Extensible 3D (X3D)
Part 1: Architecture and base components
7 Core component
The name of this component is "Core". This name shall be used when referring to this component in the COMPONENT statement (see 7.2.5.4 Component statement).
This clause describes the Core component of this part of ISO/IEC 19775. The Core component supplies the base functionality for the X3D run-time system, including the abstract base node type, field types, the event model, and routing. Table 7.1 lists the major topics in this clause.
The Core component provides the minimum functionality required by all X3D-compliant implementations. The Core component supplies the following abstract constructs:
The Core component is a prerequisite component for all other X3D components.
The Core component may be supported at a variety of levels, allowing for a range of implementations that are conformant to the X3D architecture, object model and event model. For more information on these topics, see 4. Concepts.
Several X3D nodes, such as Background, TextureBackground, Fog, NavigationInfo, and Viewpoint are bindable children nodes, inheriting from the abstract node type X3DBindableNode. These nodes have the unique behaviour that only one of each type can be bound per layer (i.e., affect the user's experience) at any instant in time. The browser shall maintain an independent, separate stack for each type of bindable node in each layer. If there is no LayerSet node defined, there shall be only one set of binding stacks that apply to all nodes in the scene graph. Each of these nodes includes a set_bind inputOnly field and an isBound outputOnly field. The set_bind inputOnly field is used to move a given node to and from its respective top of stack. A TRUE value sent to the set_bind inputOnly field moves the node to the top of the stack; sending a FALSE value removes it from the stack. The isBound event is output when a given node is:
That is, isBound events are sent when a given node becomes, or ceases to be, the active node. The node at the top of the stack (the most recently bound node) is the active node for its type and is used by the browser to set the world state. If the stack is empty (i.e., either the X3D file has no bindable nodes for a given type or the stack has been popped until empty), the default field values for that node type are used to set world state. The results are undefined if a multiply instanced (DEF/USE) bindable node is bound.
Bindable nodes only affect the binding stacks of the layer in which they are defined.
The following rules describe the behaviour of the binding stack for a node of type <bindable node>, (Background, TextureBackground, Fog, NavigationInfo, or Viewpoint):
The results are undefined if a bindable node is bound and is the child of an LOD, Switch, or any node or prototype that disables its children. If a bindable node is bound that results in collision with geometry, the browser shall perform its self-defined navigation adjustments as if the user navigated to this point (see 23.3.2 Collision).
Sensors are nodes that generate events based on external inputs to the scene
graph, such as user input, changes to the viewing environment, messages from the
network or ticks of the system clock. X3D defines the following types of
sensors:
Sensors are children nodes in the hierarchy and therefore may be parented by grouping nodes as described in 10.2.1 Grouping and children node types.
Each type of sensor defines when an event is generated. The state of the scene graph after several sensors have generated events shall be as if each event is processed separately, in order. If sensors generate events at the same time, the state of the scene graph will be undefined if the results depend on the ordering of the events.
It is possible to create dependencies between various types of sensors.
EXAMPLE A TouchSensor may result in a change to a VisibilitySensor node's transformation, which in turn may cause the VisibilitySensor node's visibility status to change.
For a detailed description of how dependencies among sensors are handled during execution, see 4.4.8.3 Execution model.
Metadata is information that is associated with the objects of the X3D world but is not a direct part of the world representation. This part of ISO/IEC 19775 defines an abstract interface X3DMetadataObject that identifies a node as containing metadata and metadata nodes that specify metadata values in various data types.
This part of ISO/IEC 19775 specifies three basic representation types: strings, single-precision and double-precision floating point values, and integers. Each piece of metadata has two additional strings that describe:
The MetadataSet node is provided to support cases when a specific set of metadata requires more than a single data type.
NOTE Since a metadata node is derived from X3DNode, the metadata node may itself have metadata.
The X3DNode abstract node type specifies an SFNode field metadata that may only be populated with nodes derived from X3DMetadataObject. If the metadata field is empty, no metadata is associated with the node. Since all nodes in X3D are derived from X3DNode, metadata may be placed anywhere in an X3D world.
Metadata is not included as part of the depiction of an X3D world. However, metadata nodes may have a DEF name and the values of the fields of a metadata node may be accessed by SAI services and can be accessed using routing.
The content of the value field of a metadata node is not interpreted by the X3D browser.
Metadata may also be attached to other X3D nodes by setting the metadata field of that node to a node derived from the X3DMetadataNode abstract node type.
The META statement (see 7.2.5.5 META statement) may be used to assign metadata to the entire world. The content of the META statement is accessible using the SAI. If it is desired that metadata information that applies to the entire world be provided for access through routing, a WorldInfo node containing the metadata in its metadata field may be inserted as a root node.
An X3D world is conceptually defined as a sequence of statements organized conceptually as a file. The first item in the file is the Header statement. The second item in the file is the PROFILE statement. The PROFILE statement may be optionally followed by one or more COMPONENT statements. The remainder of the file consists of the other elements defined in this part of ISO/IEC 19775. Optional META statements shall follow any COMPONENT statements or, if there are no COMPONENT statements, the PROFILE statement. All other statements shall follow the statements described above.
ROUTE statements are used to specify the pathways for allowed transmission of events. These statements link a field in one node to a field of the same field type in another node.
PROTO statements are used to specify new node types. Such statements assign a name to the new node type along with a declaration of the interface for the new node type. This is followed by a definition for the node type functionality.
EXTERNPROTO statements are used to specify an interface to PROTO or EXTERNPROTO statements located externally to the local file.
Any additional X3D content loaded into the scene via Inline nodes or scenes loaded using createX3DFromStream, createX3DFromString, or createX3DFromUrl, shall be declared as having a profile that has an equal or smaller set of required functionality; i.e., there can be no components explicitly declared, or implied by the profile in that content, that requires functionality not declared in the original profile and component declarations for the containing scene.
Although an X3D world is described as being contained in a file, the file may be conceptual and created dynamically during run-time as described in Part 2 of ISO/IEC 19775.
The Header statement is an encoding-dependent statement containing the following elements:
While the exact representation of this information is dependent on the encoding, this information shall always be stored as human-readable text.
Every X3D application shall declare a profile at the beginning of execution. This declaration tells the browser the exact set of components and their support levels that are required for the application to run, allowing for a browser to dynamically load the appropriate components if it so desires, and providing a mechanism for strict conformance should the browser choose to enforce it. If a browser supports the combination of declared profile and components (see 7.2.5.4 COMPONENT statement), it may proceed with presenting the world; otherwise, it shall fail.
The profile is declared via a PROFILE statement immediately following the Header statement at the top of the file. The form of the PROFILE statement is:
PROFILE <name>
where name is a string that does not contain whitespace.
The following profiles are defined in this standard:
The profile name is implicitly qualified by the version number of the standard (see 7.2.5.2 Header statement). Browsers shall use both the profile name and the version number to determine the specific characteristics of the profile.
X3D applications may explicitly declare additional components required for the application to run. This is useful for combining features that do not appear together in a predefined profile, such as adding humanoid animation support to the Immersive profile. If a browser supports the combination of declared profile and components, it may proceed with presenting the world; otherwise, it shall fail.
Declaring a component in a file shall only add support for nodes and functionality defined in that component at the requested support level. Nodes that are defined as part of the prerequisite components (see 4.5.3 Base Components) shall not be automatically included. A user shall declare all components and levels for the nodes and/or functionality being used either explicitly through the use of the COMPONENT statement or implicitly through the PROFILE statement.
Components are declared by COMPONENT statements at the top of the file, immediately following the PROFILE statement but preceding any other content. The form of the component statement is:
COMPONENT <name> <level>
where <name> is a string that does not contain whitespace, and <level> is a positive integer.
If support for a component at the desired level is implied by the application's declared profile, the declaration for that component is unnecessary but may be included.
X3D applications may explicitly declare metadata about the world being defined. This is done by adding one or more META statements that contain such information. Such statements do not affect the scene graph but simply provide additional information in the world.
Metadata is specified by META statements at the top of the file, immediately following the PROFILE and COMPONENT statements but preceding any other content. The form of the META statement is:
META <key> <data>
where <key> is a string that identifies the metadata and <data> is a string that defines the value for the metadata identified by <key>.
X3D applications specify connections between fields of one node to fields of other nodes using the ROUTE statement. See 4.4.8.2 Routes for a general discussion of routes.
ROUTE statements may appear anywhere in the file and have the following form:
ROUTE <fromNodeName> <fromFieldName> <toNodeName> <toFieldName>
where <fromNodeName> identifies the node that will generate an event, <fromFieldName> is the name of the field in the generating node from which the event will eminate, <toNodeName> identifies the node that will receive an event, and <toFieldName> identifies the field in the destination node that will receive the event.
New node types may be defined by X3D applications through use of the PROTO statement as specified in 4.4.4 Prototype semantics.
PROTO statements may appear anywhere in the file and have the following form:
PROTO <protoName> <protoInterfaceDeclaration> <protoDefinition>
The <protoName> specifies the name for the new node type.
The <protoInterfaceDeclaration> specifies a list of field definitions. Each field definition specifies the data type, access type, and name for the field. For initializeOnly and inputOutput fields, the default value is also specified. See 4.4.4.2 PROTO interface declaration semantics for details.
The <protoDefinition> consists of a list of nodes the first of which is used to specify the node type for the prototype. This list may instantiate other prototypes provided that the definitions of the referenced prototypes precede this PROTO statement. See 4.4.4.3 PROTO definition semantics for details.
Externally defined new node types may be used by X3D applications by referencing their definition using the EXTERNPROTO statement as specified in 4.4.5 External prototype semantics.
EXTERNPROTO statements may appear anywhere in the file and have the following form:
EXTERNPROTO <externprotoName> <externprotoInterfaceDeclaration> <externprotoURL>
The <externprotoName> specifies the name for the new node type.
The <externprotoInterfaceDeclaration> specifies a list of field definitions. Each field definition specifies the data type, access type, and name for the field. The default value for intializeOnly and inputOutput field is derived as specified in 4.4.5.2 EXTERNPROTO interface semantics.
The <externprotoURL> specifies the location of the definition for the externally defined prototype. See 4.4.5.3 EXTERNPROTO URL semantics for details.
X3DBindableNode : X3DChildNode { SFBool [in] set_bind SFNode [in,out] metadata NULL [X3DMetadataObject] SFTime [out] bindTime SFBool [out] isBound }
X3DBindableNode is the abstract base type for all bindable children nodes, including Background, TextureBackground, Fog, NavigationInfo and Viewpoint. For complete discussion of bindable behaviors, see 7.2.2 Bindable children nodes.
X3DChildNode : X3DNode { SFNode [in,out] metadata NULL [X3DMetadataObject] }
This abstract node type indicates that the concrete nodes that are instantiated based on it may be used in children, addChildren, and removeChildren fields.
More details on the children, addChildren, and removeChildren fields can be found in 10.2.1 Grouping and children node types.
X3DInfoNode : X3DChildNode { SFNode [in,out] metadata NULL [X3DMetadataObject] }
This is the base node type for all nodes that contain only information without visual semantics.
X3DMetadataObject { SFString [in,out] name "" SFString [in,out] reference "" }
This abstract interface is the basis for all metadata nodes. The interface is inherited by all metadata nodes.
The specification of the reference field is optional. If provided, it identifies the metadata standard or other specification that defines the name field. If the reference field is not provided or is empty, the meaning of the name field is considered implicit to the characters in the string.
X3DNode { SFNode [in,out] metadata NULL [X3DMetadataObject] }
This abstract node type is the base type for all nodes in the X3D system.
X3DPrototypeInstance : X3DNode { SFNode [in,out] metdata NULL [X3DMetadataObject] }
This abstract node type is the base type for all prototype instances in the X3D system. Any user-defined nodes declared with PROTO or EXTERNPROTO are instantiated using this base type. An X3DPrototypeInstance may be place anywhere in the scene graph where it is legal to place the first node declared within the prototype instance. For example, if the base type of first node is X3DAppearanceNode, that prototype may be instantiated anywhere in the scene graph that allows for an appearance node (EXAMPLE Shape).
X3DSensorNode : X3DChildNode { SFBool [in,out] enabled TRUE SFNode [in,out] metadata NULL [X3DMetadataObject] SFBool [out] isActive }
This abstract node type is the base type for all sensors.
MetadataDouble : X3DNode, X3DMetadataObject { SFNode [in,out] metadata NULL [X3DMetadataObject] SFString [in,out] name "" SFString [in,out] reference "" MFDouble [in,out] value [] }
The metadata provided by this node is contained in the double-precision floating point numbers of the value field.
MetadataFloat : X3DNode, X3DMetadataObject { SFNode [in,out] metadata NULL [X3DMetadataObject] SFString [in,out] name "" SFString [in,out] reference "" MFFloat [in,out] value [] }
The metadata provided by this node is contained in the single-precision floating point numbers of the value field.
MetadataInteger : X3DNode, X3DMetadataObject { SFNode [in,out] metadata NULL [X3DMetadataObject] SFString [in,out] name "" SFString [in,out] reference "" MFInt32 [in,out] value [] }
The metadata provided by this node is contained in the integers of the value field.
MetadataSet : X3DNode, X3DMetadataObject { SFNode [in,out] metadata NULL [X3DMetadataObject] SFString [in,out] name "" SFString [in,out] reference "" MFNode [in,out] value [] [X3DMetadataObject] }
The metadata provided by this node is contained in the metadata nodes of the value field.
MetadataString : X3DNode, X3DMetadataObject { SFNode [in,out] metadata NULL [X3DMetadataObject] SFString [in,out] name "" SFString [in,out] reference "" MFString [in,out] value [] }
The metadata provided by this node is contained in the strings of the value field.
WorldInfo : X3DInfoNode { SFNode [in,out] metadata NULL [X3DMetadataObject] MFString [] info [] SFString [] title "" }
The WorldInfo node contains information about the world. This node is strictly for documentation purposes and has no effect on the visual appearance or behaviour of the world. The title field is intended to store the name or title of the world so that browsers can present this to the user (perhaps in the window border). Any other information about the world can be stored in the info field, such as author information, copyright, and usage instructions.
The Core component provides two levels of support as specified in Table 7.2. Level 1 provides the minimum basis for all profiles and components. Level 2 adds support for prototypes.
Table 7.2 — Core component support levels
Level | Prerequisites | Nodes/Features | Support |
---|---|---|---|
1 | None | ||
X3DBindableNode (abstract) | n/a | ||
X3DChildNode (abstract) | n/a | ||
X3DField (abstract) | n/a | ||
X3DInfoNode (abstract) | n/a | ||
X3DMetadataObject (abstract) | n/a | ||
X3DNode (abstract) | n/a | ||
X3DObject (abstract) | n/a | ||
X3DPrototypeInstance (abstract) | n/a | ||
X3DUrlObject (abstract) | n/a | ||
MetadataDouble | All fields are fully supported. | ||
MetadataFloat | All fields are fully supported. | ||
MetadataInteger | All fields are fully supported. | ||
MetadataSet | All fields are fully supported. | ||
MetadataString | All fields are fully supported. | ||
WorldInfo | All fields are fully supported. | ||
Statements: Header PROFILE COMPONENT META |
Full support. | ||
Field types | All field types. |
||
Event model | As specified in 4.4.8 Event Model. | ||
Routing |
Full support. |
||
Prototyping | Optionally supported. | ||
2 | None | ||
All Level 1 Core objects | As supported in Level 1. | ||
Prototyping | Full support. |