| SoBaseKit(3IV)() | SoBaseKit(3IV)() |
SoBaseKit — base class for all node kits
SoBase > SoFieldContainer > SoNode > SoBaseKit
#include <Inventor/nodekits/SoBaseKit.h>
Parts from class SoBaseKit:
(SoNodeKitListPart) callbackList
Methods from class SoBaseKit:
SoBaseKit()
static const SoNodekitCatalog * getClassNodekitCatalog()
const
virtual const SoNodekitCatalog * getNodekitCatalog()
const
virtual SoNode * getPart(const SbName &partName,
SbBool makeIfNeeded)
SbString getPartString(const SoBase *part)
virtual SoNodeKitPath * createPathToPart(const SbName
&partName, SbBool makeIfNeeded, const SoPath *pathToExtend = NULL)
virtual SbBool setPart(const SbName &partName,
SoNode *newPart)
SbBool set(char *partName, char *parameters)
SbBool set(char *nameValuePairs)
static SbBool isSearchingChildren()
static void setSearchingChildren(SbBool newVal)
static SoType getClassTypeId()
Methods from class SoNode:
void setOverride(SbBool state)
SbBool isOverride() const
SoNode * copy(SbBool copyConnections = FALSE)
const
virtual SbBool affectsState() const
static SoNode * getByName(const SbName &name)
static int getByName(const SbName &name,
SoNodeList &list)
Methods from class SoFieldContainer:
void setToDefaults()
SbBool hasDefaultValues() const
SbBool fieldsAreEqual(const SoFieldContainer *fc)
const
void copyFieldValues(const SoFieldContainer *fc,
SbBool copyConnections = FALSE)
void get(SbString &fieldDataString)
virtual int getFields(SoFieldList &resultList)
const
virtual SoField * getField(const SbName
&fieldName) const
SbBool getFieldName(const SoField *field, SbName
&fieldName) const
SbBool isNotifyEnabled() const
SbBool enableNotify(SbBool flag)
Methods from class SoBase:
void ref()
void unref() const
void unrefNoDelete() const
void touch()
virtual SoType getTypeId() const
SbBool isOfType(SoType type) const
virtual void setName(const SbName &name)
virtual SbName getName() const
Macros from class SoBaseKit:
SO_GET_PART(kit, partName, partClass)
SO_CHECK_PART(kit, partName, partClass)
This is the base class from which all nodekit nodes are derived. Nodekits provide a convenient mechanism for creating groups of scene graph nodes with some larger meaning. When you create a shape node such as an indexed face set, for example, you almost always precede it with a coordinate node. You may also want to add a transform node or specify properties with material, drawing style, material binding, etc. Instead of creating each of these nodes individually and then arranging them into a subgraph, you can use a nodekit of the appropriate type (in this case, SoShapeKit).
Each class of nodekit has a nodekit catalog (SoNodekitCatalog) that describes the nodes in the subgraph, referred to as parts. The catalog has an entry for each part, with information such as the partName, partType, and nullByDefault (if FALSE the constructor creates it). The catalog also describes the arrangement of parts in the subgraph. (Other information is described below; a complete description is in the SoNodekitCatalog reference page.)
If we regard the scene graph arrangement as a branching tree, then the top node (root) of the arrangement is always the nodekit itself. The leaf nodes are those at the bottom (containing no children). Some leaves of the tree are defined in the catalog to be public parts, while other leaves are private. All non-leaf parts are considered internal to the nodekit structure and are marked private. Public parts are accessible; they may be requested, changed, or set by the programmer with member functions such as getPart(). Private parts are not accessible, so methods such as getPart() will have no effect on them. For example, if you call getPart() to retrieve a private part, NULL will be returned even when the part exists.
Every nodekit reference page has a Parts section describing the function of each public part it adds to those inherited from its parent class. Also, a Catalog Parts section has tables of often-needed information from the catalog (part type, etc.). These tables include all public parts, both new and inherited. Only the public parts of a nodekit are described in the reference pages. Nodekits take care of the rest for you; they automatically arrange the subgraph, creating and deleting the private parts when necessary. (The SoNodekitCatalog reference page has methods for finding out the part names and arrangement of all parts, both public and private.)
The nodekit catalog is a template shared by all instances of a class. They use the shared catalog as a guide when creating parts (i.e., constructing actual nodes), but each instance stores its own parts separately. Moreover, nodekits are not SoGroup nodes, and parts are added as hidden children; you can only access parts with the methods of SoBaseKit and its derived classes.
Any public part may be retrieved with getPart(), installed with setPart(), or removed by giving a NULL argument to setPart(). Paths from the nodekit down to a part can be created by createPathToPart().
By default, parts are not created until the user requests or sets them. This keeps the subgraph uncluttered and efficient for traversal. Additionally, removing a part (setting it to NULL) has the extra effect of removing any internal parts that are no longer needed.
Since nodekits hide their children, any SoPath containing nodekits will end at the topmost nodekit. However, since nodekits may be nested within other nodekits, you may wish to cast an (SoPath *) into an (SoNodeKitPath *). The methods of SoNodeKitPath allow you to view all nodekits that lie on the path (see the reference page for SoNodeKitPath).
Public parts in the nodekit catalog fall into three categories:
[1] regular nodes
[2] nodekits, or nested nodekits (which may nest recursively). Any node which is public in a nested nodekit is accessible to the higher level nodekit(s) that contains it. The description of getPart() below shows how to refer to nested parts by name (e.g., "appearance.material"). This works for any nodekit method that takes a part name for an argument.
[3] lists, or list parts. These parts group together children (list elements) of a particular type or types. As with nested nodekits, you can refer to individual elements using notation described in getPart() (e.g., "childList[0]", or if the list elements are in turn nodekits, "childList[2].transform").
When the catalog denotes that a part is a list, the part itself is always a node of type SoNodeKitListPart. The catalog specifies a set of permissible listItemTypes and a listContainerType for that part. It gives this information to the SoNodeKitListPart when it creates it. From then on, the list part will enforce type checking. So even if you retrieve the SoNodeKitListPart with getPart(), you will not be able to add illegal children. (See the SoNodeKitListPart reference page for more information). As an example, the callbackList part of SoBaseKit has an SoSeparator container and allows only SoCallback and SoEventCallback nodes in the list. Children may be added, retrieved, and removed from an SoNodeKitListPart node using methods that parallel those of SoGroup. However, type-checking is strictly enforced.
Note that, although all public parts are leaves in the nodekit catalog, you are free to add children to them (assuming that they are groups, nodekits, or list parts). A part's status as a leaf in the catalog just means that the nodekit will not manage the part's children. For example, SoWrapperKit has a part called contents with a part type of SoSeparator. You can put whatever you want underneath the separator, as long as contents itself is an SoSeparator.
Thus, a nodekit only controls a section of the scene graph. Above and below that section, anything goes.
However, when nodekits are nested, they effectively create a larger `known' section of the scene graph. For example, the appearance part of the SoSeparatorKit is a leaf node in the SoSeparatorKit catalog. But appearance is in turn an SoAppearanceKit, containing parts such as material and drawStyle. The two nodekits combine to make an even larger template, which the SoSeparatorKit can examine by looking at the catalogs for both classes. So an SoSeparatorKit can successfully return a part named "material"; first it finds (or creates) the appearance part, then it gets the material by calling getPart() on the appearance.
When the catalog defines the listItemTypes of a list part to be nodekits, the name-able space expands further. For example, SoSeparatorKit has a part childList which permits only SoSeparatorKits, so each list element can be further searched. Hence the name "childList[0].childList[1].childList[2].material" is perfectly legal.
(SoNodeKitListPart) callbackList
This is the only part that the base class SoBaseKit creates. It is a
public part that is inherited by all nodekits. It provides an easy
way to add callbacks for a nodekit to use during action traversal (e.g.
SoHandleEventAction). It is a list part and may contain numerous
SoCallback and/or SoEventCallback nodes.
SoBaseKit()
Constructor.
static const SoNodekitCatalog * getClassNodekitCatalog()
const
Returns the SoNodekitCatalog for the class SoBaseKit.
virtual const SoNodekitCatalog * getNodekitCatalog()
const
Returns the SoNodekitCatalog for this instance of SoBaseKit.
While each instance of a given class creates its own distinct set of parts
(which are actual nodes), all instances share the same catalog (which
describes the parts but contains no actual node pointers).
virtual SoNode * getPart(const SbName &partName,
SbBool makeIfNeeded)
Searches the nodekit catalog (and those of all nested nodekits) for the part
named partName. Returns a pointer to the part if a match is
found, the part is public, and the part has already been
built. If no match is found, or if the part is private,
NULL is returned. If partName is in the catalog (or that of
one of its nested nodekit parts), but the part has not been built yet, the
argument makeIfNeeded determines the course of action. When
makeIfNeeded is FALSE, NULL is returned; when
makeIfNeeded is TRUE, getPart() will create the part
(as well as any necessary intermediary parts), put it in the correct place,
and return a pointer to the newly created part.
Elements of list parts and parts within nested nodekits can all be retrieved with getPart() The full syntax for legal partName arguments is given below.
Part name BNF notation:
partName = singleName | compoundName
compoundName = singleName | compoundName.singleName
singleName = singlePartName | singleListElementName
singlePartName = the name of any single part in the catalog (including those that are lists or nodekits), or in the recursively nested catalogs of any of its parts.
singleListElementName = singleListName[index]
singleListName = the name of any single list-type part in the catalog, or in the recursively nested catalogs of any of its parts.
index = integer
Examples of valid part names are:
"transform", "appearance.material", "childList[2].drawStyle", "foot", "bird.leftLeg.foot", "octopus.leg[4].suctionCup[2].material"
SbString getPartString(const SoBase *part)
Given a node or a path to a node, checks if the part exists in the nodekit, in
a nested nodekit, or an element of a list part. If so, returns a string
describing the part name; otherwise, returns an empty string
("").
virtual SoNodeKitPath * createPathToPart(const SbName
&partName, SbBool makeIfNeeded, const SoPath *pathToExtend = NULL)
Returns a path that begins at this nodekit and ends at partName.
Searching for the part is the same as in getPart(). NULL is
returned if partName cannot be found, or if makeIfNeeded is
FALSE and the part is not yet built. If the the part is retrieved and
the argument pathToExtend is NULL, the path returned begins at
this and ends at partName. If pathToExtend is not
NULL, the path created is a copy of pathToExtend with entries
appended all the way down to partName. It is okay for
pathToExtend to go beyond the nodekit; extra nodes will be popped off
the tail before continuing from this down to partName.
virtual SbBool setPart(const SbName &partName,
SoNode *newPart)
Inserts the given node (not a copy) as the new part specified by
partName. See getPart() for the syntax of partName.
This method adds any extra nodes needed to fit the part into the nodekit's
catalog. For example, if you call:
mySepKit->setPart("childList[0]", myNewChild);
If newPart is NULL, then the node specified by partName is removed. If this renders any private parts useless (as occurs when you remove the last child of an SoGroup node), they will also be removed. Hence nodekits do not retain unnecessary nodes.
TRUE is returned on success, and FALSE upon error.
SbBool set(char *partName, char *parameters)
SbBool set(char *nameValuePairs)
These functions allow field values of parts (nodes) to be set. If
partName and parameters are used, then a single part is
specified by partName; the field values are specified in
parameters. The format of paramaters is the Inventor File
Format syntax. For example,
mySepKit->set("material", "diffuseColor 1 0 0 shininess 0.6");
The nameValuePairs syntax can be used to set the field values in several different parts simultaneously. In this case, the argument string, nameValuePairs contains name-value pairs: "partName1 { parameters1 } ... partNameN { parametersN }".
For example,
mySepKit->set("material { diffuseColor 1 1 1 }
transform { translation 4 3 .6 }"); mySepKit->set("childList[0].material { ambientColor .5 .5 .5 }");
static SbBool isSearchingChildren()
static void setSearchingChildren(SbBool newVal)
Sets and queries if nodekit children are searched during SoSearchAction
traversal. By default, they are not.
static SoType getClassTypeId()
Returns type identifier for this class.
SO_GET_PART(kit, partName, partClass)
Calls getPart() with makeIfNeeded set to TRUE, then casts
the result to the type partClass. Note that in the debug library,
this macro checks to see if the part is of type partClass, while the
regular library does no type checking.
SO_CHECK_PART(kit, partName, partClass)
Calls getPart(), but with makeIfNeeded set to FALSE, then
casts the result to the type partClass. Note that in the debug
library, this macro checks to see if the part is of type partClass,
while the regular library does no type checking.
SoGLRenderAction, SoCallbackAction, SoGetBoundingBoxAction,
SoHandleEventAction
Behaves like an SoGroup. Traverses each child in order.
SoRayPickAction
Traverses each child in order. Then, for any pick containing the kit on its
path, makes an SoNodeKitDetail as follows: Sets the
"detailNodeKit" (retrievable with
SoNodeKitDetail::getNodeKit()) to be a pointer to itself. Sets the
"detailPart" (retrievable with
SoNodeKitDetail::getPart()) to be a pointer to the kit's leaf-most
part that lies on the pickPath. Sets the "detailPartName"
(retrievable with SoNodeKitDetail::getPartName()) to be the partName
of that part, as found in the catalog.
Does not descend into nested nodekits. Each nodekit along the path is the "detailPart" in its parent's detail. However, if the pick path goes through a list part, a pointer to the child is used for the "detailPart", and "detailPartName" is of the form "listName[i]".
SoGetMatrixAction
Behaves like an SoGroup. Does nothing unless the kit is in the middle
of the path chain the action is being applied to. If so, the children up to
and including the next node in the chain are traversed.
SoSearchAction
First, searches itself like an SoNode. Then, checks the value of
isSearchingChildren(). If TRUE, traverses the children in order. If
FALSE, returns.
SoWriteAction
Begins by writing out regular fields, then writes out the parts. A nodekit
does not write out its parts the way an SoGroup writes out its
children. Instead, it writes each part as an SoSFNode field. First
the partName is written, then the node being used for that part.
To keep the files terse, nodekits write out as few parts as possible. However, nodekits always write a part if another instance or a path is writing it. If this is not the case, parts are left out according to the following rules:
[1] NULL parts only write if the catalog states they are created by default.
[2] Empty SoGroup and SoSeparator nodes do not write.
[3] Non-leaf parts only write if they have non-default field values.
[4] List parts only write if they have children or if the container node has non-default field values.
[5] Nested nodekit parts only write if they need to write one or more parts, or if they have non-default field values.
| All parts | |||
| NULL by | |||
| Part Name | Part Type | Default Type | Default |
| callbackList | NodeKitListPart | -- | yes |
| Extra information for list parts from above table | ||
| Part Name | Container Type | Permissible Types |
| callbackList | Separator | Callback, EventCallback |
BaseKit {
callbackList NULL
}
SoAppearanceKit, SoCameraKit, SoLightKit, SoNodeKit, SoNodeKitDetail, SoNodeKitListPart, SoNodeKitPath, SoNodekitCatalog, SoSceneKit, SoSeparatorKit, SoShapeKit, SoWrapperKit