Commit Graph

164 Commits

Author SHA1 Message Date
Bevy Auto Releaser a74009b22e chore: Release 2026-06-21 16:55:28 +00:00
Uche Okwo b05ba907e7 Silence CommandQueue warning-on-drop for delayed commands (#24347)
# Objective

Fixes #24346 

## Solution

Allows systems to opt-out of sending the warning on drop by using a new
`CommandQueue::silent` constructor.

## Testing

Used the example from the issue and verified that the problem no longer
occurs.

---------

Co-authored-by: Richard Braakman <rebraakman@gmail.com>
Co-authored-by: Kevin Chen <chen.kevin.f@gmail.com>
Co-authored-by: Alice Cecile <alice.i.cecile@gmail.com>
2026-06-02 20:38:28 +00:00
DavidCrossman 7c77ecd576 Fix documentation typos (#24446)
# Objective

Fix typos and other small issues in the documentation. I can drop the
changes to `bevy_reflect`'s and `bevy_anti_alias`'s crate descriptions
if it's a problem.
2026-06-02 00:52:42 +00:00
Runi-c 1fdf4267ae Add a DelayedCommands helper to support arbitrary delayed commands (#23090)
# Objective

- A generalized mechanism for "doing something later" is desirable for
many games, especially when it comes to gameplay logic and VFX.
- Fixes https://github.com/bevyengine/bevy/issues/15129
- Closes #20155

## Solution

- Build off the work in
https://github.com/bevyengine/bevy/pull/20155#issuecomment-3702483127,
especially @laundmo's comment.
- Add a `DelayedCommands` helper obtainable via `commands.delayed()`
that owns `CommandQueue`s and hands out new `Commands` bound to them.
- When the `DelayedCommands` helper is dropped, push spawn commands onto
the host `Commands` to spawn the queues as `DelayedCommandQueue`
entities.
- The entities are ticked by a new system added by `TimePlugin`. When
the timer fires, the queue is submitted onto that system's `Commands`.

## Testing

- Added a new test in `bevy_time` and it seems to work.
- I'm not very familiar with doing hacky things like using `Drop` like
this and would therefore appreciate careful review and guidance if
changes are requested.

---

## Showcase

```rust
fn my_cool_system(mut commands: Commands) {
    // fairly unobtrusive one-line delayed spawn
    commands.delayed().secs(0.1).spawn(DummyComponent);

    // the DelayedCommands can be stored to reuse more tersely
    let mut delayed = commands.delayed();
    // allocation happens immediately so you can even queue
    // further operations on entities that aren't spawned yet
    let entity = delayed.secs(0.5).spawn_empty().id();
    delayed.secs(0.7).entity(entity).insert(DummyComponent);

    // `delayed.secs` and `delayed.duration` both simply return a
    // `Commands` rebound to the stored `CommandQueue`, so you can additionally
    // just store that and reuse it to queue multiple commands with the same delay
    let mut in_1_sec = delayed.duration(Duration::from_secs_f32(1.0));
    in_1_sec.spawn(DummyComponent);
    in_1_sec.spawn(DummyComponent);
    in_1_sec.spawn(DummyComponent);
}
```

---------

Co-authored-by: Alice Cecile <alice.i.cecile@gmail.com>
2026-02-24 23:29:32 +00:00
Felipe Carvajal Brown dbd7c50524 Panic fail-safe in real.rs during non-monotonic clock updates (#23073)
# Objective

Replaces the panicking subtraction in `update_with_instant` with a
saturating alternative. Although `Instant` is generally monotonic,
system-level clock jitter or manual mocking in tests may occasionally
cause a backward time jump. The use of `saturating_duration_since`
ensures that these edge cases produce a safe `Duration::ZERO` instead of
a panic.

## Solution

In `bevy_time/src/real.rs`, changed the delta calculation to
`instant.saturating_duration_since(last_update)` instead of `instant -
last_update`.

## Testing

- Used `cargo test -p bevy_time` to ensure that all existing unit tests
are still passing.

- Verified that all crate doctests compile and execute successfully.

- Manually tested that passing a past `Instant` is no longer a panic.

---
2026-02-24 01:12:26 +00:00
Guillaume Gomez 28fd2cb3c0 Enable the rustdoc "--generate-macro-expansion" feature (#23075)
You can see this feature in action in the compiler docs like
[here](https://doc.rust-lang.org/nightly/nightly-rustc/src/rustc_ast_lowering/errors.rs.html#323)
or
[here](https://doc.rust-lang.org/nightly/nightly-rustc/src/rustc_ast_lowering/format.rs.html#89).
2026-02-21 00:24:25 +00:00
github-actions[bot] d772c32071 Bump Version after Release (#22498)
Bump version after release
This PR has been auto-generated

---------

Co-authored-by: Bevy Auto Releaser <41898282+github-actions[bot]@users.noreply.github.com>
Co-authored-by: François Mockers <francois.mockers@vleue.com>
2026-01-14 18:21:56 +00:00
GitGhillie 8abfa237bd Add toggle function for virtual time (#22258)
# Objective

I was looking at the diff of
https://github.com/bevyengine/bevy/pull/22207 and noticed there is a bit
of code duplication.

## Solution

Move the toggle functionality into a function, update the examples.

## Testing

- Tested by running the examples and toggling time.
2025-12-30 00:55:34 +00:00
Rajveer Singh Bharadwaj a647a47371 Add a new almost_finish method for Timer with immediate first tick action (#21983)
# Objective

Resolves #21860

This new method would tick the timer by `duration - 1 ns` leaving a very
short waiting time for the first tick initiated by the user allowing
immediate action.

## Solution

The `almost_finish` method updates the timer by ticking it with `1ns`
remaining.

## Testing

Tests have been added in `almost_finished_repeating`.
2025-12-10 19:34:47 +00:00
Andrew Hickman ffd0121486 Allow setting time overstep in tests (#21738)
# Objective

There is currently no way to construct a `Time<Fixed>` with a non-zero
overstep. The only way to test systems which use the overstep is to
advance the virtual time and run the `RunFixedMainLoop` schedule, which
is cumbersome.

## Solution

Exposes the `accumulate_overstep` method as a counterpart of
`discard_overstep`.

## Testing

This method is covered by existing tests.
2025-11-04 17:17:07 +00:00
re0312 2219069c72 remove deprecated APIs in 0.17 (#21723)
# Objective

- removes all APIs that were marked as deprecated in 0.17,
2025-11-03 18:51:23 +00:00
Jan Hohenheim a223c1af59 Make it easier to write tests involving fixed timesteps (#21705)
# Objective

- For running tests involving fixed timesteps, I want to advance the
time so that every call to `app.update()` triggers a fixed update
- Right now, the most precise way to do that to my knowledge is
  ```rust

app.insert_resource(TimeUpdateStrategy::ManualDuration(Time::<Fixed>::default().timestep()))
  ```
- But this is a bit clumsy, and also doesn't work when the fixed
timestep isn't at the default. Some more boilerplate would be needed in
the test setup to deal with that:
  ```rust

app.insert_resource(TimeUpdateStrategy::ManualDuration(app.world().resource::<Time<Fixed>>().timestep()))
  ```
- Good luck adapting this for the case when the fixed timestep ever
changes at runtime lol

## Solution

- Create an alternative strategy called
`TimeUpdateStrategy::FixedTimesteps` that advances time by the fixed
timestep automatically:
  ```rust
  // Now `app.update()` will run the fixed loop exactly once!
  app.insert_resource(TimeUpdateStrategy::FixedTimesteps(1))
  ```

## Testing

- None, as this is trivial
2025-11-01 18:56:29 +00:00
Kevin Reid c179b27a83 Replace feature(doc_auto_cfg) with feature(doc_cfg). (#21304)
## Objective

Fixes #21303 (but does not add any testing that similar issues will not
recur).

## Solution

Globally replace `feature(doc_auto_cfg)` with `feature(doc_cfg)`.

## Testing

Tested that `RUSTDOCFLAGS=--cfg=docsrs cargo +nightly doc -p
bevy_platform` succeeds. This is not a test of all documentation builds,
but I do not know of a way to do that until bevy’s dependencies catch
up.
2025-09-30 21:20:23 +00:00
Dustin Brown 9fc95e3f01 Make run_fixed_main_schedule public (#21277)
Those wanting to customize `TimePlugin` cannot do so because
`run_fixed_main_schedule` is not public, so make it public.

## Testing

1. Copy/paste `TimePlugin` to consumer application
2. build now succeeds where previously it failed
2025-09-29 16:22:10 +00:00
James Liu ca506d73ce Bump crate versions to 0.18.0-dev (#21001)
# Objective
The 0.17 release candidate process has been started. We should be able
to start merging PRs scheduled for 0.18 now.

## Solution
Update the crate versions all to `0.18.0-dev`
2025-09-22 16:53:58 +00:00
Carter Anderson 4d74baf1ae BufferedEvent -> Message Rename (#20953)
This renames the concept of `BufferedEvent` to `Message`, and updates
our APIs, comments, and documentation to refer to these types as
"messages" instead of "events". It also removes/updates anything that
considers messages to be "observable", "listenable", or "triggerable".

This is a followup to https://github.com/bevyengine/bevy/pull/20731,
which omitted the `BufferedEvent -> Message` rename for brevity.

See that post for rationale.
2025-09-10 21:04:15 +00:00
Carter Anderson 40b6940356 Remove Manual Type Registrations (#20435)
# Objective

Thanks to #15030, we no longer need manual type registrations. This
should only be merged after #15030.

## Solution

Remove all manual (non generic) type registrations.
2025-08-06 20:13:56 +00:00
Lenchog 8e14d99fb9 Added finish method for timer (#20154)
# Objective

- Add an easy way to finish a Timer

## Solution

- Tick the timer by the remaining time

## Testing

I have not tested, but it should work
---

## Showcase

```rust
let mut timer = Timer::from_seconds(1.5, TimerMode::Once);
timer.finish();
assert_eq!(timer.remaining(), Duration::from_secs(0))
```

---------

Co-authored-by: Jan Hohenheim <jan@hohenheim.ch>
Co-authored-by: Alice Cecile <alice.i.cecile@gmail.com>
2025-07-15 22:57:57 +00:00
onbjerg 554bc7b0d4 Document repeating timer tick behavior (#20137)
# Objective

Closes #20132 

## Solution

I found docs describing the behavior elsewhere in Bevy, which I pulled
in to the main `Timer` docs:
https://github.com/bevyengine/bevy/blob/b01de70bdd927bcc9cdc5d0b8c677f480e54f4b1/crates/bevy_time/src/common_conditions.rs#L27-L35

I also restructured the docs a little bit.
2025-07-14 22:31:31 +00:00
Tim 4e9e78c31e Split BufferedEvent from Event (#20101)
# Objective

> I think we should axe the shared `Event` trait entirely
It doesn't serve any functional purpose, and I don't think it's useful
pedagogically
@alice-i-cecile on discord

## Solution

- Remove `Event` as a supertrait of `BufferedEvent`
- Remove any `Event` derives that were made unnecessary
- Update release notes

---------

Co-authored-by: SpecificProtagonist <vincentjunge@posteo.net>
2025-07-14 21:31:48 +00:00
AlephCubed 3aed85a88b Rename send_event and similar methods to write_event (#20017)
Fixes: #18963
Follows up on: #17977
Adopts: #18966

In 0.16, `EventWriter::send` was renamed to `EventWriter::write`, but
many methods were missed (sorry about that). This completes that
refactor by renaming all `send` methods and internals.

| Old | New |

|-------------------------------------|--------------------------------------|
| `World::send_event` | `World::write_event` |
| `World::send_event_default` | `World::write_event_default` |
| `World::send_event_batch` | `World::write_event_batch` |
| `DeferredWorld::send_event` | `DeferredWorld::write_event` |
| `DeferredWorld::send_event_default` |
`DeferredWorld::write_event_default` |
| `DeferredWorld::send_event_batch` | `DeferredWorld::write_event_batch`
|
| `Commands::send_event` | `Commmands::write_event` |
| `Events::send` | `Events::write` |
| `Events::send_default` | `Events::write_default` |
| `Events::send_batch` | `Events::write_batch` |
| `RemovedComponentEvents::send` | `RemovedComponentEvents::write` |
| `command::send_event` | `commmand::write_event` |
| `SendBatchIds` | `WriteBatchIds` |

---------

Co-authored-by: shwwwa <shwwwa.dev@gmail.com>
2025-07-07 22:05:16 +00:00
github-actions[bot] a466084167 Bump Version after Release (#19774)
Bump version after release
This PR has been auto-generated

Fixes #19766

---------

Co-authored-by: Bevy Auto Releaser <41898282+github-actions[bot]@users.noreply.github.com>
Co-authored-by: François Mockers <francois.mockers@vleue.com>
Co-authored-by: François Mockers <mockersf@gmail.com>
2025-06-22 23:06:43 +00:00
Joona Aalto 38c3423693 Event Split: Event, EntityEvent, and BufferedEvent (#19647)
# Objective

Closes #19564.

The current `Event` trait looks like this:

```rust
pub trait Event: Send + Sync + 'static {
    type Traversal: Traversal<Self>;
    const AUTO_PROPAGATE: bool = false;
    
    fn register_component_id(world: &mut World) -> ComponentId { ... }
    fn component_id(world: &World) -> Option<ComponentId> { ... }
}
```

The `Event` trait is used by both buffered events
(`EventReader`/`EventWriter`) and observer events. If they are observer
events, they can optionally be targeted at specific `Entity`s or
`ComponentId`s, and can even be propagated to other entities.

However, there has long been a desire to split the trait semantically
for a variety of reasons, see #14843, #14272, and #16031 for discussion.
Some reasons include:

- It's very uncommon to use a single event type as both a buffered event
and targeted observer event. They are used differently and tend to have
distinct semantics.
- A common footgun is using buffered events with observers or event
readers with observer events, as there is no type-level error that
prevents this kind of misuse.
- #19440 made `Trigger::target` return an `Option<Entity>`. This
*seriously* hurts ergonomics for the general case of entity observers,
as you need to `.unwrap()` each time. If we could statically determine
whether the event is expected to have an entity target, this would be
unnecessary.

There's really two main ways that we can categorize events: push vs.
pull (i.e. "observer event" vs. "buffered event") and global vs.
targeted:

|              | Push            | Pull                        |
| ------------ | --------------- | --------------------------- |
| **Global**   | Global observer | `EventReader`/`EventWriter` |
| **Targeted** | Entity observer | -                           |

There are many ways to approach this, each with their tradeoffs.
Ultimately, we kind of want to split events both ways:

- A type-level distinction between observer events and buffered events,
to prevent people from using the wrong kind of event in APIs
- A statically designated entity target for observer events to avoid
accidentally using untargeted events for targeted APIs

This PR achieves these goals by splitting event traits into `Event`,
`EntityEvent`, and `BufferedEvent`, with `Event` being the shared trait
implemented by all events.

## `Event`, `EntityEvent`, and `BufferedEvent`

`Event` is now a very simple trait shared by all events.

```rust
pub trait Event: Send + Sync + 'static {
    // Required for observer APIs
    fn register_component_id(world: &mut World) -> ComponentId { ... }
    fn component_id(world: &World) -> Option<ComponentId> { ... }
}
```

You can call `trigger` for *any* event, and use a global observer for
listening to the event.

```rust
#[derive(Event)]
struct Speak {
    message: String,
}

// ...

app.add_observer(|trigger: On<Speak>| {
    println!("{}", trigger.message);
});

// ...

commands.trigger(Speak {
    message: "Y'all like these reworked events?".to_string(),
});
```

To allow an event to be targeted at entities and even propagated
further, you can additionally implement the `EntityEvent` trait:

```rust
pub trait EntityEvent: Event {
    type Traversal: Traversal<Self>;
    const AUTO_PROPAGATE: bool = false;
}
```

This lets you call `trigger_targets`, and to use targeted observer APIs
like `EntityCommands::observe`:

```rust
#[derive(Event, EntityEvent)]
#[entity_event(traversal = &'static ChildOf, auto_propagate)]
struct Damage {
    amount: f32,
}

// ...

let enemy = commands.spawn((Enemy, Health(100.0))).id();

// Spawn some armor as a child of the enemy entity.
// When the armor takes damage, it will bubble the event up to the enemy.
let armor_piece = commands
    .spawn((ArmorPiece, Health(25.0), ChildOf(enemy)))
    .observe(|trigger: On<Damage>, mut query: Query<&mut Health>| {
        // Note: `On::target` only exists because this is an `EntityEvent`.
        let mut health = query.get(trigger.target()).unwrap();
        health.0 -= trigger.amount();
    });

commands.trigger_targets(Damage { amount: 10.0 }, armor_piece);
```

> [!NOTE]
> You *can* still also trigger an `EntityEvent` without targets using
`trigger`. We probably *could* make this an either-or thing, but I'm not
sure that's actually desirable.

To allow an event to be used with the buffered API, you can implement
`BufferedEvent`:

```rust
pub trait BufferedEvent: Event {}
```

The event can then be used with `EventReader`/`EventWriter`:

```rust
#[derive(Event, BufferedEvent)]
struct Message(String);

fn write_hello(mut writer: EventWriter<Message>) {
    writer.write(Message("I hope these examples are alright".to_string()));
}

fn read_messages(mut reader: EventReader<Message>) {
    // Process all buffered events of type `Message`.
    for Message(message) in reader.read() {
        println!("{message}");
    }
}
```

In summary:

- Need a basic event you can trigger and observe? Derive `Event`!
- Need the event to be targeted at an entity? Derive `EntityEvent`!
- Need the event to be buffered and support the
`EventReader`/`EventWriter` API? Derive `BufferedEvent`!

## Alternatives

I'll now cover some of the alternative approaches I have considered and
briefly explored. I made this section collapsible since it ended up
being quite long :P

<details>

<summary>Expand this to see alternatives</summary>

### 1. Unified `Event` Trait

One option is not to have *three* separate traits (`Event`,
`EntityEvent`, `BufferedEvent`), and to instead just use associated
constants on `Event` to determine whether an event supports targeting
and buffering or not:

```rust
pub trait Event: Send + Sync + 'static {
    type Traversal: Traversal<Self>;
    const AUTO_PROPAGATE: bool = false;
    const TARGETED: bool = false;
    const BUFFERED: bool = false;
    
    fn register_component_id(world: &mut World) -> ComponentId { ... }
    fn component_id(world: &World) -> Option<ComponentId> { ... }
}
```

Methods can then use bounds like `where E: Event<TARGETED = true>` or
`where E: Event<BUFFERED = true>` to limit APIs to specific kinds of
events.

This would keep everything under one `Event` trait, but I don't think
it's necessarily a good idea. It makes APIs harder to read, and docs
can't easily refer to specific types of events. You can also create
weird invariants: what if you specify `TARGETED = false`, but have
`Traversal` and/or `AUTO_PROPAGATE` enabled?

### 2. `Event` and `Trigger`

Another option is to only split the traits between buffered events and
observer events, since that is the main thing people have been asking
for, and they have the largest API difference.

If we did this, I think we would need to make the terms *clearly*
separate. We can't really use `Event` and `BufferedEvent` as the names,
since it would be strange that `BufferedEvent` doesn't implement
`Event`. Something like `ObserverEvent` and `BufferedEvent` could work,
but it'd be more verbose.

For this approach, I would instead keep `Event` for the current
`EventReader`/`EventWriter` API, and call the observer event a
`Trigger`, since the "trigger" terminology is already used in the
observer context within Bevy (both as a noun and a verb). This is also
what a long [bikeshed on
Discord](https://discord.com/channels/691052431525675048/749335865876021248/1298057661878898791)
seemed to land on at the end of last year.

```rust
// For `EventReader`/`EventWriter`
pub trait Event: Send + Sync + 'static {}

// For observers
pub trait Trigger: Send + Sync + 'static {
    type Traversal: Traversal<Self>;
    const AUTO_PROPAGATE: bool = false;
    const TARGETED: bool = false;
    
    fn register_component_id(world: &mut World) -> ComponentId { ... }
    fn component_id(world: &World) -> Option<ComponentId> { ... }
}
```

The problem is that "event" is just a really good term for something
that "happens". Observers are rapidly becoming the more prominent API,
so it'd be weird to give them the `Trigger` name and leave the good
`Event` name for the less common API.

So, even though a split like this seems neat on the surface, I think it
ultimately wouldn't really work. We want to keep the `Event` name for
observer events, and there is no good alternative for the buffered
variant. (`Message` was suggested, but saying stuff like "sends a
collision message" is weird.)

### 3. `GlobalEvent` + `TargetedEvent`

What if instead of focusing on the buffered vs. observed split, we
*only* make a distinction between global and targeted events?

```rust
// A shared event trait to allow global observers to work
pub trait Event: Send + Sync + 'static {
    fn register_component_id(world: &mut World) -> ComponentId { ... }
    fn component_id(world: &World) -> Option<ComponentId> { ... }
}

// For buffered events and non-targeted observer events
pub trait GlobalEvent: Event {}

// For targeted observer events
pub trait TargetedEvent: Event {
    type Traversal: Traversal<Self>;
    const AUTO_PROPAGATE: bool = false;
}
```

This is actually the first approach I implemented, and it has the neat
characteristic that you can only use non-targeted APIs like `trigger`
with a `GlobalEvent` and targeted APIs like `trigger_targets` with a
`TargetedEvent`. You have full control over whether the entity should or
should not have a target, as they are fully distinct at the type-level.

However, there's a few problems:

- There is no type-level indication of whether a `GlobalEvent` supports
buffered events or just non-targeted observer events
- An `Event` on its own does literally nothing, it's just a shared trait
required to make global observers accept both non-targeted and targeted
events
- If an event is both a `GlobalEvent` and `TargetedEvent`, global
observers again have ambiguity on whether an event has a target or not,
undermining some of the benefits
- The names are not ideal

### 4. `Event` and `EntityEvent`

We can fix some of the problems of Alternative 3 by accepting that
targeted events can also be used in non-targeted contexts, and simply
having the `Event` and `EntityEvent` traits:

```rust
// For buffered events and non-targeted observer events
pub trait Event: Send + Sync + 'static {
    fn register_component_id(world: &mut World) -> ComponentId { ... }
    fn component_id(world: &World) -> Option<ComponentId> { ... }
}

// For targeted observer events
pub trait EntityEvent: Event {
    type Traversal: Traversal<Self>;
    const AUTO_PROPAGATE: bool = false;
}
```

This is essentially identical to this PR, just without a dedicated
`BufferedEvent`. The remaining major "problem" is that there is still
zero type-level indication of whether an `Event` event *actually*
supports the buffered API. This leads us to the solution proposed in
this PR, using `Event`, `EntityEvent`, and `BufferedEvent`.

</details>

## Conclusion

The `Event` + `EntityEvent` + `BufferedEvent` split proposed in this PR
aims to solve all the common problems with Bevy's current event model
while keeping the "weirdness" factor minimal. It splits in terms of both
the push vs. pull *and* global vs. targeted aspects, while maintaining a
shared concept for an "event".

### Why I Like This

- The term "event" remains as a single concept for all the different
kinds of events in Bevy.
- Despite all event types being "events", they use fundamentally
different APIs. Instead of assuming that you can use an event type with
any pattern (when only one is typically supported), you explicitly opt
in to each one with dedicated traits.
- Using separate traits for each type of event helps with documentation
and clearer function signatures.
- I can safely make assumptions on expected usage.
- If I see that an event is an `EntityEvent`, I can assume that I can
use `observe` on it and get targeted events.
- If I see that an event is a `BufferedEvent`, I can assume that I can
use `EventReader` to read events.
- If I see both `EntityEvent` and `BufferedEvent`, I can assume that
both APIs are supported.

In summary: This allows for a unified concept for events, while limiting
the different ways to use them with opt-in traits. No more guess-work
involved when using APIs.

### Problems?

- Because `BufferedEvent` implements `Event` (for more consistent
semantics etc.), you can still use all buffered events for non-targeted
observers. I think this is fine/good. The important part is that if you
see that an event implements `BufferedEvent`, you know that the
`EventReader`/`EventWriter` API should be supported. Whether it *also*
supports other APIs is secondary.
- I currently only support `trigger_targets` for an `EntityEvent`.
However, you can technically target components too, without targeting
any entities. I consider that such a niche and advanced use case that
it's not a huge problem to only support it for `EntityEvent`s, but we
could also split `trigger_targets` into `trigger_entities` and
`trigger_components` if we wanted to (or implement components as
entities :P).
- You can still trigger an `EntityEvent` *without* targets. I consider
this correct, since `Event` implements the non-targeted behavior, and
it'd be weird if implementing another trait *removed* behavior. However,
it does mean that global observers for entity events can technically
return `Entity::PLACEHOLDER` again (since I got rid of the
`Option<Entity>` added in #19440 for ergonomics). I think that's enough
of an edge case that it's not a huge problem, but it is worth keeping in
mind.
- ~~Deriving both `EntityEvent` and `BufferedEvent` for the same type
currently duplicates the `Event` implementation, so you instead need to
manually implement one of them.~~ Changed to always requiring `Event` to
be derived.

## Related Work

There are plans to implement multi-event support for observers,
especially for UI contexts. [Cart's
example](https://github.com/bevyengine/bevy/issues/14649#issuecomment-2960402508)
API looked like this:

```rust
// Truncated for brevity
trigger: Trigger<(
    OnAdd<Pressed>,
    OnRemove<Pressed>,
    OnAdd<InteractionDisabled>,
    OnRemove<InteractionDisabled>,
    OnInsert<Hovered>,
)>,
```

I believe this shouldn't be in conflict with this PR. If anything, this
PR might *help* achieve the multi-event pattern for entity observers
with fewer footguns: by statically enforcing that all of these events
are `EntityEvent`s in the context of `EntityCommands::observe`, we can
avoid misuse or weird cases where *some* events inside the trigger are
targeted while others are not.
2025-06-15 16:46:34 +00:00
Carter Anderson 7e9d6d852b bevyengine.org -> bevy.org (#19503)
We have acquired [bevy.org](https://bevy.org) and the migration has
finished! Meaning we can now update all of the references in this repo.
2025-06-05 23:09:28 +00:00
Chris Berger a8376e982e Rename Timer::finished and Timer::paused to is_finished and is_paused (#19386)
# Objective
Renames `Timer::finished` and `Timer::paused` to `Timer::is_finished`
and `Timer::is_paused` to align the public APIs for `Time`, `Timer`, and
`Stopwatch`.

Fixes #19110
2025-05-27 22:24:18 +00:00
Joona Aalto 7b1c9f192e Adopt consistent FooSystems naming convention for system sets (#18900)
# Objective

Fixes a part of #14274.

Bevy has an incredibly inconsistent naming convention for its system
sets, both internally and across the ecosystem.

<img alt="System sets in Bevy"
src="https://github.com/user-attachments/assets/d16e2027-793f-4ba4-9cc9-e780b14a5a1b"
width="450" />

*Names of public system set types in Bevy*

Most Bevy types use a naming of `FooSystem` or just `Foo`, but there are
also a few `FooSystems` and `FooSet` types. In ecosystem crates on the
other hand, `FooSet` is perhaps the most commonly used name in general.
Conventions being so wildly inconsistent can make it harder for users to
pick names for their own types, to search for system sets on docs.rs, or
to even discern which types *are* system sets.

To reign in the inconsistency a bit and help unify the ecosystem, it
would be good to establish a common recommended naming convention for
system sets in Bevy itself, similar to how plugins are commonly suffixed
with `Plugin` (ex: `TimePlugin`). By adopting a consistent naming
convention in first-party Bevy, we can softly nudge ecosystem crates to
follow suit (for types where it makes sense to do so).

Choosing a naming convention is also relevant now, as the [`bevy_cli`
recently adopted
lints](https://github.com/TheBevyFlock/bevy_cli/pull/345) to enforce
naming for plugins and system sets, and the recommended naming used for
system sets is still a bit open.

## Which Name To Use?

Now the contentious part: what naming convention should we actually
adopt?

This was discussed on the Bevy Discord at the end of last year, starting
[here](<https://discord.com/channels/691052431525675048/692572690833473578/1310659954683936789>).
`FooSet` and `FooSystems` were the clear favorites, with `FooSet` very
narrowly winning an unofficial poll. However, it seems to me like the
consensus was broadly moving towards `FooSystems` at the end and after
the poll, with Cart
([source](https://discord.com/channels/691052431525675048/692572690833473578/1311140204974706708))
and later Alice
([source](https://discord.com/channels/691052431525675048/692572690833473578/1311092530732859533))
and also me being in favor of it.

Let's do a quick pros and cons list! Of course these are just what I
thought of, so take it with a grain of salt.

`FooSet`:

- Pro: Nice and short!
- Pro: Used by many ecosystem crates.
- Pro: The `Set` suffix comes directly from the trait name `SystemSet`.
- Pro: Pairs nicely with existing APIs like `in_set` and
`configure_sets`.
- Con: `Set` by itself doesn't actually indicate that it's related to
systems *at all*, apart from the implemented trait. A set of what?
- Con: Is `FooSet` a set of `Foo`s or a system set related to `Foo`? Ex:
`ContactSet`, `MeshSet`, `EnemySet`...

`FooSystems`:

- Pro: Very clearly indicates that the type represents a collection of
systems. The actual core concept, system(s), is in the name.
- Pro: Parallels nicely with `FooPlugins` for plugin groups.
- Pro: Low risk of conflicts with other names or misunderstandings about
what the type is.
- Pro: In most cases, reads *very* nicely and clearly. Ex:
`PhysicsSystems` and `AnimationSystems` as opposed to `PhysicsSet` and
`AnimationSet`.
- Pro: Easy to search for on docs.rs.
- Con: Usually results in longer names.
- Con: Not yet as widely used.

Really the big problem with `FooSet` is that it doesn't actually
describe what it is. It describes what *kind of thing* it is (a set of
something), but not *what it is a set of*, unless you know the type or
check its docs or implemented traits. `FooSystems` on the other hand is
much more self-descriptive in this regard, at the cost of being a bit
longer to type.

Ultimately, in some ways it comes down to preference and how you think
of system sets. Personally, I was originally in favor of `FooSet`, but
have been increasingly on the side of `FooSystems`, especially after
seeing what the new names would actually look like in Avian and now
Bevy. I prefer it because it usually reads better, is much more clearly
related to groups of systems than `FooSet`, and overall *feels* more
correct and natural to me in the long term.

For these reasons, and because Alice and Cart also seemed to share a
preference for it when it was previously being discussed, I propose that
we adopt a `FooSystems` naming convention where applicable.

## Solution

Rename Bevy's system set types to use a consistent `FooSet` naming where
applicable.

- `AccessibilitySystem` → `AccessibilitySystems`
- `GizmoRenderSystem` → `GizmoRenderSystems`
- `PickSet` → `PickingSystems`
- `RunFixedMainLoopSystem` → `RunFixedMainLoopSystems`
- `TransformSystem` → `TransformSystems`
- `RemoteSet` → `RemoteSystems`
- `RenderSet` → `RenderSystems`
- `SpriteSystem` → `SpriteSystems`
- `StateTransitionSteps` → `StateTransitionSystems`
- `RenderUiSystem` → `RenderUiSystems`
- `UiSystem` → `UiSystems`
- `Animation` → `AnimationSystems`
- `AssetEvents` → `AssetEventSystems`
- `TrackAssets` → `AssetTrackingSystems`
- `UpdateGizmoMeshes` → `GizmoMeshSystems`
- `InputSystem` → `InputSystems`
- `InputFocusSet` → `InputFocusSystems`
- `ExtractMaterialsSet` → `MaterialExtractionSystems`
- `ExtractMeshesSet` → `MeshExtractionSystems`
- `RumbleSystem` → `RumbleSystems`
- `CameraUpdateSystem` → `CameraUpdateSystems`
- `ExtractAssetsSet` → `AssetExtractionSystems`
- `Update2dText` → `Text2dUpdateSystems`
- `TimeSystem` → `TimeSystems`
- `AudioPlaySet` → `AudioPlaybackSystems`
- `SendEvents` → `EventSenderSystems`
- `EventUpdates` → `EventUpdateSystems`

A lot of the names got slightly longer, but they are also a lot more
consistent, and in my opinion the majority of them read much better. For
a few of the names I took the liberty of rewording things a bit;
definitely open to any further naming improvements.

There are still also cases where the `FooSystems` naming doesn't really
make sense, and those I left alone. This primarily includes system sets
like `Interned<dyn SystemSet>`, `EnterSchedules<S>`, `ExitSchedules<S>`,
or `TransitionSchedules<S>`, where the type has some special purpose and
semantics.

## Todo

- [x] Should I keep all the old names as deprecated type aliases? I can
do this, but to avoid wasting work I'd prefer to first reach consensus
on whether these renames are even desired.
- [x] Migration guide
- [x] Release notes
2025-05-06 15:18:03 +00:00
Carter Anderson e9a0ef49f9 Rename bevy_platform_support to bevy_platform (#18813)
# Objective

The goal of `bevy_platform_support` is to provide a set of platform
agnostic APIs, alongside platform-specific functionality. This is a high
traffic crate (providing things like HashMap and Instant). Especially in
light of https://github.com/bevyengine/bevy/discussions/18799, it
deserves a friendlier / shorter name.

Given that it hasn't had a full release yet, getting this change in
before Bevy 0.16 makes sense.

## Solution

- Rename `bevy_platform_support` to `bevy_platform`.
2025-04-11 23:13:28 +00:00
Viktor Gustavsson d02a206940 Fix clippy::unnecessary-literal-unwrap in bevy_time (#18485)
# Objective

- Compiling `bevy_time` without the `std`-feature results in a
`clippy::unnecessary-literal-unwrap`.

## Solution

- Fix lint error

## Testing

- CI
---
2025-03-22 13:27:37 +00:00
Gino Valente 9b32e09551 bevy_reflect: Add clone registrations project-wide (#18307)
# Objective

Now that #13432 has been merged, it's important we update our reflected
types to properly opt into this feature. If we do not, then this could
cause issues for users downstream who want to make use of
reflection-based cloning.

## Solution

This PR is broken into 4 commits:

1. Add `#[reflect(Clone)]` on all types marked `#[reflect(opaque)]` that
are also `Clone`. This is mandatory as these types would otherwise cause
the cloning operation to fail for any type that contains it at any
depth.
2. Update the reflection example to suggest adding `#[reflect(Clone)]`
on opaque types.
3. Add `#[reflect(clone)]` attributes on all fields marked
`#[reflect(ignore)]` that are also `Clone`. This prevents the ignored
field from causing the cloning operation to fail.
   
Note that some of the types that contain these fields are also `Clone`,
and thus can be marked `#[reflect(Clone)]`. This makes the
`#[reflect(clone)]` attribute redundant. However, I think it's safer to
keep it marked in the case that the `Clone` impl/derive is ever removed.
I'm open to removing them, though, if people disagree.
4. Finally, I added `#[reflect(Clone)]` on all types that are also
`Clone`. While not strictly necessary, it enables us to reduce the
generated output since we can just call `Clone::clone` directly instead
of calling `PartialReflect::reflect_clone` on each variant/field. It
also means we benefit from any optimizations or customizations made in
the `Clone` impl, including directly dereferencing `Copy` values and
increasing reference counters.

Along with that change I also took the liberty of adding any missing
registrations that I saw could be applied to the type as well, such as
`Default`, `PartialEq`, and `Hash`. There were hundreds of these to
edit, though, so it's possible I missed quite a few.

That last commit is **_massive_**. There were nearly 700 types to
update. So it's recommended to review the first three before moving onto
that last one.

Additionally, I can break the last commit off into its own PR or into
smaller PRs, but I figured this would be the easiest way of doing it
(and in a timely manner since I unfortunately don't have as much time as
I used to for code contributions).

## Testing

You can test locally with a `cargo check`:

```
cargo check --workspace --all-features
```
2025-03-17 18:32:35 +00:00
newclarityex ecccd57417 Generic system config (#17962)
# Objective
Prevents duplicate implementation between IntoSystemConfigs and
IntoSystemSetConfigs using a generic, adds a NodeType trait for more
config flexibility (opening the door to implement
https://github.com/bevyengine/bevy/issues/14195?).

## Solution
Followed writeup by @ItsDoot:
https://hackmd.io/@doot/rJeefFHc1x

Removes IntoSystemConfigs and IntoSystemSetConfigs, instead using
IntoNodeConfigs with generics.

## Testing
Pending

---

## Showcase
N/A

## Migration Guide
SystemSetConfigs -> NodeConfigs<InternedSystemSet>
SystemConfigs -> NodeConfigs<ScheduleSystem>
IntoSystemSetConfigs -> IntoNodeConfigs<InternedSystemSet, M>
IntoSystemConfigs -> IntoNodeConfigs<ScheduleSystem, M>

---------

Co-authored-by: Christian Hughes <9044780+ItsDoot@users.noreply.github.com>
Co-authored-by: Alice Cecile <alice.i.cecile@gmail.com>
2025-03-12 00:12:30 +00:00
Cyrill Schenkel 8570af1d96 Add print_stdout and print_stderr lints (#17446) (#18233)
# Objective

- Prevent usage of `println!`, `eprintln!` and the like because they
require `std`
- Fixes #17446

## Solution

- Enable the `print_stdout` and `print_stderr` clippy lints
- Replace all `println!` and `eprintln!` occurrences with `log::*` where
applicable or alternatively ignore the warnings

## Testing

- Run `cargo clippy --workspace` to ensure that there are no warnings
relating to printing to `stdout` or `stderr`
2025-03-11 19:35:48 +00:00
Zachary Harrold cc69fdd0c6 Add no_std support to bevy (#17955)
# Objective

- Fixes #15460 (will open new issues for further `no_std` efforts)
- Supersedes #17715

## Solution

- Threaded in new features as required
- Made certain crates optional but default enabled
- Removed `compile-check-no-std` from internal `ci` tool since GitHub CI
can now simply check `bevy` itself now
- Added CI task to check `bevy` on `thumbv6m-none-eabi` to ensure
`portable-atomic` support is still valid [^1]

[^1]: This may be controversial, since it could be interpreted as
implying Bevy will maintain support for `thumbv6m-none-eabi` going
forward. In reality, just like `x86_64-unknown-none`, this is a
[canary](https://en.wiktionary.org/wiki/canary_in_a_coal_mine) target to
make it clear when `portable-atomic` no longer works as intended (fixing
atomic support on atomically challenged platforms). If a PR comes
through and makes supporting this class of platforms impossible, then
this CI task can be removed. I however wager this won't be a problem.

## Testing

- CI

---

## Release Notes

Bevy now has support for `no_std` directly from the `bevy` crate.

Users can disable default features and enable a new `default_no_std`
feature instead, allowing `bevy` to be used in `no_std` applications and
libraries.

```toml
# Bevy for `no_std` platforms
bevy = { version = "0.16", default-features = false, features = ["default_no_std"] }
```

`default_no_std` enables certain required features, such as `libm` and
`critical-section`, and as many optional crates as possible (currently
just `bevy_state`). For atomically-challenged platforms such as the
Raspberry Pi Pico, `portable-atomic` will be used automatically.

For library authors, we recommend depending on `bevy` with
`default-features = false` to allow `std` and `no_std` users to both
depend on your crate. Here are some recommended features a library crate
may want to expose:

```toml
[features]
# Most users will be on a platform which has `std` and can use the more-powerful `async_executor`.
default = ["std", "async_executor"]

# Features for typical platforms.
std = ["bevy/std"]
async_executor = ["bevy/async_executor"]

# Features for `no_std` platforms.
libm = ["bevy/libm"]
critical-section = ["bevy/critical-section"]

[dependencies]
# We disable default features to ensure we don't accidentally enable `std` on `no_std` targets, for example. 
bevy = { version = "0.16", default-features = false }
```

While this is verbose, it gives the maximum control to end-users to
decide how they wish to use Bevy on their platform.

We encourage library authors to experiment with `no_std` support. For
libraries relying exclusively on `bevy` and no other dependencies, it
may be as simple as adding `#![no_std]` to your `lib.rs` and exposing
features as above! Bevy can also provide many `std` types, such as
`HashMap`, `Mutex`, and `Instant` on all platforms. See
`bevy::platform_support` for details on what's available out of the box!

## Migration Guide

- If you were previously relying on `bevy` with default features
disabled, you may need to enable the `std` and `async_executor`
features.
- `bevy_reflect` has had its `bevy` feature removed. If you were relying
on this feature, simply enable `smallvec` and `smol_str` instead.

---------

Co-authored-by: Alice Cecile <alice.i.cecile@gmail.com>
2025-03-07 03:39:46 +00:00
Zachary Harrold 76e9bf9c99 Automatically enable portable-atomic when required (#17570)
# Objective

- Contributes to #15460
- Reduce quantity and complexity of feature gates across Bevy

## Solution

- Used `target_has_atomic` configuration variable to automatically
detect impartial atomic support and automatically switch to
`portable-atomic` over the standard library on an as-required basis.

## Testing

- CI

## Notes

To explain the technique employed here, consider getting `Arc` either
from `alloc::sync` _or_ `portable-atomic-util`. First, we can inspect
the `alloc` crate to see that you only have access to `Arc` _if_
`target_has_atomic = "ptr"`. We add a target dependency for this
particular configuration _inverted_:

```toml
[target.'cfg(not(target_has_atomic = "ptr"))'.dependencies]
portable-atomic-util = { version = "0.2.4", default-features = false }
```

This ensures we only have the dependency when it is needed, and it is
entirely excluded from the dependency graph when it is not. Next, we
adjust our configuration flags to instead of checking for `feature =
"portable-atomic"` to instead check for `target_has_atomic = "ptr"`:

```rust
// `alloc` feature flag hidden for brevity

#[cfg(not(target_has_atomic = "ptr"))]
use portable_atomic_util as arc;

#[cfg(target_has_atomic = "ptr")]
use alloc::sync as arc;

pub use arc::{Arc, Weak};
```

The benefits of this technique are three-fold:

1. For platforms without full atomic support, the functionality is
enabled automatically.
2. For platforms with atomic support, the dependency is never included,
even if a feature was enabled using `--all-features` (for example)
3. The `portable-atomic` feature no longer needs to virally spread to
all user-facing crates, it's instead something handled within
`bevy_platform_support` (with some extras where other dependencies also
need their features enabled).
2025-02-24 20:52:46 +00:00
Zachary Harrold 5241e09671 Upgrade to Rust Edition 2024 (#17967)
# Objective

- Fixes #17960

## Solution

- Followed the [edition upgrade
guide](https://doc.rust-lang.org/edition-guide/editions/transitioning-an-existing-project-to-a-new-edition.html)

## Testing

- CI

---

## Summary of Changes

### Documentation Indentation

When using lists in documentation, proper indentation is now linted for.
This means subsequent lines within the same list item must start at the
same indentation level as the item.

```rust
/* Valid */
/// - Item 1
///   Run-on sentence.
/// - Item 2
struct Foo;

/* Invalid */
/// - Item 1
///     Run-on sentence.
/// - Item 2
struct Foo;
```

### Implicit `!` to `()` Conversion

`!` (the never return type, returned by `panic!`, etc.) no longer
implicitly converts to `()`. This is particularly painful for systems
with `todo!` or `panic!` statements, as they will no longer be functions
returning `()` (or `Result<()>`), making them invalid systems for
functions like `add_systems`. The ideal fix would be to accept functions
returning `!` (or rather, _not_ returning), but this is blocked on the
[stabilisation of the `!` type
itself](https://doc.rust-lang.org/std/primitive.never.html), which is
not done.

The "simple" fix would be to add an explicit `-> ()` to system
signatures (e.g., `|| { todo!() }` becomes `|| -> () { todo!() }`).
However, this is _also_ banned, as there is an existing lint which (IMO,
incorrectly) marks this as an unnecessary annotation.

So, the "fix" (read: workaround) is to put these kinds of `|| -> ! { ...
}` closuers into variables and give the variable an explicit type (e.g.,
`fn()`).

```rust
// Valid
let system: fn() = || todo!("Not implemented yet!");
app.add_systems(..., system);

// Invalid
app.add_systems(..., || todo!("Not implemented yet!"));
```

### Temporary Variable Lifetimes

The order in which temporary variables are dropped has changed. The
simple fix here is _usually_ to just assign temporaries to a named
variable before use.

### `gen` is a keyword

We can no longer use the name `gen` as it is reserved for a future
generator syntax. This involved replacing uses of the name `gen` with
`r#gen` (the raw-identifier syntax).

### Formatting has changed

Use statements have had the order of imports changed, causing a
substantial +/-3,000 diff when applied. For now, I have opted-out of
this change by amending `rustfmt.toml`

```toml
style_edition = "2021"
```

This preserves the original formatting for now, reducing the size of
this PR. It would be a simple followup to update this to 2024 and run
`cargo fmt`.

### New `use<>` Opt-Out Syntax

Lifetimes are now implicitly included in RPIT types. There was a handful
of instances where it needed to be added to satisfy the borrow checker,
but there may be more cases where it _should_ be added to avoid
breakages in user code.

### `MyUnitStruct { .. }` is an invalid pattern

Previously, you could match against unit structs (and unit enum
variants) with a `{ .. }` destructuring. This is no longer valid.

### Pretty much every use of `ref` and `mut` are gone

Pattern binding has changed to the point where these terms are largely
unused now. They still serve a purpose, but it is far more niche now.

### `iter::repeat(...).take(...)` is bad

New lint recommends using the more explicit `iter::repeat_n(..., ...)`
instead.

## Migration Guide

The lifetimes of functions using return-position impl-trait (RPIT) are
likely _more_ conservative than they had been previously. If you
encounter lifetime issues with such a function, please create an issue
to investigate the addition of `+ use<...>`.

## Notes

- Check the individual commits for a clearer breakdown for what
_actually_ changed.

---------

Co-authored-by: François Mockers <francois.mockers@vleue.com>
2025-02-24 03:54:47 +00:00
AlephCubed 5f86668bbb Renamed EventWriter::send methods to write. (#17977)
Fixes #17856.

## Migration Guide
- `EventWriter::send` has been renamed to `EventWriter::write`.
- `EventWriter::send_batch` has been renamed to
`EventWriter::write_batch`.
- `EventWriter::send_default` has been renamed to
`EventWriter::write_default`.

---------

Co-authored-by: François Mockers <mockersf@gmail.com>
2025-02-23 21:18:52 +00:00
François Mockers 7400e7adfd Cleanup publish process (#17728)
# Objective

- publish script copy the license files to all subcrates, meaning that
all publish are dirty. this breaks git verification of crates
- the order and list of crates to publish is manually maintained,
leading to error. cargo 1.84 is more strict and the list is currently
wrong

## Solution

- duplicate all the licenses to all crates and remove the
`--allow-dirty` flag
- instead of a manual list of crates, get it from `cargo package
--workspace`
- remove the `--no-verify` flag to... verify more things?
2025-02-09 17:46:19 +00:00
Zachary Harrold 9bc0ae33c3 Move hashbrown and foldhash out of bevy_utils (#17460)
# Objective

- Contributes to #16877

## Solution

- Moved `hashbrown`, `foldhash`, and related types out of `bevy_utils`
and into `bevy_platform_support`
- Refactored the above to match the layout of these types in `std`.
- Updated crates as required.

## Testing

- CI

---

## Migration Guide

- The following items were moved out of `bevy_utils` and into
`bevy_platform_support::hash`:
  - `FixedState`
  - `DefaultHasher`
  - `RandomState`
  - `FixedHasher`
  - `Hashed`
  - `PassHash`
  - `PassHasher`
  - `NoOpHash`
- The following items were moved out of `bevy_utils` and into
`bevy_platform_support::collections`:
  - `HashMap`
  - `HashSet`
- `bevy_utils::hashbrown` has been removed. Instead, import from
`bevy_platform_support::collections` _or_ take a dependency on
`hashbrown` directly.
- `bevy_utils::Entry` has been removed. Instead, import from
`bevy_platform_support::collections::hash_map` or
`bevy_platform_support::collections::hash_set` as appropriate.
- All of the above equally apply to `bevy::utils` and
`bevy::platform_support`.

## Notes

- I left `PreHashMap`, `PreHashMapExt`, and `TypeIdMap` in `bevy_utils`
as they might be candidates for micro-crating. They can always be moved
into `bevy_platform_support` at a later date if desired.
2025-01-23 16:46:08 +00:00
Zachary Harrold c7ddec571d Fix Time (#17504)
# Objective

- Fix issue @mockersf identified with `example-showcase` where time was
not being received correctly from the render world.

## Solution

- Refactored to ensure `TimeReceiver` is always cleared even if it isn't
being used in the main world.

## Testing

- `cargo run -p example-showcase -- --page 1 --per-page 1 run
--screenshot-frame 200 --fixed-frame-time 0.0125 --stop-frame 450
--in-ci --show-logs`
2025-01-23 02:44:16 +00:00
Zachary Harrold d921fdc376 Add no_std Support to bevy_time (#17491)
# Objective

- Contributes to #15460

## Solution

- Switched `tracing` for `log` for the atomically challenged platforms
- Setup feature flags as required
- Added to `compile-check-no-std` CI task
- Made `crossbeam-channel` optional depending on `std`.

## Testing

- CI

---

## Notes

- `crossbeam-channel` provides a MPMC channel type which isn't readily
replicable in `no_std`, and is only used for a `bevy_render`
integration. As such, I've feature-gated the `TimeReceiver` and
`TimeSender` types.

---------

Co-authored-by: Alice Cecile <alice.i.cecile@gmail.com>
2025-01-22 20:02:43 +00:00
Alice Cecile 44ad3bf62b Move Resource trait to its own file (#17469)
# Objective

`bevy_ecs`'s `system` module is something of a grab bag, and *very*
large. This is particularly true for the `system_param` module, which is
more than 2k lines long!

While it could be defensible to put `Res` and `ResMut` there (lol no
they're in change_detection.rs, obviously), it doesn't make any sense to
put the `Resource` trait there. This is confusing to navigate (and
painful to work on and review).

## Solution

- Create a root level `bevy_ecs/resource.rs` module to mirror
`bevy_ecs/component.rs`
- move the `Resource` trait to that module
- move the `Resource` derive macro to that module as well (Rust really
likes when you pun on the names of the derive macro and trait and put
them in the same path)
- fix all of the imports

## Notes to reviewers

- We could probably move more stuff into here, but I wanted to keep this
PR as small as possible given the absurd level of import changes.
- This PR is ground work for my upcoming attempts to store resource data
on components (resources-as-entities). Splitting this code out will make
the work and review a bit easier, and is the sort of overdue refactor
that's good to do as part of more meaningful work.

## Testing

cargo build works!

## Migration Guide

`bevy_ecs::system::Resource` has been moved to
`bevy_ecs::resource::Resource`.
2025-01-21 19:47:08 +00:00
Zachary Harrold a64446b77e Create bevy_platform_support Crate (#17250)
# Objective

- Contributes to #16877

## Solution

- Initial creation of `bevy_platform_support` crate.
- Moved `bevy_utils::Instant` into new `bevy_platform_support` crate.
- Moved `portable-atomic`, `portable-atomic-util`, and
`critical-section` into new `bevy_platform_support` crate.

## Testing

- CI

---

## Showcase

Instead of needing code like this to import an `Arc`:

```rust
#[cfg(feature = "portable-atomic")]
use portable_atomic_util::Arc;

#[cfg(not(feature = "portable-atomic"))]
use alloc::sync::Arc;
```

We can now use:

```rust
use bevy_platform_support::sync::Arc;
```

This applies to many other types, but the goal is overall the same:
allowing crates to use `std`-like types without the boilerplate of
conditional compilation and platform-dependencies.

## Migration Guide

- Replace imports of `bevy_utils::Instant` with
`bevy_platform_support::time::Instant`
- Replace imports of `bevy::utils::Instant` with
`bevy::platform_support::time::Instant`

## Notes

- `bevy_platform_support` hasn't been reserved on `crates.io`
- ~~`bevy_platform_support` is not re-exported from `bevy` at this time.
It may be worthwhile exporting this crate, but I am unsure of a
reasonable name to export it under (`platform_support` may be a bit
wordy for user-facing).~~
- I've included an implementation of `Instant` which is suitable for
`no_std` platforms that are not Wasm for the sake of eliminating feature
gates around its use. It may be a controversial inclusion, so I'm happy
to remove it if required.
- There are many other items (`spin`, `bevy_utils::Sync(Unsafe)Cell`,
etc.) which should be added to this crate. I have kept the initial scope
small to demonstrate utility without making this too unwieldy.

---------

Co-authored-by: TimJentzsch <TimJentzsch@users.noreply.github.com>
Co-authored-by: Chris Russell <8494645+chescock@users.noreply.github.com>
Co-authored-by: François Mockers <francois.mockers@vleue.com>
2025-01-20 20:45:30 +00:00
MichiRecRoom 26bb0b40d2 Move #![warn(clippy::allow_attributes, clippy::allow_attributes_without_reason)] to the workspace Cargo.toml (#17374)
# Objective
Fixes https://github.com/bevyengine/bevy/issues/17111

## Solution
Move `#![warn(clippy::allow_attributes,
clippy::allow_attributes_without_reason)]` to the workspace `Cargo.toml`

## Testing
Lots of CI testing, and local testing too.

---------

Co-authored-by: Benjamin Brienen <benjamin.brienen@outlook.com>
2025-01-15 01:14:58 +00:00
Greeble 83b2265673 Fix bevy_time tests occasionally failing on optimised Windows builds (#17349)
# Objective

Fix the `bevy_time` unit tests occasionally failing on optimised Windows
builds.

# Background

I noticed that the `bevy_time` unit tests would fail ~50% of the time
after enabling `opt-level=1` in config.toml, or adding `--release` to
cargo test.

```
> cargo test -p bevy_time --release

thread 'real::test::test_update' panicked at crates\bevy_time\src\real.rs:164:9:
assertion `left != right` failed
  left: Some(Instant { t: 9458.0756664s })
 right: Some(Instant { t: 9458.0756664s })
 ```

Disabling optimisations would fix the issue, as would switching from Windows to Linux.

The failing path is roughly:

```rust
let mut time = Time::<Real>::new(Instant::now());
time.update();
time.update();
assert_ne!(time.last_update(), time.first_update());
```

Which kinda boils down to:

```rust
let left = Instant::now();
let right = Instant::now();
assert_ne!(left, right);
```

So the failure seems legit, since there's no guarantee that `Instant::now()` increases between calls.

I suspect it only triggers with a combination of Windows + fast CPU + optimisations (Windows has a lower resolution clock than Linux/MacOS). That would explain why it doesn't fail on the Bevy Github CI (optimisations disabled, and I'm guessing the runner CPUs are clocked lower).

# Solution

Make sure `Instant::now()` has increased before calling `time.update()`.

I also considered:

1. Change the unit tests to accept `Instant:now()` not increasing.
    - In retrospect this is maybe the better change?
    - There's other unit tests that cover time increasing.
    - Could also add a deterministic test for zero delta updates.
    - I can switch the PR to this if desired.
2. Avoid any paths that hit `Instant::now()` in unit tests.
    - Arguably unit tests should always be deterministic.
    - But that would mean a bunch of paths aren't tested.

## Testing

`cargo test -p bevy_time --release`

## System Info

`os: "Windows 10 Pro", kernel: "19045", cpu: "AMD Ryzen 9 7900 12-Core Processor", core_count: "12", memory: "63.2 GiB"`

Also tested on same computer with Linux pop-os 6.9.3.

Co-authored-by: François Mockers <mockersf@gmail.com>
2025-01-14 00:30:07 +00:00
MichiRecRoom 447108b2a4 Downgrade clippy::allow_attributes and clippy::allow_attributes_without_reason to warn (#17320)
# Objective
I realized that setting these to `deny` may have been a little
aggressive - especially since we upgrade warnings to denies in CI.

## Solution
Downgrades these lints to `warn`, so that compiles can work locally. CI
will still treat these as denies.
2025-01-12 05:28:26 +00:00
MichiRecRoom 9f1b8b4769 bevy_time: Apply #![deny(clippy::allow_attributes, clippy::allow_attributes_without_reason)] (#17210)
# Objective
- https://github.com/bevyengine/bevy/issues/17111

## Solution
Set the `clippy::allow_attributes` and
`clippy::allow_attributes_without_reason` lints to `deny`, and bring
`bevy_time` in line with the new restrictions.

No code changes have been made - except if a lint that was previously
`allow(...)`'d could be removed via small code changes. For example,
`unused_variables` can be handled by adding a `_` to the beginning of a
field's name.

## Testing
`cargo clippy`, `cargo clippy --package bevy_time` and `cargo test
--package bevy_time` were run, and no errors were encountered.
2025-01-09 06:29:42 +00:00
github-actions[bot] 573b980685 Bump Version after Release (#17176)
Bump version after release
This PR has been auto-generated

---------

Co-authored-by: Bevy Auto Releaser <41898282+github-actions[bot]@users.noreply.github.com>
Co-authored-by: François Mockers <mockersf@gmail.com>
2025-01-06 00:04:44 +00:00
Zachary Harrold a371ee3019 Remove tracing re-export from bevy_utils (#17161)
# Objective

- Contributes to #11478

## Solution

- Made `bevy_utils::tracing` `doc(hidden)`
- Re-exported `tracing` from `bevy_log` for end-users
- Added `tracing` directly to crates that need it.

## Testing

- CI

---

## Migration Guide

If you were importing `tracing` via `bevy::utils::tracing`, instead use
`bevy::log::tracing`. Note that many items within `tracing` are also
directly re-exported from `bevy::log` as well, so you may only need
`bevy::log` for the most common items (e.g., `warn!`, `trace!`, etc.).
This also applies to the `log_once!` family of macros.

## Notes

- While this doesn't reduce the line-count in `bevy_utils`, it further
decouples the internal crates from `bevy_utils`, making its eventual
removal more feasible in the future.
- I have just imported `tracing` as we do for all dependencies. However,
a workspace dependency may be more appropriate for version management.
2025-01-05 23:06:34 +00:00
Zachary Harrold 3c829d7f68 Remove everything except Instant from bevy_utils::time (#17158)
# Objective

- Contributes to #11478
- Contributes to #16877

## Solution

- Removed everything except `Instant` from `bevy_utils::time`

## Testing

- CI

---

## Migration Guide

If you relied on any of the following from `bevy_utils::time`:

- `Duration`
- `TryFromFloatSecsError`

Import these directly from `core::time` regardless of platform target
(WASM, mobile, etc.)

If you relied on any of the following from `bevy_utils::time`:

- `SystemTime`
- `SystemTimeError`

Instead import these directly from either `std::time` or `web_time` as
appropriate for your target platform.

## Notes

`Duration` and `TryFromFloatSecsError` are both re-exports from
`core::time` regardless of whether they are used from `web_time` or
`std::time`, so there is no value gained from re-exporting them from
`bevy_utils::time` as well. As for `SystemTime` and `SystemTimeError`,
no Bevy internal crates or examples rely on these types. Since Bevy
doesn't have a `Time<Wall>` resource for interacting with wall-time (and
likely shouldn't need one), I think removing these from `bevy_utils`
entirely and waiting for a use-case to justify inclusion is a reasonable
path forward.
2025-01-05 20:36:08 +00:00
Rob Parrett 30d84519a2 Use en-us locale for typos (#16037)
# Objective

Bevy seems to want to standardize on "American English" spellings. Not
sure if this is laid out anywhere in writing, but see also #15947.

While perusing the docs for `typos`, I noticed that it has a `locale`
config option and tried it out.

## Solution

Switch to `en-us` locale in the `typos` config and run `typos -w`

## Migration Guide

The following methods or fields have been renamed from `*dependants*` to
`*dependents*`.

- `ProcessorAssetInfo::dependants`
- `ProcessorAssetInfos::add_dependant`
- `ProcessorAssetInfos::non_existent_dependants`
- `AssetInfo::dependants_waiting_on_load`
- `AssetInfo::dependants_waiting_on_recursive_dep_load`
- `AssetInfos::loader_dependants`
- `AssetInfos::remove_dependants_and_labels`
2024-10-20 18:55:17 +00:00
andristarr 7482a0d26d aligning public apis of Time,Timer and Stopwatch (#15962)
Fixes #15834

## Migration Guide

The APIs of `Time`, `Timer` and `Stopwatch` have been cleaned up for
consistency with each other and the standard library's `Duration` type.
The following methods have been renamed:

- `Stowatch::paused` -> `Stopwatch::is_paused`
- `Time::elapsed_seconds` -> `Time::elasped_secs` (including `_f64` and
`_wrapped` variants)
2024-10-16 21:09:32 +00:00