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# Objective Add basic bubbling to observers, modeled off `bevy_eventlistener`. ## Solution - Introduce a new `Traversal` trait for components which point to other entities. - Provide a default `TraverseNone: Traversal` component which cannot be constructed. - Implement `Traversal` for `Parent`. - The `Event` trait now has an associated `Traversal` which defaults to `TraverseNone`. - Added a field `bubbling: &mut bool` to `Trigger` which can be used to instruct the runner to bubble the event to the entity specified by the event's traversal type. - Added an associated constant `SHOULD_BUBBLE` to `Event` which configures the default bubbling state. - Added logic to wire this all up correctly. Introducing the new associated information directly on `Event` (instead of a new `BubblingEvent` trait) lets us dispatch both bubbling and non-bubbling events through the same api. ## Testing I have added several unit tests to cover the common bugs I identified during development. Running the unit tests should be enough to validate correctness. The changes effect unsafe portions of the code, but should not change any of the safety assertions. ## Changelog Observers can now bubble up the entity hierarchy! To create a bubbling event, change your `Derive(Event)` to something like the following: ```rust #[derive(Component)] struct MyEvent; impl Event for MyEvent { type Traverse = Parent; // This event will propagate up from child to parent. const AUTO_PROPAGATE: bool = true; // This event will propagate by default. } ``` You can dispatch a bubbling event using the normal `world.trigger_targets(MyEvent, entity)`. Halting an event mid-bubble can be done using `trigger.propagate(false)`. Events with `AUTO_PROPAGATE = false` will not propagate by default, but you can enable it using `trigger.propagate(true)`. If there are multiple observers attached to a target, they will all be triggered by bubbling. They all share a bubbling state, which can be accessed mutably using `trigger.propagation_mut()` (`trigger.propagate` is just sugar for this). You can choose to implement `Traversal` for your own types, if you want to bubble along a different structure than provided by `bevy_hierarchy`. Implementers must be careful never to produce loops, because this will cause bevy to hang. ## Migration Guide + Manual implementations of `Event` should add associated type `Traverse = TraverseNone` and associated constant `AUTO_PROPAGATE = false`; + `Trigger::new` has new field `propagation: &mut Propagation` which provides the bubbling state. + `ObserverRunner` now takes the same `&mut Propagation` as a final parameter. --------- Co-authored-by: Alice Cecile <alice.i.cecile@gmail.com> Co-authored-by: Torstein Grindvik <52322338+torsteingrindvik@users.noreply.github.com> Co-authored-by: Carter Anderson <mcanders1@gmail.com> |
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benches | ||
Cargo.toml | ||
README.md |
Bevy Benchmarks
This is a crate with a collection of benchmarks for Bevy, separate from the rest of the Bevy crates.
Running the benchmarks
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Setup everything you need for Bevy with the setup guide.
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Move into the
benches
directory (where this README is located).bevy $ cd benches
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Run the benchmarks with cargo (This will take a while)
bevy/benches $ cargo bench
If you'd like to only compile the benchmarks (without running them), you can do that like this:
bevy/benches $ cargo bench --no-run
Criterion
Bevy's benchmarks use Criterion. If you want to learn more about using Criterion for comparing performance against a baseline or generating detailed reports, you can read the Criterion.rs documentation.