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Coin
4.0.3
Coin3D core library
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Coin
4.0.3
Coin3D core library
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The SoLevelOfDetail class is used to choose a child based on projected size. More...
#include <Inventor/nodes/SoLevelOfDetail.h>
Static Public Member Functions | |
| static SoType | getClassTypeId (void) |
| static void | initClass (void) |
| Sets up initialization for data common to all instances of this class, like submitting necessary information to the Coin type system. | |
 Static Public Member Functions inherited from SoGroup | |
| static SoType | getClassTypeId (void) |
| static void | initClass (void) |
| Sets up initialization for data common to all instances of this class, like submitting necessary information to the Coin type system. | |
| Static Public Member Functions inherited from SoNode | |
| static void | audioRenderS (SoAction *action, SoNode *node) |
| static void | callbackS (SoAction *action, SoNode *node) |
| static int | getActionMethodIndex (const SoType type) |
| static void | getBoundingBoxS (SoAction *action, SoNode *node) |
| static SoNode * | getByName (const SbName &name) |
| static int | getByName (const SbName &name, SoNodeList &l) |
| static SoType | getClassTypeId (void) |
| static uint32_t | getCompatibilityTypes (const SoType &nodetype) |
| static void | getMatrixS (SoAction *action, SoNode *node) |
| static SbUniqueId | getNextNodeId (void) |
| static void | getPrimitiveCountS (SoAction *action, SoNode *node) |
| static void | GLRenderS (SoAction *action, SoNode *node) |
| static void | handleEventS (SoAction *action, SoNode *node) |
| static void | initClass (void) |
| Sets up initialization for data common to all instances of this class, like submitting necessary information to the Coin type system. | |
| static void | initClasses (void) |
| static void | pickS (SoAction *action, SoNode *node) |
| static void | rayPickS (SoAction *action, SoNode *node) |
| static void | searchS (SoAction *action, SoNode *node) |
| static void | writeS (SoAction *action, SoNode *node) |
| Static Public Member Functions inherited from SoFieldContainer | |
| static void | addCopy (const SoFieldContainer *orig, const SoFieldContainer *copy) |
| static SoFieldContainer * | checkCopy (const SoFieldContainer *orig) |
| static void | cleanupClass (void) |
| static void | copyDone (void) |
| static SoFieldContainer * | findCopy (const SoFieldContainer *orig, const SbBool copyconnections) |
| static SoType | getClassTypeId (void) |
| This static method returns the SoType object associated with objects of this class. | |
| static void | initClass (void) |
| Sets up initialization for data common to all instances of this class, like submitting necessary information to the Coin type system. | |
| static void | initCopyDict (void) |
| Static Public Member Functions inherited from SoBase | |
| static void | addName (SoBase *const base, const char *const name) |
| static SbBool | connectRoute (SoInput *input, const SbName &fromnodename, const SbName &fromfieldname, const SbName &tonodename, const SbName &tofieldname) |
| static void | decrementCurrentWriteCounter (void) |
| static SoType | getClassTypeId (void) |
| This static method returns the SoType object associated with objects of this class. | |
| static SoBase * | getNamedBase (const SbName &name, SoType type) |
| static int | getNamedBases (const SbName &name, SoBaseList &baselist, SoType type) |
| static SbBool | getTraceRefs (void) |
| static void | incrementCurrentWriteCounter (void) |
| static void | initClass (void) |
| Sets up initialization for data common to all instances of this class, like submitting necessary information to the Coin type system. | |
| static SbBool | read (SoInput *input, SoBase *&base, SoType expectedtype) |
| static SbBool | readRoute (SoInput *input) |
| static void | removeName (SoBase *const base, const char *const name) |
| static void | setInstancePrefix (const SbString &c) |
| static void | setTraceRefs (SbBool trace) |
Public Attributes | |
| SoMFFloat | screenArea |
Static Protected Member Functions | |
| static const SoFieldData ** | getFieldDataPtr (void) |
| Static Protected Member Functions inherited from SoGroup | |
| static const SoFieldData ** | getFieldDataPtr (void) |
| Static Protected Member Functions inherited from SoNode | |
| static const SoFieldData ** | getFieldDataPtr (void) |
| static int | getNextActionMethodIndex (void) |
| static void | incNextActionMethodIndex (void) |
| static void | setCompatibilityTypes (const SoType &nodetype, const uint32_t bitmask) |
| static void | setNextActionMethodIndex (int index) |
| Static Protected Member Functions inherited from SoBase | |
| static uint32_t | getCurrentWriteCounter (void) |
| static void | staticDataLock (void) |
| static void | staticDataUnlock (void) |
Additional Inherited Members | |
| Public Types inherited from SoNode | |
| enum | NodeType { INVENTOR = 0x0000 , VRML1 = 0x0001 , VRML2 = 0x0002 , INVENTOR_1 = 0x0004 , INVENTOR_2_0 = 0x0008 , INVENTOR_2_1 = 0x0010 , INVENTOR_2_5 = 0x0020 , INVENTOR_2_6 = 0x0040 , COIN_1_0 = 0x0080 , COIN_2_0 = 0x0100 , EXTENSION = 0x0200 , COIN_2_2 = 0x0400 , COIN_2_3 = 0x0800 , COIN_2_4 = 0x1000 , INVENTOR_5_0 = 0x2000 , COIN_2_5 = 0x4000 , COIN_3_0 = 0x8000 , INVENTOR_6_0 = 0x10000 , COIN_4_0 = 0x20000 } |
| Protected Types inherited from SoBase | |
| enum | BaseFlags { IS_ENGINE = 0x01 , IS_GROUP = 0x02 } |
| Protected Attributes inherited from SoGroup | |
| SoChildList * | children |
| Protected Attributes inherited from SoNode | |
| SbUniqueId | uniqueId |
| Protected Attributes inherited from SoFieldContainer | |
| SbBool | isBuiltIn |
| Static Protected Attributes inherited from SoNode | |
| static int | nextActionMethodIndex = 0 |
| static SbUniqueId | nextUniqueId = 1 |
The SoLevelOfDetail class is used to choose a child based on projected size.
A level-of-detail mechanism is typically used by application programmers to assist the library in speeding up the rendering.
The way a level-of-detail mechanism works is basically like this:
Several versions of varying complexity of the same geometry / shape is provided by the application programmer in sorted order from "most complex" to "least complex" (where "complex" in this context should be taken to mean more or less detailed in the number of polygons / shapes used for rendering it).
The runtime rendering system then, upon scene graph traversal, will on-the-fly calculate either the distance from the camera to the 3D-model in question, or the number of pixels in the screen projection of the 3D-model. This value is then used to decide which version of the model to actually render: as the model is moved farther away from the camera, a less detailed version of the model is used. And vice versa, as the model moves closer to the camera, more and more detailed versions of it are rendered.
This is under many different circumstances a very effective way to let the application programmer assist to profoundly optimize the rendering of her 3D-scene.
There is of course a trade-off with the level-of-detail technique: more versions of the same 3D model means the scene graph will use up more application memory resources. Also, generating the set of less and less detailed versions of a 3D model from the original is often not a trivial task to do properly. The process is often assisted by software like what Kongsberg Oil & Gas Technologies offers in their <a href="http://www.rational-reducer.com>Rational Reducer</a> package. The SoLevelOfDetail node implements the "projected size" variety level-of-detail technique (as opposed to the "object distance" technique, as done by the SoLOD node). The node works by comparing the current projected size of the smallest rectangle covering the bounding box of its child geometry. Along with this set of models of the same shape, a specification of when to switch between them is also provided. Example scene graph layout: @code LevelOfDetail { screenArea [ 2000, 500, 50 ] DEF version-0 Separator { # most complex / detailed / heavy version of subgraph } DEF version-1 Separator { # less complex version of subgraph } DEF version-2 Separator { # even less complex version of subgraph } DEF version-3 Separator { # simplest / "lightest" version of subgraph } } \endcode The way the above sub-scene graph would work would be the following: if the rectangular area around the model's projected bounding box covers \e more than 2000 pixels (meaning it will be up pretty close to the camera), the most complex version of the model (\c version-0) would be traversed (and rendered, of course). If the projected area would be \e between 500 and 2000 pixels, the \c version-1 model would be used. Ditto if the projected area was between 50 and 500 pixels, the \c version-2 version of the model would be used. Finally, if the projected bounding box area would be \e less than 50 square pixels, the presumably least detailed version of the model would be used. (A common "trick" is to let the last of the SoLevelOfDetail node's children be just an empty subgraph, so no geometry will be rendered at all if the model is sufficiently far away. This will of course have a positive effect on the total rendering time for the complete scene graph.) Note that the SoLevelOfDetail::screenArea vector will be influenced by preceding SoComplexity nodes in the following way: if SoComplexity::value is set from 0.0 up to 0.5, lower detail levels than normal will be selected for traversal. If SoComplexity::value is above 0.5, higher level details than normal will be used. An SoComplexity::value equal to 1.0 will cause the first child of SoLevelOfDetail to always be used. As mentioned above, there is one other level-of-detail node in the Coin library: SoLOD. The difference between that one and this is just that instead of projected bounding box area, SoLOD uses the distance between the camera and the object to find out when to switch between the different model versions. Using SoLOD is faster, since figuring out the projected bounding box area needs a certain amount of calculations. But using SoLevelOfDetail is often "better", in the sense that it's really a model's size and visibility in the viewport that determines whether we could switch to a less complex version without losing enough detail that it gives a noticeable visual degradation.
FILE FORMAT/DEFAULTS:
| SoLevelOfDetail::SoLevelOfDetail | ( | void | ) |
Default constructor.
| SoLevelOfDetail::SoLevelOfDetail | ( | int | numchildren | ) |
Constructor.
The argument should be the approximate number of children which is expected to be inserted below this node. The number need not be exact, as it is only used as a hint for better memory resource allocation.
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protectedvirtual |
Destructor.
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virtual |
Action method for SoAudioRenderAction.
Does common processing for SoAudioRenderAction action instances.
Reimplemented from SoGroup.
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virtual |
Action method for SoCallbackAction.
Simply updates the state according to how the node behaves for the render action, so the application programmer can use the SoCallbackAction for extracting information about the scene graph.
Reimplemented from SoGroup.
This function performs the typical operation of a node for any action.
Reimplemented from SoGroup.
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virtual |
Action method for the SoGetBoundingBoxAction.
Calculates bounding box and center coordinates for node and modifies the values of the action to encompass the bounding box for this node and to shift the center point for the scene more towards the one for this node.
Nodes influencing how geometry nodes calculate their bounding box also override this method to change the relevant state variables.
Reimplemented from SoGroup.
This static method returns the SoType object associated with objects of this class.
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protectedvirtual |
Returns a pointer to the class-wide field data storage object for this instance. If no fields are present, returns NULL.
Reimplemented from SoGroup.
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staticprotected |
This API member is considered internal to the library, as it is not likely to be of interest to the application programmer.
Returns the SoFieldData class which holds information about fields in this node.
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virtual |
Action method for the SoGLRenderAction.
This is called during rendering traversals. Nodes influencing the rendering state in any way or want to throw geometry primitives at OpenGL override this method.
Reimplemented from SoGroup.
Notifies all auditors for this instance when changes are made.
Reimplemented from SoNode.
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virtual |
Action method for SoRayPickAction.
Checks the ray specification of the action and tests for intersection with the data of the node.
Nodes influencing relevant state variables for how picking is done also override this method.
Reimplemented from SoNode.
| SoMFFloat SoLevelOfDetail::screenArea |
The screen area limits for the children. See usage example in main class documentation of SoLevelOfDetail for an explanation of how this vector should be set up correctly.
By default this vector just contains a single value 0.0f.
1.10.0