Built upon [bevy_gltf_components](https://crates.io/crates/bevy_gltf_components) this crate adds the ability to define Blueprints/Prefabs for [Bevy](https://bevyengine.org/) inside gltf files and spawn them in Bevy.
Particularly useful when using [Blender](https://www.blender.org/) as an editor for the [Bevy](https://bevyengine.org/) game engine, combined with the [Blender plugin](https://github.com/kaosat-dev/Blender_bevy_components_workflow/tree/main/tools/gltf_auto_export) that does a lot of the work for you
library_folder: "advanced/models/library".into() // replace this with your blueprints library path , relative to the assets folder,
format: GltfFormat::GLB,// optional, use either format: GltfFormat::GLB, or format: GltfFormat::GLTF, or ..Default::default() if you want to keep the default .glb extension, this sets what extensions/ gltf files will be looked for by the library
// from Rapier/bevy_xpbd: this means the entity will also have a velocity component when inserted into the world
Velocity {
linvel: Vec3::new(vel_x, vel_y, vel_z),
angvel: Vec3::new(0.0, 0.0, 0.0),
},
))
```
### Overriding components specified inside the blueprint
any component you specify when spawning the Blueprint that is also specified **within** the Blueprint will **override** that component in the final spawned entity
HealthPowerUp(20)// if this is component is also present inside the "Health_Pickup" blueprint, that one will be replaced with this component during spawning
))
```
### BluePrintBundle
There is also a bundle for convenience , which just has
* a ```BlueprintName``` component
* a ```SpawnHere``` component
* a ```TransformBundle``` sub-bundle (so we know where to spawn)
[```BluePrintBundle```](./src/lib.rs#22)
## SystemSet
the ordering of systems is very important !
For example to replace your proxy components (stand-in components when you cannot/ do not want to use real components in the gltf file) with actual ones, which should happen **AFTER** the Blueprint based spawning,
so ```bevy_gltf_blueprints``` provides a **SystemSet** for that purpose:[```GltfBlueprintsSet```](./src/lib.rs#16)
```bevy_gltf_blueprints``` provides some lightweight helpers to deal with animations stored in gltf files
* an ```Animations``` component that gets inserted into spawned (root) entities that contains a hashmap of all animations contained inside that entity/gltf file .
(this is a copy of the ```named_animations``` inside Bevy's gltf structures )
* an ```AnimationPlayerLink``` component that gets inserted into spawned (root) entities, to make it easier to trigger/ control animations than it usually is inside Bevy + Gltf files
The workflow for animations is as follows:
* create a gltf file with animations (using Blender & co) as you would normally do
* inside Bevy, use the ```bevy_gltf_blueprints``` boilerplate (see sections above), no specific setup beyond that is required
* to control the animation of an entity, you need to query for entities that have both ```AnimationPlayerLink``` and ```Animations``` components (added by ```bevy_gltf_blueprints```) AND entities with the ```AnimationPlayer``` component
For example:
```rust no_run
// example of changing animation of entities based on proximity to the player, for "fox" entities (Tag component)
You have the option of using "material libraries" to share common textures/materials between blueprints, in order to avoid asset & memory bloat:
Ie for example without this option, 56 different blueprints using the same material with a large texture would lead to the material/texture being embeded
56 times !!
you can configure this with the settings:
```rust
material_library: true // defaults to false, enable this to enable automatic injection of materials from material library files
material_library_folder: "materials".into() //defaults to "materials" the folder to look for for the material files
```
> Important! you must take care of preloading your material librairy gltf files in advance, using for example ```bevy_asset_loader```since
```bevy_gltf_blueprints``` currently does NOT take care of loading those at runtime
see https://github.com/kaosat-dev/Blender_bevy_components_workflow/tree/main/examples/materials for how to set it up correctly
Generating optimised blueprints and material libraries can be automated using the latests version of the [Blender plugin](https://github.com/kaosat-dev/Blender_bevy_components_workflow/tree/main/tools/gltf_auto_export)
The main branch is compatible with the latest Bevy release, while the branch `bevy_main` tries to track the `main` branch of Bevy (PRs updating the tracked commit are welcome).