const |
Returns TRUE if current action is using alternate representations. | |
void | setSceneManager (SoSceneManager *mgr) |
Set the scene manager associated with this action (if any ). | |
SoSceneManager * | getSceneManager () const |
Return the SoSceneManager associated with this action. | |
virtual void | forwardTraversal (SoNode *node) |
Traverse a node that is not part of the current scenegraph. | |
virtual void | forwardTraversal (SoPath *path) |
Traverse a path that is not part of the current scenegraph. | |
DistribMode | getDistribMode () const |
Returns the distribution mode of this action across a cluster (ScaleViz-Cluster only). | |
AppliedCode | getWhatAppliedTo () const |
Returns code indicating what action is being applied to. | |
SoNode * | getNodeAppliedTo () const |
Returns the node the action is being applied to. | |
SoPath * | getPathAppliedTo () const |
Returns the path the action is being applied to. | |
const SoPathList * | getPathListAppliedTo () const |
Returns the path list the action is being applied to. | |
const SoPathList * | getOriginalPathListAppliedTo () const |
Returns the original path list the action is being applied to. | |
SbBool | isLastPathListAppliedTo () const |
Returns TRUE if the current list is the last one from the original. | |
PathCode | getPathCode (int &numIndices, const int *&indices) |
Returns path code based on where current node (the node at the end of the current path) lies with respect to the path(s) the action is being applied to. | |
PathCode | getPathCodeMI (int &numIndices, const int *&indices, const int *&instanceIndices) |
Extender API: available to programmers who wish to extend the toolkit | |
void | traverse (SoNode *node) |
Does traversal of a graph rooted by a node. | |
SbBool | hasTerminated () const |
Returns TRUE if the traversal has reached a termination condition. | |
const SoPath * | getCurPath () |
Returns the path accumulated during traversal, i.e., the chain of nodes from the root of the traversed graph to the current node being traversed. | |
SoState * | getState () const |
Gets the state from the action. | |
virtual void | setUpState () |
Creates state if it is NULL or it is no longer valid because new elements have been enabled since it was created. | |
void | setPipeId (int id) |
Sets pipe identifier in the range [1..N] associated to this render action while running a ScaleViz Multipipe configuration. | |
int | getPipeId () const |
Gets pipe identifier in the range [1..N] associated to this render action while running a ScaleViz Multipipe configuration. | |
bool | isBeingApplied () |
Returns TRUE if this action is currently being applied. | |
virtual bool | preDelayedTraversal () |
Method called by SoMultiPassManager before delayed pass traversals. | |
virtual void | postDelayedTraversal () |
Method called by SoMultiPassManager after delayed pass traversals. | |
Public Member Functions inherited from SoTypedObject | |
SbBool | isOfType (const SoType &type) const |
Returns TRUE if this object is of the type specified in type or is derived from that type. | |
template<typename TypedObjectClass > | |
SbBool | isOfType () const |
Returns TRUE if this object is of the type of class TypedObjectClass or is derived from that class. | |
Static Public Member Functions | |
static SoType | getClassTypeId () |
Returns the type identifier for this class. | |
static void | setStereoMode (SoCamera::StereoMode stereoMode) |
Tells ray pick action in which view the pick occurs. | |
static SoCamera::StereoMode | getStereoMode () |
Returns the view used to perform pick when stereo is active. | |
static void | enableTriangleCulling (SbBool flag) |
Enables culling of triangles relative to the ray frustum. | |
static SbBool | isTriangleCulling () |
Returns whether triangle culling is enabled. | |
Static Public Member Functions inherited from SoPickAction | |
static SoType | getClassTypeId () |
Returns the type identifier for this class. | |
Static Public Member Functions inherited from SoAction | |
static SoType | getClassTypeId () |
Returns the type identifier for this class. | |
static void | nullAction (SoAction *, SoNode *) |
Null action method that can be stored in lookup table when desired. | |
Static Public Member Functions inherited from SoTypedObject | |
static SoType | getClassTypeId () |
Returns the type identifier for this class. | |
Intersects objects with a ray cast into scene.
This class performs picking by casting a ray into a scene and performing intersection tests with each object. The ray is extended to be a frustum a pyramid or a rectangular prism, a cone or a cylinder, depending on the camera type and client inputs (refer to setRay and enableConicPickVolume) for intersection with points and lines. Each intersection is returned as an SoPickedPoint instance.
The picking ray can be specified as either a ray from the camera location through a particular viewport pixel, or as a world-space ray.
Calling any of the setPoint, setNormalizedPoint, or setRadius methods tells the action to compute the picking ray from a viewport pixel. In this case, a camera node must be encountered during traversal of the scene graph in order to determine the location of the ray in world space.
Callers can request the action to compute all intersections along the ray (sorted closest to farthest) by setting the pickAll flag to TRUE. By default, the action computes only the closest intersection. In either case, the intersections are returned in an SoPickedPointList. Each intersection can be examined by accessing the appropriate SoPickedPoint in the list. The SoPickedPoint object provides methods to get the path (SoPath) to the picked geometry in the scene graph, the intersection point in 3D space and other info.
The SoPickedPoint object can also return one of the subclasses of SoDetail, which contains more information about the picked geometry. For example, if a polygonal geometry node like SoIndexedFaceSet was picked, an SoFaceDetail object is returned which provides methods to get the index of the face in the primitive, the vertices of the face and so on. For vertex based geometry each vertex can then be queried as an SoPointDetail.
Note: Texture coordinates for the picked point are not computed by default (to save time). If you need this information, use enableTexCoordsGeneration(). Or set the environment variable OIV_PICK_GENERATE_ALL_PROPERTIES. You can also disable computing the normal vector for the picked if you do not need this information. See enableNormalsGeneration().
In the default mode, Inventor computes the intersection of the pick ray with geometry nodes (face, line, point, volume, mesh, etc). In this case SoPickedPoint::getPoint() returns the coordinate of the intersection and SoPickedPoint::getDetail() typically returns an SoDetail class specific to the picked geometry. Since Open Inventor 9.0, SoRayPickAction also supports a POINT_PICKING mode (see PickingMode). In this mode, Inventor finds all the vertices inside the pick radius. This is only supported for SoBufferedShape and classes derived from SoIndexedShape. This mode can be much faster because, for example, it does not need to check for intersection with all the triangles of an SoIndexedFaceSet.
Applications can use the SoPickStyle node to control if and how geometry can be picked. For example application might want to specify that annotation geometry, e.g. a legend, is not pickable. It can also specify that geometry should be picked using its bounding box rather than exact geometry. This may be more efficient for text strings when it is not necessary to know which character in the string was picked.
The application can get platform independent input events, e.g. mouse button press, as SoEvent objects using the SoEventCallback node. In the callback function the application can create an SoRayPickAction and apply it to the scene graph. Note however that the application can also simply call the node's getPickedPoint() method. In this case Open Inventor automatically applies a pick action to the scene graph and returns the result, so the application does not need to use SoRayPickAction directly. Creating and using an SoRayPickAction explicitly does allow more options to be set. In this case the application will normally call setPoint with the position obtained from the event object. If using system events directly, remember that Open Inventor expects Y pixel values to start from zero at the bottom of the window.
The SoSelection node provides an even higher level way to manage selecting and de-selecting objects in the scene. This node automatically applies a pick action and maintains a list of currently selected objects (paths). Using SoSelection the application does not need to use SoRayPickAction directly. The SoExtSelection node provides more complex picking algorithms. For example it allows the user to select objects using a "rubberband" rectangle or a freeform shape (lasso). Open Inventor provides special render actions that can automatically highlight objects selected using an SoSelection or SoExtSelection node. See SoBoxHighlightRenderAction, SoHaloHighlightRenderAction and SoLineHighlightRenderAction.
Picking algorithm on vertex shapes
Open Inventor implements two different picking algorithms for shapes defined by vertices: the GPU picking algorithm and the CPU picking algorithm.
The GPU picking algorithm is very efficient when the shapes have millions of vertices. For now, only SoPointSet and MeshVizXLM surface shapes (such as MoMeshSkin) are compatible with GPU picking. These conditions are required to activate GPU picking:
Note: if gl_FragDepth is modified in the shader, the retrieved picked point is wrong.
The CPU picking algorithm is used when the previous conditions are not met. In this case, it does true geometric picking in 3D coordinates, so there are no limits to the number of objects that can be picked. Geometric picking means that precise intersections with the geometry are computed. It also means that picking works for any type of primitive, including polygonal geometry, meshes and volumes (VolumeViz). The picking volume can be projected through the scene using orthogonal or perspective projection. See setRay for details. The shape of the picking volume can be rectangular (prism if orthogonal, frustum if perspective) or conic (cylinder if orthogonal, cone if perspective). See enableConicPickVolume().
You can mix GPU picking compatible and incompatible shapes in the same scenegraph, Open Inventor will automatically use GPU picking for compatible shapes and CPU picking for the other shapes.
CPU picking optimization
Pick traversals are optimized using hierarchical bounding boxes cached at the SoSeparator (and a few other) grouping nodes. If the pick ray does not intersect the bounding box then the pick action will not traverse the children of that separator. When optimizing for picking, the application should first consider how quickly Open Inventor can find the geometry to pick. Organizing the scene graph spatially to take advantage of the bounding box optimization can help with this. Second the application should consider how long it will take to find the face to pick. For a very large surface this can take a significant time. Enabling triangle culling, splitting large surfaces into smaller pieces or using proxy geometry may help to reduce the time taken.
Traversing the camera node:
Note that when using SoRayPickAction with pixel coordinates (setPoint()) the pick action must traverse a camera node in order to unproject the coordinate back into 3D space. If the application explicitly creates its own camera, this is usually not a problem because the camera is in the application scene graph. However, if the application allows the viewer to automatically create a camera then the camera is in the viewer's scene graph above the application scene graph. Calling the viewer's getSceneGraph() method returns the application scene graph, not the complete viewer scene graph. To ensure that the traversed scene graph contains a camera, call the viewer's getSceneManager() method, then call the scene manager's getSceneGraph method. Alternatively, in an event callback call the event action's getPickRoot() method.
Picking VolumeViz shapes:
The SoVolumeRender and SoHeightFieldRender nodes uses the GPU to compute the picked voxel during a SoRayPickAction. For this to work, the SoRayPickAction must have its scene manager initialised using the method SoAction::setSceneManager(). SoHandleEventAction does this automatically, so it is not necessary for the application to take any action when using (for example) an SoEventCallback node and calling the getPickedPoint() method. However, if the application creates its own SoRayPickAction then it should set the scene manager. If no scene manager is specified, a warning message is issued and the ray pick action is processed on the CPU.
Hidden references:
SoRayPickAction creates one or more SoPath objects when applied to the scene graph. An SoPath object calls ref() on each node in the path. This reference will prevent the node from being destroyed for as long as the SoPath object exists. These SoPath objects are stored internally in the action and exist until the action object itself is destroyed or reset (see clearApplyResult()).
Shapes that redefine the rayPick method:
In order to make this action work properly with respect to the picked path stored in the picked point list, any shape that redefines the rayPick method must either call the method SoRayPickAction::setObjectSpace() or the method SoShape::computeObjectSpaceRay() in its rayPick method before calling the addIntersection() methods. See the chapter "Creating a node - Creating a Shape Node - Picking" in the Inventor Toolmaker Volume 1.
Sets: SoPickRayElement, SoViewportRegionElement
SoPickedPoint, SoPickedPointList, SoPickStyle
Definition at line 361 of file SoRayPickAction.h.
Enumerator | |
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DEFAULT | In the default mode, Inventor computes the intersection of the pick ray with geometry nodes (face, line, point, volume, mesh, etc). SoPickedPoint::getPoint() returns the coordinate of the intersection and SoPickedPoint::getDetail() returns (usually) an SoDetail class specific to the picked geometry. |
POINT_PICKING | In this mode, Inventor finds all the vertices inside the pick radius. However this is only supported for SoBufferedShape and classes derived from SoIndexedShape. This mode can be much faster because, for example, it does not need to check for intersection with the triangles of an SoIndexedFaceSet. For pick radius see setRadius(). Specific different behaviors include:
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Definition at line 406 of file SoRayPickAction.h.
SoRayPickAction::SoRayPickAction | ( | const SbViewportRegion & | viewportRegion | ) |
Constructor takes viewport region to use for picking.
Even though the picking operation may not involve a window per se, some nodes need this information to determine their size and placement.
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Initiates an action on the graph defined by a list of paths.
TRUE can be passed for the obeysRules flag if the given path list has the following 4 properties:
These rules will be obeyed by path lists returned by picking and by searches for non-group nodes.
Reimplemented from SoAction.
Definition at line 716 of file SoRayPickAction.h.
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Initiates an action on the graph defined by a node.
Warning: Most actions call ref() on the node before traversing the scene graph, then call unref() after traversal. If the node's reference count was zero (the default), the call to apply() will cause it to be destroyed.
Reimplemented from SoAction.
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Initiates an action on the graph defined by a path.
Warning: Most actions call ref() on the path before traversing the scene graph, then call unref() after traversal. If the path's reference count was zero (the default), the call to apply() will cause it to be destroyed.
Reimplemented from SoAction.
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Clears the picked point list.
The picked point list is automatically cleared when the action is destroyed or re-applied. However it may be useful to clear the list explicitly in order to remove references to picked node(s).
Reimplemented from SoAction.
SoDEPRECATED void SoRayPickAction::clearPickedPointList | ( | ) |
Clears the picked point list.
The picked point list is automatically cleared when the action is destroyed or re-applied. However it may be useful to clear the list explicitly in order to remove references to picked node(s).
void SoRayPickAction::enableConicPickVolume | ( | SbBool | flag | ) |
Controls the pick volume shape for picking with setRay().
The default is FALSE, meaning that the picking volume is a rectangular shape, either a prism or a frustum (depending on which version of setRay was called). When enableConicPickVolume is TRUE the picking volume is a conic shape, either a cylinder or a cone (depending on which version of setRay was called).
Setting enableConicPickVolume to TRUE ensures that the entities picked using setRay() will be the same as picking using an equivalent call to setPoint(), but this mode is slightly more costly than frustum picking.
void SoRayPickAction::enableNormalsGeneration | ( | const SbBool | enable | ) |
Enables generation of normal vectors for picked points.
Default is TRUE.
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Enable radius for triangle-based shape.
If TRUE, the radius of the ray specified by setRadius is taken in account when checking for a ray intersection with triangle-based shapes (e.g., SoCylinder). Otherwise, the pick radius for these shapes is 1 pixel regardless of the specified pick radius. Default is FALSE for performance.
Definition at line 1127 of file SoRayPickAction.h.
void SoRayPickAction::enableTexCoordsGeneration | ( | const SbBool | enable | ) |
Enables generation of texture coordinates for picked points.
Default is FALSE for performance (unless environment variable OIV_PICK_GENERATE_ALL_PROPERTIES envvar is set to TRUE).
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Enables culling of triangles relative to the ray frustum.
Enabling culling improves performance for shapes containing a large number of triangles. Default is FALSE.
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Returns the type identifier for this class.
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Gets the viewport point in normalized coordinates [0..1] (returns the last value passed to setNormalizedPoint).
A point is inside the viewport if its coordinates are in the range [0, 1].
If no point has been set or the setRay method was called instead of setXXXPoint, this method returns an undefined coordinate (NaN, NaN).
Definition at line 498 of file SoRayPickAction.h.
SoPickedPoint * SoRayPickAction::getPickedPoint | ( | int | index = 0 | ) | const |
Returns the indexed picked point from the list.
Returns NULL if index is larger than the number of picked points.
Note: Each SoPickedPoint object contains an SoPath with the path to the picked node; therefore the picked node's ref count has been incremented and will remain incremented until the SoPickedPoint object is destroyed.
The SoPickedPoint object is owned by the pick action. It will be destroyed when the action is destroyed or when either apply() or clearApplyResult() is called.
const SoPickedPointList & SoRayPickAction::getPickedPointList | ( | ) | const |
Returns list of picked points.
This results in a copy of the picked point list and a copy of every SoPickedPoint object in the list.
PickingMode SoRayPickAction::getPickingMode | ( | ) | const |
Returns the PickingMode used for the ray pick action.
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Gets the viewport point in pixels (returns the last value passed to setPoint).
Definition at line 471 of file SoRayPickAction.h.
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Float version of getPoint().
It can be used when a desktop is magnified on a wall of screens using ScaleViz with a tracker device calibrated for this wall.
Definition at line 478 of file SoRayPickAction.h.
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Gets the radius (in pixels) around the point.
Definition at line 526 of file SoRayPickAction.h.
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Returns the view used to perform pick when stereo is active.
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Returns the type identifier for this specific instance.
Reimplemented from SoPickAction.
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Returns TRUE if the picking volume is a conic shape (not a frustum).
Definition at line 706 of file SoRayPickAction.h.
SbBool SoRayPickAction::isNormalsGenerationEnabled | ( | ) | const |
Returns whether generation of normal vectors is enabled for picked points.
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Returns whether the action will return all objects intersected or just the closest one.
Definition at line 584 of file SoRayPickAction.h.
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Returns whether the pick radius specified by setRadius is taken into account for picking on triangle-based shapes.
Definition at line 1133 of file SoRayPickAction.h.
SbBool SoRayPickAction::isTexCoordsGenerationEnabled | ( | ) | const |
Returns whether texture coordinate generation is enabled for picked points.
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Returns whether triangle culling is enabled.
Definition at line 660 of file SoRayPickAction.h.
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Sets whether the action will return all objects intersected or just the closest one.
Default is FALSE (only closest intersection).
Definition at line 577 of file SoRayPickAction.h.
void SoRayPickAction::setPickingMode | ( | PickingMode | pickingMode | ) |
Sets the picking mode.
Use enum PickingMode. Default value is PickingMode::DEFAULT
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Float version of setPoint.
It can be used when a desktop is magnified on a wall of screens using ScaleViz with a tracker device calibrated for this wall.
NOTE: You can use this method or setNormalizedPoint or setRay. Whichever method you call last is the one that takes effect.
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Sets the viewport point through which the ray passes, starting at the camera position.
Viewport coordinates range from (0,0) at the lower left to (width-1,height-1) at the upper right. Default is (0,0).
NOTE: You can use this method or setNormalizedPoint or setRay. Whichever method you call last is the one that takes effect.
void SoRayPickAction::setRadius | ( | float | radius | ) |
Sets the radius around the point.
The radius is defined in pixels when defining a ray using the setPoint or setNormalizedPoint method, and is defined in world coordinates, when the ray is defined using the setRay method. By default, for the setPoint and setNormalizedPoint method the radius is 5 pixels.
By default, the radius is not taken into account for triangle based shapes, only for points and lines. To enable this use the enableRadiusForTriangles method. When radius is taken into account, the ray is extended in 3D space. For perspectivecameras, the ray is extended to be a cone. For orthographic cameras, the ray is extended to be a cylinder.
Specifying a radius of 0 may give better performance. In particular, some shapes like MoMeshSkin implement a fast GPU picking algorithm that can only be used when radius is 0.
See also SoQtViewer::setPickRadius(), SoWinViewer::setPickRadius(), SoXtViewer::setPickRadius.
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Sets a world-space ray along which to pick.
The ray is defined as a world space starting point and direction vector. The direction vector will be normalized automatically. The last two arguments specify optional near and far plane clipping during the pick operation. These values are distances from the start point along the direction vector, similar to nearDistance and farDistance in SoCamera. A negative distance (such as the default values) means disable clipping to that plane.
The ray-picking is orthogonal. This means the pick volume is a rectangular prism with a square base having edges of length setRadius * 2 or else a cylinder having radius setRadius if enableConicPickVolume is set to TRUE.
NOTE: You can use this method or the setPoint / setNormalizedPoint Whichever method you call last is the one that takes effect.
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Sets a world-space ray along which to pick in the the same way as the other version of setRay(), but allows you to set a view angle value.
The ray is defined as a world space starting point and direction vector. The direction vector will be normalized automatically. The last two arguments specify optional near and far plane clipping during the pick operation. These values are distances from the start point along the direction vector, similar to nearDistance and farDistance in SoCamera. A negative distance (such as the default values) means disable clipping to that plane.
If fovy is non-zero, perspective ray-picking is used. This means the pick volume is a frustum intersecting the plane passing through the point specified as start argument and having normal vector specified by the direction argument and whose base is a square having edges of length setRadius * 2 or else a circle of radius setRadius if enableConicPickVolume is set to TRUE.
NOTE: You can use this method or the setPoint / setNormalizedPoint Whichever method you call last is the one that takes effect.
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Tells ray pick action in which view the pick occurs.
When stereo mode is active, user can choose between left, right, or normal view to perform the action. Only applicable when stereo is active. Default is LEFT_VIEW.