Asset Management System
Note: This documentation is for the old 0.9.0 version of A-Frame. Check out the documentation for the current 1.6.0 version
A-Frame has an asset management system that allows us to place our assets in one place and to preload and cache assets for better performance. Note the asset management system is purely for preloading assets. Assets that are set on entities at runtime could be done via direct URLs to the assets.
Games and rich 3D experiences traditionally preload their assets, such as models or textures, before rendering their scenes. This makes sure that assets aren’t missing visually, and this is beneficial for performance to ensure scenes don’t try to fetch assets while rendering.
We place assets within <a-assets>
, and we place <a-assets>
within
<a-scene>
. Assets include:
<a-asset-item>
- Miscellaneous assets such as 3D models and materials<audio>
- Sound files<img>
- Image textures<video>
- Video textures
The scene won’t render or initialize until the browser fetches (or errors out) all the assets or the asset system reaches the timeout.
Example
We can define our assets in <a-assets>
and point to those assets from our
entities using selectors:
<a-scene> |
The scene and its entities will wait for every asset (up until the timeout) before initializing and rendering.
Cross-Origin Resource Sharing (CORS)
Since A-Frame fetches assets using XHRs, browser security requires the browser to serve assets with cross-origin resource sharing (CORS) headers if the asset is on a different domain. Otherwise, we’d have to host assets on the same origin as the scene.
For other options, GitHub Pages serves everything with CORS headers. We recommend GitHub Pages as a simple deployment platform. Or another service that serves files with CORS headers set (such as Amazon S3).
Given that CORS headers are set, <a-assets>
will automatically set
crossorigin
attributes on media elements (e.g., <audio>
, <img>
,
<video>
) if it detects the resource is on a different domain.
Preloading Audio and Video
Audio and video assets will only block the scene if we set autoplay
or if we
set preload="auto"
:
<a-scene> |
Setting a Timeout
We can set a timeout that when reached, the scene will begin rendering and
entities will begin initializing regardless of whether all the assets have
loaded. The default timeout is 3 seconds. To set a different timeout, we just
pass in the number of milliseconds to the timeout
attribute:
If some assets are taking a long time to load, we may want to set an appropriate timeout such that the user isn’t waiting all day in case their network is slow.
<a-scene> |
Events
Since <a-assets>
and <a-asset-item>
are nodes in A-Frame, they will emit
the loaded
event when they say they have finished loading.
Event Name | Description |
---|---|
loaded | All assets were loaded, or assets timed out. |
timeout | Assets timed out. |
Load Progress on Individual Assets
<a-asset-item>
<a-asset-item>
invokes the three.js
FileLoader. We can use
<a-asset-item>
for any file type. When finished, it will set its data
member with the text response.
Event Name | Description |
---|---|
error | Fetch error. Event detail contains xhr with XMLHttpRequest instance. |
progress | Emitted on progress. Event detail contains xhr with XMLHttpRequest instance, loadedBytes , and totalBytes . |
loaded | Asset pointed to by src was loaded. |
<img>
Images are a standard DOM element so we can listen to the standard DOM events.
Event Name | Description |
---|---|
load | Image was loaded. |
HTMLMediaElement
Audio and video assets are HTMLMediaElement
s. The browser triggers
particular events on these elements; noted here for convenience:
Event Name | Description |
---|---|
error | There was an error loading the asset. |
loadeddata | Progress. |
progress | Progress. |
A-Frame uses these progress events, comparing how much time the browser buffered with the duration of the asset, to detect when the asset becomes loaded.
Specifying Response Type
Content fetched by <a-asset-item>
will be returned as plain text. If we want
to use a different response type such as arraybuffer
, use <a-asset-item>
‘s
response-type
attribute:
<a-asset-item response-type="arraybuffer" src="model.gltf"></a-asset-item> |
How It Works Internally
Every element in A-Frame inherits from <a-node>
, the AFRAME.ANode
prototype. ANode
controls load and initialization order. For an element to
initialize (whether it be <a-assets>
, <a-asset-item>
, <a-scene>
, or
<a-entity>
), its children must have already initialized. Nodes initialize
bottom up.
<a-assets>
is an ANode
, and it waits for its children to load before
it loads. And since <a-assets>
is a child of <a-scene>
, the scene
effectively must wait for all assets to load. We also added extra load logic to
<a-entity>
such that they explicitly wait for <a-assets>
to load if we have
defined <a-assets>
.
<a-asset-item>
uses THREE.FileLoader
to fetch files. three.js stores the
returned data in THREE.Cache
. Every three.js loader inherits from
THREE.FileLoader
, whether they are a ColladaLoader
, OBJLoader
,
ImageLoader
, etc. And they all have access and are aware of the central
THREE.Cache
. If A-Frame already fetched a file, A-Frame won’t try to fetch it
again.
Thus, since we block entity initialization on assets, by the time entities
load, all assets will have been already fetched. As long as we define
<a-asset-item>
s, and the entity is fetching files using some form
THREE.FileLoader
, then caching will automatically work.
Accessing the FileLoader
and Cache
To access the three.js FileLoader
if we want to listen more closely:
console.log(document.querySelector('a-assets').fileLoader); |
To access the cache that stores XHR responses:
console.log(THREE.Cache); |