GLTFNode ​
Inherits: Resource < RefCounted < Object
GLTF node class.
Description
Represents a GLTF node. GLTF nodes may have names, transforms, children (other GLTF nodes), and more specialized properties (represented by their own classes).
GLTF nodes generally exist inside of GLTFState which represents all data of a GLTF file. Most of GLTFNode's properties are indices of other data in the GLTF file. You can extend a GLTF node with additional properties by using get_additional_data and set_additional_data.
Tutorials
Properties
-1 | ||
PackedInt32Array() | ||
-1 | ||
-1 | ||
-1 | ||
"" | ||
-1 | ||
Vector3(0, 0, 0) | ||
Quaternion(0, 0, 0, 1) | ||
Vector3(1, 1, 1) | ||
-1 | ||
-1 | ||
Transform3D(1, 0, 0, 0, 1, 0, 0, 0, 1, 0, 0, 0) |
Methods
get_additional_data(extension_name: StringName) | |
void | set_additional_data(extension_name: StringName, additional_data: Variant) |
Property Descriptions
If this GLTF node is a camera, the index of the GLTFCamera in the GLTFState that describes the camera's properties. If -1, this node is not a camera.
PackedInt32Array children = PackedInt32Array() 🔗
void set_children(value: PackedInt32Array)
PackedInt32Array get_children()
The indices of the child nodes in the GLTFState. If this GLTF node has no children, this will be an empty array.
Note: The returned array is copied and any changes to it will not update the original property value. See PackedInt32Array for more details.
How deep into the node hierarchy this node is. A root node will have a height of 0, its children will have a height of 1, and so on. If -1, the height has not been calculated.
If this GLTF node is a light, the index of the GLTFLight in the GLTFState that describes the light's properties. If -1, this node is not a light.
If this GLTF node is a mesh, the index of the GLTFMesh in the GLTFState that describes the mesh's properties. If -1, this node is not a mesh.
String original_name = "" 🔗
The original name of the node.
The index of the parent node in the GLTFState. If -1, this node is a root node.
Vector3 position = Vector3(0, 0, 0) 🔗
The position of the GLTF node relative to its parent.
Quaternion rotation = Quaternion(0, 0, 0, 1) 🔗
void set_rotation(value: Quaternion)
Quaternion get_rotation()
The rotation of the GLTF node relative to its parent.
Vector3 scale = Vector3(1, 1, 1) 🔗
The scale of the GLTF node relative to its parent.
If this GLTF node has a skeleton, the index of the GLTFSkeleton in the GLTFState that describes the skeleton's properties. If -1, this node does not have a skeleton.
If this GLTF node has a skin, the index of the GLTFSkin in the GLTFState that describes the skin's properties. If -1, this node does not have a skin.
Transform3D xform = Transform3D(1, 0, 0, 0, 1, 0, 0, 0, 1, 0, 0, 0) 🔗
void set_xform(value: Transform3D)
Transform3D get_xform()
The transform of the GLTF node relative to its parent. This property is usually unused since the position, rotation, and scale properties are preferred.
Method Descriptions
Variant get_additional_data(extension_name: StringName) 🔗
Gets additional arbitrary data in this GLTFNode instance. This can be used to keep per-node state data in GLTFDocumentExtension classes, which is important because they are stateless.
The argument should be the GLTFDocumentExtension name (does not have to match the extension name in the GLTF file), and the return value can be anything you set. If nothing was set, the return value is null.
void set_additional_data(extension_name: StringName, additional_data: Variant) 🔗
Sets additional arbitrary data in this GLTFNode instance. This can be used to keep per-node state data in GLTFDocumentExtension classes, which is important because they are stateless.
The first argument should be the GLTFDocumentExtension name (does not have to match the extension name in the GLTF file), and the second argument can be anything you want.