An ergonomic physics API for 2d and 3d bevy games. (powered by rapier)
- Use bevy types, resources and components when possible (
Vec3
,Quat
,Transform
,Events
, etc.) - Provide a single API that works for both 2d and 3d.
- Data oriented. Using this library should feel like its a part of bevy.
- Avoid asking the user to lookup in resources via handles. Data should be accessible and modifiable directly in components.
- Hide the actual physics engine. This is an implementation detail the user shouldn't have to worry about.
- But, allow advanced users to access the underlying rapier resources, so the user is never blocked by a missing element in the API of heron.
use bevy::prelude::*;
use heron::prelude::*;
fn main() {
App::new()
.add_plugins(DefaultPlugins)
.add_plugin(PhysicsPlugin::default()) // Add the plugin
.insert_resource(Gravity::from(Vec3::new(0.0, -9.81, 0.0))) // Optionally define gravity
.add_startup_system(spawn)
.run();
}
fn spawn(mut commands: Commands) {
commands
// Spawn any bundle of your choice. Only make sure there is a `GlobalTransform`
.spawn_bundle(SpriteBundle::default())
// Make it a rigid body
.insert(RigidBody::Dynamic)
// Attach a collision shape
.insert(CollisionShape::Sphere { radius: 10.0 })
// Optionally add other useful components...
.insert(Velocity::from_linear(Vec3::X * 2.0))
.insert(Acceleration::from_linear(Vec3::X * 1.0))
.insert(PhysicMaterial { friction: 1.0, density: 10.0, ..Default::default() })
.insert(RotationConstraints::lock())
.insert(CollisionLayers::none().with_group(Layer::Player).with_mask(Layer::World));
}
// Define your physics layers
#[derive(PhysicsLayer)]
enum Layer {
World,
Player,
Enemies,
}
The minimum supported rust version is currently: 1.60
It may be increased to a newer stable version in a minor release. (but only if needed)
It will be increased to the latest stable version in a major release. (even if not needed)
bevy | heron |
---|---|
0.7 | 3 |
0.6 | 1 - 2 |
0.5 | 0.4 - 0.13 |
0.4 | 0.1 - 0.3 |
bevy_rapier plugin is an excellent option and should definitely be considered.
Here are some key differences between the two projects:
heron
tries to provide a smaller, simpler API that is easier to use.bevy_rapier
is more complete and powerful, but a bit more complex.heron
is focused on games only.bevy_rapier
targets all kind of physics simulation applications (incl. games).bevy_rapier
is actively maintained by dimforge, the developer ofrapier
.heron
is also active, but cannot evolve as fast asbevy_rapier
can.
heron
is probably more suited for simple games and game-jams, where the ease of learn/use is especially valuable and where the lack of advanced feature isn't problematic.
bevy_rapier
is probably more suited for bigger/complex games and other types of physics simulations, where it may be better to learn/use a more exhaustive/complex API.
You can open issues/discussions here or you can discuss with me (Jomag#2675
) in the bevy discord