# Objective
`RelatedSpawnerCommands` offers methods to get the underlying
`Commands`.
`RelatedSpawner` does not expose the inner `World` reference so far.
I currently want to write extension traits for both of them but I need
to duplicate the whole API for the latter because I cannot get it's
`&mut World`.
## Solution
Add methods for immutable and mutable `World` access
The occlusion culling plugin checks for a GPU feature by looking at
`RenderAdapter`. This is wrong - it should be checking `RenderDevice`.
See these notes for background:
https://github.com/bevyengine/bevy/discussions/18973
I don't have any evidence that this was causing any bugs, so right now
it's just a precaution.
## Testing
```
cargo run --example occlusion_culling
```
Tested on Win10/Nvidia across Vulkan, WebGL/Chrome, WebGPU/Chrome.
# Objective
I've been tinkering with ECS insertion/removal lately, and noticed that
sparse sets just... don't interact with `InsertMode` at all. Sure
enough, using `insert_if_new` with a sparse component does the same
thing as `insert`.
# Solution
- Add a check in `BundleInfo::write_components` to drop the new value if
the entity already has the component and `InsertMode` is `Keep`.
- Add necessary methods to sparse set internals to fetch the drop
function.
# Testing
Minimal reproduction:
<details>
<summary>Code</summary>
```
use bevy::prelude::*;
fn main() {
App::new()
.add_plugins(DefaultPlugins)
.add_systems(Startup, setup)
.add_systems(PostStartup, component_print)
.run();
}
#[derive(Component)]
#[component(storage = "SparseSet")]
struct SparseComponent(u32);
fn setup(mut commands: Commands) {
let mut entity = commands.spawn_empty();
entity.insert(SparseComponent(1));
entity.insert(SparseComponent(2));
let mut entity = commands.spawn_empty();
entity.insert(SparseComponent(3));
entity.insert_if_new(SparseComponent(4));
}
fn component_print(query: Query<&SparseComponent>) {
for component in &query {
info!("{}", component.0);
}
}
```
</details>
Here it is on Bevy Playground (0.15.3):
https://learnbevy.com/playground?share=2a96a68a81e804d3fdd644a833c1d51f7fa8dd33fc6192fbfd077b082a6b1a41
Output on `main`:
```
2025-05-04T17:50:50.401328Z INFO system{name="fork::component_print"}: fork: 2
2025-05-04T17:50:50.401583Z INFO system{name="fork::component_print"}: fork: 4
```
Output with this PR :
```
2025-05-04T17:51:33.461835Z INFO system{name="fork::component_print"}: fork: 2
2025-05-04T17:51:33.462091Z INFO system{name="fork::component_print"}: fork: 3
```
# Objective
Fixes#18969
## Solution
Also updated `Aabb3d` implementation for consistency.
## Testing
Added tests for `Aabb2d` and `Aabb3d` to verify correct rotation
behavior for angles greater than 90 degrees.
# Objective
Fixes#18943
## Solution
Reintroduces support for `hashbrown`'s `HashMap` and `HashSet` types.
These were inadvertently removed when `bevy_platform` newtyped the
`hashbrown` types.
Since we removed our `hashbrown` dependency, I gated these impls behind
a `hashbrown` feature. Not entirely sure if this is necessary since we
enabled it for `bevy_reflect` through `bevy_platform` anyways. (Complex
features still confuse me a bit so let me know if I can just remove it!)
I also went ahead and preemptively implemented `TypePath` for `PassHash`
while I was here.
## Testing
You can test that it works by adding the following to a Bevy example
based on this PR (you'll also need to include `hashbrown` of course):
```rust
#[derive(Reflect)]
struct Foo(hashbrown::HashMap<String, String>);
```
Then check it compiles with:
```
cargo check --example hello_world --no-default-features --features=bevy_reflect/hashbrown
```
# Objective
- Fixes#18856.
## Solution
After PR #17633, `Camera::viewport_to_world` method corrects
`viewport_position` passed in that input so that it's offset by camera's
viewport. `Camera::viewport_to_world` is used by `make_ray` function
which in turn also offsets pointer position by viewport position, which
causes picking objects to be shifted by viewport position, and it wasn't
removed in the aforementioned PR. This second offsetting in `make_ray`
was removed.
## Testing
- I tested simple_picking example by applying some horizontal offset to
camera's viewport.
- I tested my application that displayed a single rectangle with picking
on two cameras arranged in a row. When using local bevy with this fix,
both cameras can be used for picking correctly.
- I modified split_screen example: I added observer to ground plane that
changes color on hover, and removed UI as it interfered with picking
both on master and my branch. On master, only top left camera was
triggering the observer, and on my branch all cameras could change
plane's color on hover.
- I added viewport offset to mesh_picking, with my changes it works
correctly, while on master picking ray is shifted.
- Sprite picking with viewport offset doesn't work both on master and on
this branch.
These are the only scenarios I tested. I think other picking functions
that use this function should be tested but I couldn't track more uses
of it.
Co-authored-by: Krzysztof Zywiecki <krzysiu@pop-os.Dlink>
# Objective
Fixes#18843
## Solution
We need to account for the material being added and removed in the
course of the same frame. We evict the caches first because the entity
will be re-added if it was marked as needing specialization, which
avoids another check on removed components to see if it was "really"
despawned.
# Objective
One to one relationships (added in
https://github.com/bevyengine/bevy/pull/18087) can currently easily be
invalidated by having two entities relate to the same target.
Alternative to #18817 (removing one-to-one relationships)
## Solution
Panic if a RelationshipTarget is already targeted. Thanks @urben1680 for
the idea!
---------
Co-authored-by: François Mockers <mockersf@gmail.com>
There's still a race resulting in blank materials whenever a material of
type A is added on the same frame that a material of type B is removed.
PR #18734 improved the situation, but ultimately didn't fix the race
because of two issues:
1. The `late_sweep_material_instances` system was never scheduled. This
PR fixes the problem by scheduling that system.
2. `early_sweep_material_instances` needs to be called after *every*
material type has been extracted, not just when the material of *that*
type has been extracted. The `chain()` added during the review process
in PR #18734 broke this logic. This PR reverts that and fixes the
ordering by introducing a new `SystemSet` that contains all material
extraction systems.
I also took the opportunity to switch a manual reference to
`AssetId::<StandardMaterial>::invalid()` to the new
`DUMMY_MESH_MATERIAL` constant for clarity.
Because this is a bug that can affect any application that switches
material types in a single frame, I think this should be uplifted to
Bevy 0.16.
This reverts commit ac52cca033.
Fixes#18815
the interest of providing no_std support, specifically no_atomic
support). That tradeoff isn't worth it, especially given that tracing is
likely to get no_atomic support.
Revert #18782
Fixes#18834.
`EntityWorldMut::remove_children` and `EntityCommands::remove_children`
were removed in the relationships overhaul (#17398) and never got
replaced.
I don't *think* this was intentional (the methods were never mentioned
in the PR or its comments), but I could've missed something.
# Objective
I was wrong about how RPITIT works when I wrote this stuff initially,
and in order to actually give people access to all the traits
implemented by the output (e.g. Debug and so on) it's important to
expose the real output type, even if it makes the trait uglier and less
comprehensible. (☹️)
## Solution
Expose the curve output type of the `CurveWithDerivative` trait and its
double-derivative companion. I also added a bunch of trait derives to
`WithDerivative<T>`, since I think that was just an oversight.
# Objective
After #17967, closures which always panic no longer satisfy various Bevy
traits. Principally, this affects observers, systems and commands.
While this may seem pointless (systems which always panic are kind of
useless), it is distinctly annoying when using the `todo!` macro, or
when writing tests that should panic.
Fixes#18778.
## Solution
- Add failing tests to demonstrate the problem
- Add the trick from
[`never_say_never`](https://docs.rs/never-say-never/latest/never_say_never/)
to name the `!` type on stable Rust
- Write looots of docs explaining what the heck is going on and why
we've done this terrible thing
## To do
Unfortunately I couldn't figure out how to avoid conflicting impls, and
I am out of time for today, the week and uh the week after that.
Vacation! If you feel like finishing this for me, please submit PRs to
my branch and I can review and press the button for it while I'm off.
Unless you're Cart, in which case you have write permissions to my
branch!
- [ ] fix for commands
- [ ] fix for systems
- [ ] fix for observers
- [ ] revert https://github.com/bevyengine/bevy-website/pull/2092/
## Testing
I've added a compile test for these failure cases and a few adjacent
non-failing cases (with explicit return types).
---------
Co-authored-by: Carter Anderson <mcanders1@gmail.com>
Fixes a small mix-up from #18058, which added bulk relationship
replacement methods.
`EntityCommands::replace_related_with_difference` calls
`EntityWorldMut::replace_children_with_difference` instead of
`EntityWorldMut::replace_related_with_difference`, which means it always
operates on the `ChildOf` relationship instead of the `R: Relationship`
generic it's provided.
`EntityCommands::replace_children_with_difference` takes an `R:
Relationship` generic that it shouldn't, but it accidentally works
correctly on `main` because it calls the above method.
The parameter `In` of `call_inner` is completely unconstrained by its
arguments and return type. We are only able to infer it by assuming that
the only associated type equal to `In::Param<'_>` is `In::Param<'_>`
itself. It could just as well be some other associated type which only
normalizes to `In::Param<'_>`. This will change with the next-generation
trait solver and was encountered by a crater run
https://github.com/rust-lang/rust/pull/133502-
cc
https://github.com/rust-lang/trait-system-refactor-initiative/issues/168
I couldn't think of a cleaner alternative here. I first tried to just
provide `In` as an explicit type parameter. This is also kinda ugly as I
need to provide a variable number of them and `${ignore(..)}` is
currently still unstable https://github.com/rust-lang/rust/issues/83527.
Sorry for the inconvenience. Also fun that this function exists to avoid
a separate solver bug in the first place 😅
Fixes#18809Fixes#18823
Meshes despawned in `Last` can still be in visisible entities if they
were visible as of `PostUpdate`. Sanity check that the mesh actually
exists before we specialize. We still want to unconditionally assume
that the entity is in `EntitySpecializationTicks` as its absence from
that cache would likely suggest another bug.
# Objective
Fixes#18808
## Solution
When an asset emits a removed event, mark it as modified in the render
world to ensure any appropriate bookkeeping runs as necessary.
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.
- Rename `bevy_platform_support` to `bevy_platform`.
# Objective
- `bevy_dylib` currently doesn't build independently
```
cargo build -p bevy_dylib
Compiling bevy_dylib v0.16.0-rc.4 (/crates/bevy_dylib)
error: no global memory allocator found but one is required; link to std or add `#[global_allocator]` to a static item that implements the GlobalAlloc trait
error: `#[panic_handler]` function required, but not found
error: unwinding panics are not supported without std
|
= help: using nightly cargo, use -Zbuild-std with panic="abort" to avoid unwinding
= note: since the core library is usually precompiled with panic="unwind", rebuilding your crate with panic="abort" may not be enough to fix the problem
error: could not compile `bevy_dylib` (lib) due to 3 previous errors
```
## Solution
- remove `#![no_std]` from `bevy_dylib`
## Testing
- it builds now
- Fixes#18781
- Moved `LogPlugin` into its own file gated behind a new `tracing`
feature.
- Used `log` instead of `tracing` where possible.
- Exposed a new `tracing` feature in `bevy` which enables
`bevy_log/tracing`.
- Gated `LogPlugin` from `DefaultPlugins` on `tracing` feature.
- CI
---
- If you were previously using `bevy_log` with default features
disabled, enable the new `std` and `tracing` features.
- If you were using `bevy` with the default features disabled, enable
the new `tracing` feature.
Almost all of the diffs in this PR come from moving `LogPlugin` into its
own file. This just makes the PR less noisy, since the alternative is
excessive `#[cfg(feature = "tracing")]` directives all over the plugin.
---------
Co-authored-by: François Mockers <francois.mockers@vleue.com>
Fixes#17591
Looking at the arm downloads page, "r48p0" is a version number that
increments, where rXX is the major version and pX seems to be a patch
version. Take the conservative approach here that we know gpu
preprocessing is working on at least version 48 and presumably higher.
The assumption here is that the driver_info string will be reported
similarly on non-pixel devices.
# Objective
- Piped systems are an edge case that we missed when reworking system
parameter validation.
- Fixes#18755.
## Solution
- Validate the parameters for both systems, ~~combining the errors if
both failed validation~~ by simply using an early out.
- ~~Also fix the same bug for combinator systems while we're here.~~
## Testing
I've added a large number of tests checking the behavior under various
permutations. These are separate tests, rather than one mega test
because a) it's easier to track down bugs that way and b) many of these
are `should_panic` tests, which will halt the evaluation of the rest of
the test!
I've also added a test for exclusive systems being pipeable because we
don't have one and I was very surprised that that works!
---------
Co-authored-by: Chris Russell <8494645+chescock@users.noreply.github.com>
# Objective
- The referenced `ScheduleLabel` for `OnPrimaryClosed` and `OnAllClosed`
in `ExitCondition` was incorrect
## Solution
- Changed `Update` to `PostUpdate`
A clippy failure slipped into #18768, although I'm not sure why CI
didn't catch it.
```sh
> cargo clippy --version
clippy 0.1.85 (4eb161250e 2025-03-15)
> cargo run -p ci
...
error: empty line after doc comment
--> crates\bevy_pbr\src\light\mod.rs:105:5
|
105 | / /// The width and height of each of the 6 faces of the cubemap.
106 | |
| |_^
|
= help: for further information visit https://rust-lang.github.io/rust-clippy/master/index.html#empty_line_after_doc_comments
= note: `-D clippy::empty-line-after-doc-comments` implied by `-D warnings`
= help: to override `-D warnings` add `#[allow(clippy::empty_line_after_doc_comments)]`
= help: if the empty line is unintentional remove it
help: if the documentation should include the empty line include it in the comment
|
106 | ///
|
```
# Objective
- Improve the docs for `PointLightShadowMap` and
`DirectionalLightShadowMap`
## Solution
- Add example for how to use `PointLightShadowMap` and move the
`DirectionalLightShadowMap` example from `DirectionalLight`.
- Match `PointLight` and `DirectionalLight` docs about shadows.
- Describe what `size` means.
---------
Co-authored-by: Robert Swain <robert.swain@gmail.com>
# Objective
Fixes#16896Fixes#17737
## Solution
Adds a new render phase, including all the new cold specialization
patterns, for wireframes. There's a *lot* of regrettable duplication
here between 3d/2d.
## Testing
All the examples.
## Migration Guide
- `WireframePlugin` must now be created with
`WireframePlugin::default()`.
Currently, `RenderMaterialInstances` and `RenderMeshMaterialIds` are
very similar render-world resources: the former maps main world meshes
to typed material asset IDs, and the latter maps main world meshes to
untyped material asset IDs. This is needlessly-complex and wasteful, so
this patch unifies the two in favor of a single untyped
`RenderMaterialInstances` resource.
This patch also fixes a subtle issue that could cause mesh materials to
be incorrect if a `MeshMaterial3d<A>` was removed and replaced with a
`MeshMaterial3d<B>` material in the same frame. The problematic pattern
looks like:
1. `extract_mesh_materials<B>` runs and, seeing the
`Changed<MeshMaterial3d<B>>` condition, adds an entry mapping the mesh
to the new material to the untyped `RenderMeshMaterialIds`.
2. `extract_mesh_materials<A>` runs and, seeing that the entity is
present in `RemovedComponents<MeshMaterial3d<A>>`, removes the entry
from `RenderMeshMaterialIds`.
3. The material slot is now empty, and the mesh will show up as whatever
material happens to be in slot 0 in the material data slab.
This commit fixes the issue by splitting out `extract_mesh_materials`
into *three* phases: *extraction*, *early sweeping*, and *late
sweeping*, which run in that order:
1. The *extraction* system, which runs for each material, updates
`RenderMaterialInstances` records whenever `MeshMaterial3d` components
change, and updates a change tick so that the following system will know
not to remove it.
2. The *early sweeping* system, which runs for each material, processes
entities present in `RemovedComponents<MeshMaterial3d>` and removes each
such entity's record from `RenderMeshInstances` only if the extraction
system didn't update it this frame. This system runs after *all*
extraction systems have completed, fixing the race condition.
3. The *late sweeping* system, which runs only once regardless of the
number of materials in the scene, processes entities present in
`RemovedComponents<ViewVisibility>` and, as in the early sweeping phase,
removes each such entity's record from `RenderMeshInstances` only if the
extraction system didn't update it this frame. At the end, the late
sweeping system updates the change tick.
Because this pattern happens relatively frequently, I think this PR
should land for 0.16.
Due to the preprocessor usage in the shader, different combinations of
features could cause the fields of `StandardMaterialBindings` to shift
around. In certain cases, this could cause them to not line up with the
bindings specified in `StandardMaterial`. This resulted in #18104.
This commit fixes the issue by making `StandardMaterialBindings` have a
fixed size. On the CPU side, it uses the
`#[bindless(index_table(range(M..N)))]` feature I added to `AsBindGroup`
in #18025 to do so. Thus this patch has a dependency on #18025.
Closes#18104.
---------
Co-authored-by: Robert Swain <robert.swain@gmail.com>
This fixes a panic that occurs if one calls
`PipelineCache::get_render_pipeline_state(id)` or
`PipelineCache::get_compute_pipeline_state(id)` with a queued pipeline
id that has not yet been processed by `PipelineCache::process_queue()`.
```
thread 'Compute Task Pool (0)' panicked at [...]/bevy/crates/bevy_render/src/render_resource/pipeline_cache.rs:611:24:
index out of bounds: the len is 0 but the index is 20
note: run with `RUST_BACKTRACE=1` environment variable to display a backtrace
```
# Objective
Fixes#18550.
Because bin state for unbatchable meshes wasn't being cleared each
frame, the buffer indices for unbatchable meshes would demote from
sparse to dense storage and aggressively leak memory, with all kinds of
weird consequences downstream, namely supplying invalid instance ranges
for render.
## Solution
Clear out the unbatchable mesh bin state when we start a new frame.
PR #17898 disabled bindless support for `ExtendedMaterial`. This commit
adds it back. It also adds a new example, `extended_material_bindless`,
showing how to use it.
# Objective
Fixes#18678
## Solution
Moved the current `with_related` method to `with_relationships` and
added a new `with_related` that uses a bundle.
I'm not entirely sold on the name just yet, if anyone has any ideas let
me know.
## Testing
I wasn't able to test these changes because it crashed my computer every
time I tried (fun). But there don't seem to be any tests that use the
old `with_related` method so it should be fine, hopefully
## Showcase
```rust
commands.spawn_empty()
.with_related::<Relationship>(Name::new("Related thingy"))
.with_relationships(|rel| {
rel.spawn(Name::new("Second related thingy"));
});
```
---------
Co-authored-by: Carter Anderson <mcanders1@gmail.com>
# Objective
- Allow viewing and setting the added tick for change detection aware
data, to allow operations like checking if the value has been modified
since first being added, and spoofing that state (i.e. returning the
value to default in place without a remove/insert dance)
## Solution
- Added corresponding functions matching the existing `changed` API:
- `fn added(&self) -> Tick`
- `fn set_added(&mut self)`
- `fn set_last_added(&mut self, last_added: Tick)`
Discussed on discord @
https://canary.discord.com/channels/691052431525675048/749335865876021248/1358718892465193060
## Testing
- Running the bevy test suite by.. making a PR, heck.
- No new tests were introduced due to triviality (i.e. I don't know what
to test about this API, and the corresponding API for `changed` is
similarly lacking tests.)
---------
Co-authored-by: moonheart08 <moonheart08@users.noreply.github.com>
Co-authored-by: SpecificProtagonist <vincentjunge@posteo.net>
Co-authored-by: Chris Russell <8494645+chescock@users.noreply.github.com>
# Objective
Fixes#18685
## Solution
* Don't apply the camera translation.
* Calculate the min and max bounds of the accessibility node rect taking
the UI translation relative to its center not the top-left corner.
## Testing
Install [NVDA](https://www.nvaccess.org/). In NVDA set `Preferences ->
Settings -> Vision -> Enable Highlighting`.
Then run bevy's `tab_navigation` example:
```
cargo run --example tab_navigation
```
If everything is working correctly, NVDA should draw a border around the
currently selected tab button:
# Objective
Clarify information in the docs about the bundle removal commands.
## Solution
Added information about how the intersection of components are removed.
# Objective
Add web support to atmosphere by gating dual source blending and using a
macro to determine the target platform.
The main objective of this PR is to ensure that users of Bevy's
atmosphere feature can also run it in a web-based context where WebGPU
support is enabled.
## Solution
- Make use of the `#[cfg(not(target_arch = "wasm32"))]` macro to gate
the dual source blending, as this is not (yet) supported in web
browsers.
- Rename the function `sample_sun_illuminance` to `sample_sun_radiance`
and move calls out of conditionals to ensure the shader compiles and
runs in both native and web-based contexts.
- Moved the multiplication of the transmittance out when calculating the
sun color, because calling the `sample_sun_illuminance` function was
causing issues in web. Overall this results in cleaner code and more
readable.
## Testing
- Tested by building a wasm target and loading it in a web page with
Vite dev server using `mate-h/bevy-webgpu` repo template.
- Tested the native build with `cargo run --example atmosphere` to
ensure it still works with dual source blending.
---
## Showcase
Screenshots show the atmosphere example running in two different
contexts:
<img width="1281" alt="atmosphere-web-showcase"
src="https://github.com/user-attachments/assets/40b1ee91-89ae-41a6-8189-89630d1ca1a6"
/>
---------
Co-authored-by: JMS55 <47158642+JMS55@users.noreply.github.com>
## Objective
The `MotionBlur` component exposes renderer internals. Users shouldn't
have to deal with this.
```rust
MotionBlur {
shutter_angle: 1.0,
samples: 2,
#[cfg(all(feature = "webgl2", target_arch = "wasm32", not(feature = "webgpu")))]
_webgl2_padding: Default::default(),
},
```
## Solution
The renderer now uses a separate `MotionBlurUniform` struct for its
internals. `MotionBlur` no longer needs padding.
I was a bit unsure about the name `MotionBlurUniform`. Other modules use
a mix of `Uniform` and `Uniforms`.
## Testing
```
cargo run --example motion_blur
```
Tested on Win10/Nvidia across Vulkan, WebGL/Chrome, WebGPU/Chrome.
# Objective
- Fixes#18690
- Closes [#2065](https://github.com/bevyengine/bevy-website/pull/2065)
- Alternative to #18691
The changes to the Hash made in #15801 to the
[BuildHasher](https://doc.rust-lang.org/std/hash/trait.BuildHasher.html)
resulted in serious migration problems and downgraded UX for users of
Bevy's re-exported hashmaps. Once merged, we need to go in and remove
the migration guide added as part of #15801.
## Solution
- Newtype `HashMap` and `HashSet` instead of type aliases
- Added `Deref/Mut` to allow accessing future `hashbrown` methods
without maintenance from Bevy
- Added bidirectional `From` implementations to provide escape hatch for
API incompatibility
- Added inlinable re-exports of all methods directly to Bevy's types.
This ensures `HashMap::new()` works (since the `Deref` implementation
wont cover these kinds of invocations).
## Testing
- CI
---
## Migration Guide
- If you relied on Bevy's `HashMap` and/or `HashSet` types to be
identical to `hashbrown`, consider using `From` and `Into` to convert
between the `hashbrown` and Bevy types as required.
- If you relied on `hashbrown/serde` or `hashbrown/rayon` features, you
may need to enable `bevy_platform_support/serialize` and/or
`bevy_platform_support/rayon` respectively.
---
## Notes
- Did not replicate the Rayon traits, users will need to rely on the
`Deref/Mut` or `From` implementations for those methods.
- Did not re-expose the `unsafe` methods from `hashbrown`. In most cases
users will still have access via `Deref/Mut` anyway.
- I have added `inline` to all methods as they are trivial wrappings of
existing methods.
- I chose to make `HashMap::new` and `HashSet::new` const, which is
different to `hashbrown`. We can do this because we default to a
fixed-state build-hasher. Mild ergonomic win over using
`HashMap::with_hasher(FixedHasher)`.
## Objective
Fix #18714.
## Solution
Make sure `SkinUniforms::prev_buffer` is resized at the same time as
`current_buffer`.
There will be a one frame visual glitch when the buffers are resized,
since `prev_buffer` is incorrectly initialised with the current joint
transforms.
Note that #18074 includes the same fix. I'm assuming this smaller PR
will land first.
## Testing
See repro instructions in #18714. Tested on `animated_mesh`,
`many_foxes`, `custom_skinned_mesh`, Win10/Nvidia with Vulkan,
WebGL/Chrome, WebGPU/Chrome.
