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https://github.com/bevyengine/bevy
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220 commits
Author | SHA1 | Message | Date | |
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Doonv
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dc9b486650
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Change light defaults & fix light examples (#11581)
# Objective Fix https://github.com/bevyengine/bevy/issues/11577. ## Solution Fix the examples, add a few constants to make setting light values easier, and change the default lighting settings to be more realistic. (Now designed for an overcast day instead of an indoor environment) --- I did not include any example-related changes in here. ## Changelogs (not including breaking changes) ### bevy_pbr - Added `light_consts` module (included in prelude), which contains common lux and lumen values for lights. - Added `AmbientLight::NONE` constant, which is an ambient light with a brightness of 0. - Added non-EV100 variants for `ExposureSettings`'s EV100 constants, which allow easier construction of an `ExposureSettings` from a EV100 constant. ## Breaking changes ### bevy_pbr The several default lighting values were changed: - `PointLight`'s default `intensity` is now `2000.0` - `SpotLight`'s default `intensity` is now `2000.0` - `DirectionalLight`'s default `illuminance` is now `light_consts::lux::OVERCAST_DAY` (`1000.`) - `AmbientLight`'s default `brightness` is now `20.0` |
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Félix Lescaudey de Maneville
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e0c296ee14
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Optional ImageScaleMode (#11780)
> Follow up to #11600 and #10588 @mockersf expressed some [valid concerns](https://github.com/bevyengine/bevy/pull/11600#issuecomment-1932796498) about the current system this PR attempts to fix: The `ComputedTextureSlices` reacts to asset change in both `bevy_sprite` and `bevy_ui`, meaning that if the `ImageScaleMode` is inserted by default in the bundles, we will iterate through most 2d items every time an asset is updated. # Solution - `ImageScaleMode` only has two variants: `Sliced` and `Tiled`. I removed the `Stretched` default - `ImageScaleMode` is no longer part of any bundle, but the relevant bundles explain that this additional component can be inserted This way, the *absence* of `ImageScaleMode` means the image will be stretched, and its *presence* will include the entity to the various slicing systems Optional components in bundles would make this more straigthfoward # Additional work Should I add new bundles with the `ImageScaleMode` component ? |
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Joona Aalto
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0166db33f7
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Deprecate shapes in bevy_render::mesh::shape (#11773)
# Objective #11431 and #11688 implemented meshing support for Bevy's new geometric primitives. The next step is to deprecate the shapes in `bevy_render::mesh::shape` and to later remove them completely for 0.14. ## Solution Deprecate the shapes and reduce code duplication by utilizing the primitive meshing API for the old shapes where possible. Note that some shapes have behavior that can't be exactly reproduced with the new primitives yet: - `Box` is more of an AABB with min/max extents - `Plane` supports a subdivision count - `Quad` has a `flipped` property These types have not been changed to utilize the new primitives yet. --- ## Changelog - Deprecated all shapes in `bevy_render::mesh::shape` - Changed all examples to use new primitives for meshing ## Migration Guide Bevy has previously used rendering-specific types like `UVSphere` and `Quad` for primitive mesh shapes. These have now been deprecated to use the geometric primitives newly introduced in version 0.13. Some examples: ```rust let before = meshes.add(shape::Box::new(5.0, 0.15, 5.0)); let after = meshes.add(Cuboid::new(5.0, 0.15, 5.0)); let before = meshes.add(shape::Quad::default()); let after = meshes.add(Rectangle::default()); let before = meshes.add(shape::Plane::from_size(5.0)); // The surface normal can now also be specified when using `new` let after = meshes.add(Plane3d::default().mesh().size(5.0, 5.0)); let before = meshes.add( Mesh::try_from(shape::Icosphere { radius: 0.5, subdivisions: 5, }) .unwrap(), ); let after = meshes.add(Sphere::new(0.5).mesh().ico(5).unwrap()); ``` |
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Félix Lescaudey de Maneville
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ab16f5ed6a
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UI Texture 9 slice (#11600)
> Follow up to #10588 > Closes #11749 (Supersedes #11756) Enable Texture slicing for the following UI nodes: - `ImageBundle` - `ButtonBundle` <img width="739" alt="Screenshot 2024-01-29 at 13 57 43" src="https://github.com/bevyengine/bevy/assets/26703856/37675681-74eb-4689-ab42-024310cf3134"> I also added a collection of `fantazy-ui-borders` from [Kenney's](www.kenney.nl) assets, with the appropriate license (CC). If it's a problem I can use the same textures as the `sprite_slice` example # Work done Added the `ImageScaleMode` component to the targetted bundles, most of the logic is directly reused from `bevy_sprite`. The only additional internal component is the UI specific `ComputedSlices`, which does the same thing as its spritee equivalent but adapted to UI code. Again the slicing is not compatible with `TextureAtlas`, it's something I need to tackle more deeply in the future # Fixes * [x] I noticed that `TextureSlicer::compute_slices` could infinitely loop if the border was larger that the image half extents, now an error is triggered and the texture will fallback to being stretched * [x] I noticed that when using small textures with very small *tiling* options we could generate hundred of thousands of slices. Now I set a minimum size of 1 pixel per slice, which is already ridiculously small, and a warning will be sent at runtime when slice count goes above 1000 * [x] Sprite slicing with `flip_x` or `flip_y` would give incorrect results, correct flipping is now supported to both sprites and ui image nodes thanks to @odecay observation # GPU Alternative I create a separate branch attempting to implementing 9 slicing and tiling directly through the `ui.wgsl` fragment shader. It works but requires sending more data to the GPU: - slice border - tiling factors And more importantly, the actual quad *scale* which is hard to put in the shader with the current code, so that would be for a later iteration |
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Zachary Harrold
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1974723a63
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Deprecated Various Component Methods from Query and QueryState (#9920)
# Objective - (Partially) Fixes #9904 - Acts on #9910 ## Solution - Deprecated the relevant methods from `Query`, cascading changes as required across Bevy. --- ## Changelog - Deprecated `QueryState::get_component_unchecked_mut` method - Deprecated `Query::get_component` method - Deprecated `Query::get_component_mut` method - Deprecated `Query::component` method - Deprecated `Query::component_mut` method - Deprecated `Query::get_component_unchecked_mut` method ## Migration Guide ### `QueryState::get_component_unchecked_mut` Use `QueryState::get_unchecked_manual` and select for the exact component based on the structure of the exact query as required. ### `Query::(get_)component(_unchecked)(_mut)` Use `Query::get` and select for the exact component based on the structure of the exact query as required. - For mutable access (`_mut`), use `Query::get_mut` - For unchecked access (`_unchecked`), use `Query::get_unchecked` - For panic variants (non-`get_`), add `.unwrap()` ## Notes - `QueryComponentError` can be removed once these deprecated methods are also removed. Due to an interaction with `thiserror`'s derive macro, it is not marked as deprecated. |
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Rob Parrett
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bcbab18f37
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Fix panic in examples using argh on the web (#11513)
# Objective Fixes #11503 ## Solution Use an empty set of args on the web. ## Discussion Maybe in the future we could wrap this so that we can use query args on the web or something, but this was the minimum changeset I could think of to keep the functionality and make them not panic on the web. |
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LeshaInc
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320ac65a9e
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Replace DiagnosticId by DiagnosticPath (#9266)
# Objective Implements #9216 ## Solution - Replace `DiagnosticId` by `DiagnosticPath`. It's pre-hashed using `const-fnv1a-hash` crate, so it's possible to create path in const contexts. --- ## Changelog - Replaced `DiagnosticId` by `DiagnosticPath` - Set default history length to 120 measurements (2 seconds on 60 fps). I've noticed hardcoded constant 20 everywhere and decided to change it to `DEFAULT_MAX_HISTORY_LENGTH` , which is set to new diagnostics by default. To override it, use `with_max_history_length`. ## Migration Guide ```diff - const UNIQUE_DIAG_ID: DiagnosticId = DiagnosticId::from_u128(42); + const UNIQUE_DIAG_PATH: DiagnosticPath = DiagnosticPath::const_new("foo/bar"); - Diagnostic::new(UNIQUE_DIAG_ID, "example", 10) + Diagnostic::new(UNIQUE_DIAG_PATH).with_max_history_length(10) - diagnostics.add_measurement(UNIQUE_DIAG_ID, || 42); + diagnostics.add_measurement(&UNIQUE_DIAG_ID, || 42); ``` |
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GitGhillie
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9abf565138
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Restore brightness in the remaining three examples after exposure PR (#11389)
# Objective Fixes #11376 During the development of the exposure settings PR (#11347) all examples with lighting had to be adjusted, but three were missed or simply didn't exist yet at the time. This PR restores the brightness in those examples again: render_ui_to_texture asset_loading hot_asset_reloading All of them are a bit brighter now compared to before the exposure PR, but it looks better IMO. |
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Félix Lescaudey de Maneville
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135c7240f1
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Texture Atlas rework (#5103)
# Objective > Old MR: #5072 > ~~Associated UI MR: #5070~~ > Adresses #1618 Unify sprite management ## Solution - Remove the `Handle<Image>` field in `TextureAtlas` which is the main cause for all the boilerplate - Remove the redundant `TextureAtlasSprite` component - Renamed `TextureAtlas` asset to `TextureAtlasLayout` ([suggestion](https://github.com/bevyengine/bevy/pull/5103#discussion_r917281844)) - Add a `TextureAtlas` component, containing the atlas layout handle and the section index The difference between this solution and #5072 is that instead of the `enum` approach is that we can more easily manipulate texture sheets without any breaking changes for classic `SpriteBundle`s (@mockersf [comment](https://github.com/bevyengine/bevy/pull/5072#issuecomment-1165836139)) Also, this approach is more *data oriented* extracting the `Handle<Image>` and avoiding complex texture atlas manipulations to retrieve the texture in both applicative and engine code. With this method, the only difference between a `SpriteBundle` and a `SpriteSheetBundle` is an **additional** component storing the atlas handle and the index. ~~This solution can be applied to `bevy_ui` as well (see #5070).~~ EDIT: I also applied this solution to Bevy UI ## Changelog - (**BREAKING**) Removed `TextureAtlasSprite` - (**BREAKING**) Renamed `TextureAtlas` to `TextureAtlasLayout` - (**BREAKING**) `SpriteSheetBundle`: - Uses a `Sprite` instead of a `TextureAtlasSprite` component - Has a `texture` field containing a `Handle<Image>` like the `SpriteBundle` - Has a new `TextureAtlas` component instead of a `Handle<TextureAtlasLayout>` - (**BREAKING**) `DynamicTextureAtlasBuilder::add_texture` takes an additional `&Handle<Image>` parameter - (**BREAKING**) `TextureAtlasLayout::from_grid` no longer takes a `Handle<Image>` parameter - (**BREAKING**) `TextureAtlasBuilder::finish` now returns a `Result<(TextureAtlasLayout, Handle<Image>), _>` - `bevy_text`: - `GlyphAtlasInfo` stores the texture `Handle<Image>` - `FontAtlas` stores the texture `Handle<Image>` - `bevy_ui`: - (**BREAKING**) Removed `UiAtlasImage` , the atlas bundle is now identical to the `ImageBundle` with an additional `TextureAtlas` ## Migration Guide * Sprites ```diff fn my_system( mut images: ResMut<Assets<Image>>, - mut atlases: ResMut<Assets<TextureAtlas>>, + mut atlases: ResMut<Assets<TextureAtlasLayout>>, asset_server: Res<AssetServer> ) { let texture_handle: asset_server.load("my_texture.png"); - let layout = TextureAtlas::from_grid(texture_handle, Vec2::new(25.0, 25.0), 5, 5, None, None); + let layout = TextureAtlasLayout::from_grid(Vec2::new(25.0, 25.0), 5, 5, None, None); let layout_handle = atlases.add(layout); commands.spawn(SpriteSheetBundle { - sprite: TextureAtlasSprite::new(0), - texture_atlas: atlas_handle, + atlas: TextureAtlas { + layout: layout_handle, + index: 0 + }, + texture: texture_handle, ..Default::default() }); } ``` * UI ```diff fn my_system( mut images: ResMut<Assets<Image>>, - mut atlases: ResMut<Assets<TextureAtlas>>, + mut atlases: ResMut<Assets<TextureAtlasLayout>>, asset_server: Res<AssetServer> ) { let texture_handle: asset_server.load("my_texture.png"); - let layout = TextureAtlas::from_grid(texture_handle, Vec2::new(25.0, 25.0), 5, 5, None, None); + let layout = TextureAtlasLayout::from_grid(Vec2::new(25.0, 25.0), 5, 5, None, None); let layout_handle = atlases.add(layout); commands.spawn(AtlasImageBundle { - texture_atlas_image: UiTextureAtlasImage { - index: 0, - flip_x: false, - flip_y: false, - }, - texture_atlas: atlas_handle, + atlas: TextureAtlas { + layout: layout_handle, + index: 0 + }, + image: UiImage { + texture: texture_handle, + flip_x: false, + flip_y: false, + }, ..Default::default() }); } ``` --------- Co-authored-by: Alice Cecile <alice.i.cecile@gmail.com> Co-authored-by: François <mockersf@gmail.com> Co-authored-by: IceSentry <IceSentry@users.noreply.github.com> |
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Roman Salnikov
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eb9db21113
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Camera-driven UI (#10559)
# Objective Add support for presenting each UI tree on a specific window and viewport, while making as few breaking changes as possible. This PR is meant to resolve the following issues at once, since they're all related. - Fixes #5622 - Fixes #5570 - Fixes #5621 Adopted #5892 , but started over since the current codebase diverged significantly from the original PR branch. Also, I made a decision to propagate component to children instead of recursively iterating over nodes in search for the root. ## Solution Add a new optional component that can be inserted to UI root nodes and propagate to children to specify which camera it should render onto. This is then used to get the render target and the viewport for that UI tree. Since this component is optional, the default behavior should be to render onto the single camera (if only one exist) and warn of ambiguity if multiple cameras exist. This reduces the complexity for users with just one camera, while giving control in contexts where it matters. ## Changelog - Adds `TargetCamera(Entity)` component to specify which camera should a node tree be rendered into. If only one camera exists, this component is optional. - Adds an example of rendering UI to a texture and using it as a material in a 3D world. - Fixes recalculation of physical viewport size when target scale factor changes. This can happen when the window is moved between displays with different DPI. - Changes examples to demonstrate assigning UI to different viewports and windows and make interactions in an offset viewport testable. - Removes `UiCameraConfig`. UI visibility now can be controlled via combination of explicit `TargetCamera` and `Visibility` on the root nodes. --------- Co-authored-by: davier <bricedavier@gmail.com> Co-authored-by: Alice Cecile <alice.i.cecile@gmail.com> Co-authored-by: Alice Cecile <alice.i.cecil@gmail.com> |
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irate
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ec14e946b8
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Update glam , encase and hexasphere (#11082)
Update to `glam` 0.25, `encase` 0.7 and `hexasphere` to 10.0 ## Changelog Added the `FloatExt` trait to the `bevy_math` prelude which adds `lerp`, `inverse_lerp` and `remap` methods to the `f32` and `f64` types. |
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Thierry Berger
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ced216f59a
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Update winit dependency to 0.29 (#10702)
# Objective - Update winit dependency to 0.29 ## Changelog ### KeyCode changes - Removed `ScanCode`, as it was [replaced by KeyCode](https://github.com/rust-windowing/winit/blob/master/CHANGELOG.md#0292). - `ReceivedCharacter.char` is now a `SmolStr`, [relevant doc](https://docs.rs/winit/latest/winit/event/struct.KeyEvent.html#structfield.text). - Changed most `KeyCode` values, and added more. KeyCode has changed meaning. With this PR, it refers to physical position on keyboard rather than the printed letter on keyboard keys. In practice this means: - On QWERTY keyboard layouts, nothing changes - On any other keyboard layout, `KeyCode` no longer reflects the label on key. - This is "good". In bevy 0.12, when you used WASD for movement, users with non-QWERTY keyboards couldn't play your game! This was especially bad for non-latin keyboards. Now, WASD represents the physical keys. A French player will press the ZQSD keys, which are near each other, Kyrgyz players will use "Цфыв". - This is "bad" as well. You can't know in advance what the label of the key for input is. Your UI says "press WASD to move", even if in reality, they should be pressing "ZQSD" or "Цфыв". You also no longer can use `KeyCode` for text inputs. In any case, it was a pretty bad API for text input. You should use `ReceivedCharacter` now instead. ### Other changes - Use `web-time` rather than `instant` crate. (https://github.com/rust-windowing/winit/pull/2836) - winit did split `run_return` in `run_onDemand` and `pump_events`, I did the same change in bevy_winit and used `pump_events`. - Removed `return_from_run` from `WinitSettings` as `winit::run` now returns on supported platforms. - I left the example "return_after_run" as I think it's still useful. - This winit change is done partly to allow to create a new window after quitting all windows: https://github.com/emilk/egui/issues/1918 ; this PR doesn't address. - added `width` and `height` properties in the `canvas` from wasm example (https://github.com/bevyengine/bevy/pull/10702#discussion_r1420567168) ## Known regressions (important follow ups?) - Provide an API for reacting when a specific key from current layout was released. - possible solutions: use winit::Key from winit::KeyEvent ; mapping between KeyCode and Key ; or . - We don't receive characters through alt+numpad (e.g. alt + 151 = "ù") anymore ; reproduced on winit example "ime". maybe related to https://github.com/rust-windowing/winit/issues/2945 - (windows) Window content doesn't refresh at all when resizing. By reading https://github.com/rust-windowing/winit/issues/2900 ; I suspect we should just fire a `window.request_redraw();` from `AboutToWait`, and handle actual redrawing within `RedrawRequested`. I'm not sure how to move all that code so I'd appreciate it to be a follow up. - (windows) unreleased winit fix for using set_control_flow in AboutToWait https://github.com/rust-windowing/winit/issues/3215 ; ⚠️ I'm not sure what the implications are, but that feels bad 🤔 ## Follow up I'd like to avoid bloating this PR, here are a few follow up tasks worthy of a separate PR, or new issue to track them once this PR is closed, as they would either complicate reviews, or at risk of being controversial: - remove CanvasParentResizePlugin (https://github.com/bevyengine/bevy/pull/10702#discussion_r1417068856) - avoid mentionning explicitly winit in docs from bevy_window ? - NamedKey integration on bevy_input: https://github.com/rust-windowing/winit/pull/3143 introduced a new NamedKey variant. I implemented it only on the converters but we'd benefit making the same changes to bevy_input. - Add more info in KeyboardInput https://github.com/bevyengine/bevy/pull/10702#pullrequestreview-1748336313 - https://github.com/bevyengine/bevy/pull/9905 added a workaround on a bug allegedly fixed by winit 0.29. We should check if it's still necessary. - update to raw_window_handle 0.6 - blocked by wgpu - Rename `KeyCode` to `PhysicalKeyCode` https://github.com/bevyengine/bevy/pull/10702#discussion_r1404595015 - remove `instant` dependency, [replaced by](https://github.com/rust-windowing/winit/pull/2836) `web_time`), we'd need to update to : - fastrand >= 2.0 - [`async-executor`](https://github.com/smol-rs/async-executor) >= 1.7 - [`futures-lite`](https://github.com/smol-rs/futures-lite) >= 2.0 - Verify license, see [discussion](https://github.com/bevyengine/bevy/pull/8745#discussion_r1402439800) - we might be missing a short notice or description of changes made - Consider using https://github.com/rust-windowing/cursor-icon directly rather than vendoring it in bevy. - investigate [this unwrap](https://github.com/bevyengine/bevy/pull/8745#discussion_r1387044986) (`winit_window.canvas().unwrap();`) - Use more good things about winit's update - https://github.com/bevyengine/bevy/pull/10689#issuecomment-1823560428 ## Migration Guide This PR should have one. |
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Tygyh
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720d6dab82
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Change Window scale factor to f32 (adopted) (#10897)
# Objective - Finish the work done in #8942 . ## Solution - Rebase the changes made in #8942 and fix the issues stopping it from being merged earlier --------- Co-authored-by: Thomas <1234328+thmsgntz@users.noreply.github.com> |
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Mateusz Wachowiak
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1f97717a3d
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Rename Input to ButtonInput (#10859)
# Objective - Resolves #10853 ## Solution - ~~Changed the name of `Input` struct to `PressableInput`.~~ - Changed the name of `Input` struct to `ButtonInput`. ## Migration Guide - Breaking Change: Users need to rename `Input` to `ButtonInput` in their projects. |
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akimakinai
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f90248b052
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Remove unnecessary ResMut in examples (#10879)
# Objective - Examples containing `ResMut`s that are never mutated can be confusing for readers. ## Solution - Changes them to `Res`. |
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ickshonpe
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166686e0f2
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Rename TextAlignment to JustifyText . (#10854)
# Objective The name `TextAlignment` is really deceptive and almost every new user gets confused about the differences between aligning text with `TextAlignment`, aligning text with `Style` and aligning text with anchor (when using `Text2d`). ## Solution * Rename `TextAlignment` to `JustifyText`. The associated helper methods are also renamed. * Improve the doc comments for text explaining explicitly how the `JustifyText` component affects the arrangement of text. * Add some extra cases to the `text_debug` example that demonstate the differences between alignment using `JustifyText` and alignment using `Style`. <img width="757" alt="text_debug_2" src="https://github.com/bevyengine/bevy/assets/27962798/9d53e647-93f9-4bc7-8a20-0d9f783304d2"> --- ## Changelog * `TextAlignment` has been renamed to `JustifyText` * `TextBundle::with_text_alignment` has been renamed to `TextBundle::with_text_justify` * `Text::with_alignment` has been renamed to `Text::with_justify` * The `text_alignment` field of `TextMeasureInfo` has been renamed to `justification` ## Migration Guide * `TextAlignment` has been renamed to `JustifyText` * `TextBundle::with_text_alignment` has been renamed to `TextBundle::with_text_justify` * `Text::with_alignment` has been renamed to `Text::with_justify` * The `text_alignment` field of `TextMeasureInfo` has been renamed to `justification` |
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ickshonpe
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bca057d7ec
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Make clipped areas of UI nodes non-interactive (#10454)
# Objective Problems: * The clipped, non-visible regions of UI nodes are interactive. * `RelativeCursorPostion` is set relative to the visible part of the node. It should be relative to the whole node. * The `RelativeCursorPostion::mouse_over` method returns `true` when the mouse is over a clipped part of a node. fixes #10470 ## Solution Intersect a node's bounding rect with its clipping rect before checking if it contains the cursor. Added the field `normalized_visible_node_rect` to `RelativeCursorPosition`. This is set to the bounds of the unclipped area of the node rect by `ui_focus_system` expressed in normalized coordinates relative to the entire node. Instead of checking if the normalized cursor position lies within a unit square, it instead checks if it is contained by `normalized_visible_node_rect`. Added outlines to the `overflow` example that appear when the cursor is over the visible part of the images, but not the clipped area. --- ## Changelog * `ui_focus_system` intersects a node's bounding rect with its clipping rect before checking if mouse over. * Added the field `normalized_visible_node_rect` to `RelativeCursorPosition`. This is set to the bounds of the unclipped area of the node rect by `ui_focus_system` expressed in normalized coordinates relative to the entire node. * `RelativeCursorPostion` is calculated relative to the whole node's position and size, not only the visible part. * `RelativeCursorPosition::mouse_over` only returns true when the mouse is over an unclipped region of the UI node. * Removed the `Deref` and `DerefMut` derives from `RelativeCursorPosition` as it is no longer a single field struct. * Added some outlines to the `overflow` example that respond to `Interaction` changes. ## Migration Guide The clipped areas of UI nodes are no longer interactive. `RelativeCursorPostion` is now calculated relative to the whole node's position and size, not only the visible part. Its `mouse_over` method only returns true when the cursor is over an unclipped part of the node. `RelativeCursorPosition` no longer implements `Deref` and `DerefMut`. |
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Ame
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951c9bb1a2
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Add [lints] table, fix adding #![allow(clippy::type_complexity)] everywhere (#10011)
# Objective - Fix adding `#![allow(clippy::type_complexity)]` everywhere. like #9796 ## Solution - Use the new [lints] table that will land in 1.74 (https://doc.rust-lang.org/nightly/cargo/reference/unstable.html#lints) - inherit lint to the workspace, crates and examples. ``` [lints] workspace = true ``` ## Changelog - Bump rust version to 1.74 - Enable lints table for the workspace ```toml [workspace.lints.clippy] type_complexity = "allow" ``` - Allow type complexity for all crates and examples ```toml [lints] workspace = true ``` --------- Co-authored-by: Martín Maita <47983254+mnmaita@users.noreply.github.com> |
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st0rmbtw
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cbcd826612
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Explicit color conversion methods (#10321)
# Objective Closes #10319 ## Changelog * Added a new `Color::rgba_from_array([f32; 4]) -> Color` method. * Added a new `Color::rgb_from_array([f32; 3]) -> Color` method. * Added a new `Color::rgba_linear_from_array([f32; 4]) -> Color` method. * Added a new `Color::rgb_linear_from_array([f32; 3]) -> Color` method. * Added a new `Color::hsla_from_array([f32; 4]) -> Color` method. * Added a new `Color::hsl_from_array([f32; 3]) -> Color` method. * Added a new `Color::lcha_from_array([f32; 4]) -> Color` method. * Added a new `Color::lch_from_array([f32; 3]) -> Color` method. * Added a new `Color::rgba_to_vec4(&self) -> Vec4` method. * Added a new `Color::rgba_to_array(&self) -> [f32; 4]` method. * Added a new `Color::rgb_to_vec3(&self) -> Vec3` method. * Added a new `Color::rgb_to_array(&self) -> [f32; 3]` method. * Added a new `Color::rgba_linear_to_vec4(&self) -> Vec4` method. * Added a new `Color::rgba_linear_to_array(&self) -> [f32; 4]` method. * Added a new `Color::rgb_linear_to_vec3(&self) -> Vec3` method. * Added a new `Color::rgb_linear_to_array(&self) -> [f32; 3]` method. * Added a new `Color::hsla_to_vec4(&self) -> Vec4` method. * Added a new `Color::hsla_to_array(&self) -> [f32; 4]` method. * Added a new `Color::hsl_to_vec3(&self) -> Vec3` method. * Added a new `Color::hsl_to_array(&self) -> [f32; 3]` method. * Added a new `Color::lcha_to_vec4(&self) -> Vec4` method. * Added a new `Color::lcha_to_array(&self) -> [f32; 4]` method. * Added a new `Color::lch_to_vec3(&self) -> Vec3` method. * Added a new `Color::lch_to_array(&self) -> [f32; 3]` method. ## Migration Guide `Color::from(Vec4)` is now `Color::rgba_from_array(impl Into<[f32; 4]>)` `Vec4::from(Color)` is now `Color::rgba_to_vec4(&self)` Before: ```rust let color_vec4 = Vec4::new(0.5, 0.5, 0.5); let color_from_vec4 = Color::from(color_vec4); let color_array = [0.5, 0.5, 0.5]; let color_from_array = Color::from(color_array); ``` After: ```rust let color_vec4 = Vec4::new(0.5, 0.5, 0.5); let color_from_vec4 = Color::rgba_from_array(color_vec4); let color_array = [0.5, 0.5, 0.5]; let color_from_array = Color::rgba_from_array(color_array); ``` |
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mamekoro
|
18d001d27c
|
Rename Timer::{percent,percent_left} to Timer::{fraction,fraction_remaining} (#10442)
# Objective Fixes #10439 `Timer::percent()` and `Timer::percent_left()` return values in the range of 0.0 to 1.0, even though their names contain "percent". These functions should be renamed for clarity. ## Solution - Rename `Timer::percent()` to `Timer::fraction()` - Rename `Timer::percent_left()` to `Timer::fraction_remaining()` --- ## Changelog ### Changed - Renamed `Timer::percent()` to `Timer::fraction()` - Renamed `Timer::percent_left()` to `Timer::fraction_remaining()` ## Migration Guide - `Timer::percent()` has been renamed to `Timer::fraction()` - `Timer::percent_left()` has been renamed to `Timer::fraction_remaining()` |
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Guillaume Gomez
|
fe7e31ea76
|
Fix intra-doc link warnings (#10445)
When `cargo doc -Zunstable-options -Zrustdoc-scrape-examples` (trying to figure out why it doesn't work with bevy), I had the following warnings: ``` warning: unresolved link to `Quad` --> examples/2d/mesh2d.rs:1:66 | 1 | //! Shows how to render a polygonal [`Mesh`], generated from a [`Quad`] primitive, in a 2D scene. | ^^^^ no item named `Quad` in scope | = help: to escape `[` and `]` characters, add '\' before them like `\[` or `\]` = note: `#[warn(rustdoc::broken_intra_doc_links)]` on by default warning: `bevy` (example "mesh2d") generated 1 warning warning: unresolved link to `update_weights` --> examples/animation/morph_targets.rs:6:17 | 6 | //! See the [`update_weights`] system for details. | ^^^^^^^^^^^^^^ no item named `update_weights` in scope | = help: to escape `[` and `]` characters, add '\' before them like `\[` or `\]` = note: `#[warn(rustdoc::broken_intra_doc_links)]` on by default warning: public documentation for `morph_targets` links to private item `name_morphs` --> examples/animation/morph_targets.rs:7:43 | 7 | //! - How to read morph target names in [`name_morphs`]. | ^^^^^^^^^^^ this item is private | = note: this link will resolve properly if you pass `--document-private-items` = note: `#[warn(rustdoc::private_intra_doc_links)]` on by default warning: public documentation for `morph_targets` links to private item `setup_animations` --> examples/animation/morph_targets.rs:8:48 | 8 | //! - How to play morph target animations in [`setup_animations`]. | ^^^^^^^^^^^^^^^^ this item is private | = note: this link will resolve properly if you pass `--document-private-items` warning: `bevy` (example "morph_targets") generated 3 warnings warning: unresolved link to `Quad` --> examples/2d/mesh2d_vertex_color_texture.rs:1:66 | 1 | //! Shows how to render a polygonal [`Mesh`], generated from a [`Quad`] primitive, in a 2D scene. | ^^^^ no item named `Quad` in scope | = help: to escape `[` and `]` characters, add '\' before them like `\[` or `\]` = note: `#[warn(rustdoc::broken_intra_doc_links)]` on by default warning: `bevy` (example "mesh2d_vertex_color_texture") generated 1 warning warning: unresolved link to `UIScale` --> examples/ui/ui_scaling.rs:1:36 | 1 | //! This example illustrates the [`UIScale`] resource from `bevy_ui`. | ^^^^^^^ no item named `UIScale` in scope | = help: to escape `[` and `]` characters, add '\' before them like `\[` or `\]` = note: `#[warn(rustdoc::broken_intra_doc_links)]` on by default warning: `bevy` (example "ui_scaling") generated 1 warning warning: unresolved link to `dependencies` --> examples/app/headless.rs:5:6 | 5 | //! [dependencies] | ^^^^^^^^^^^^ no item named `dependencies` in scope | = help: to escape `[` and `]` characters, add '\' before them like `\[` or `\]` = note: `#[warn(rustdoc::broken_intra_doc_links)]` on by default warning: `bevy` (example "headless") generated 1 warning warning: unresolved link to `Material2d` --> examples/2d/mesh2d_manual.rs:3:26 | 3 | //! It doesn't use the [`Material2d`] abstraction, but changes the vertex buffer to include verte... | ^^^^^^^^^^ no item named `Material2d` in scope | = help: to escape `[` and `]` characters, add '\' before them like `\[` or `\]` = note: `#[warn(rustdoc::broken_intra_doc_links)]` on by default warning: `bevy` (example "mesh2d_manual") generated 1 warning ``` |
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Markus Ort
|
fd232ad360
|
Add UI Materials (#9506)
# Objective - Add Ui Materials so that UI can render more complex and animated widgets. - Fixes #5607 ## Solution - Create a UiMaterial trait for specifying a Shader Asset and Bind Group Layout/Data. - Create a pipeline for rendering these Materials inside the Ui layout/tree. - Create a MaterialNodeBundle for simple spawning. ## Changelog - Created a `UiMaterial` trait for specifying a Shader asset and Bind Group. - Created a `UiMaterialPipeline` for rendering said Materials. - Added Example [`ui_material` ](https://github.com/MarkusTheOrt/bevy/blob/ui_material/examples/ui/ui_material.rs) for example usage. - Created [`UiVertexOutput`](https://github.com/MarkusTheOrt/bevy/blob/ui_material/crates/bevy_ui/src/render/ui_vertex_output.wgsl) export as VertexData for shaders. - Created [`material_ui`](https://github.com/MarkusTheOrt/bevy/blob/ui_material/crates/bevy_ui/src/render/ui_material.wgsl) shader as default for both Vertex and Fragment shaders. --------- Co-authored-by: ickshonpe <david.curthoys@googlemail.com> Co-authored-by: François <mockersf@gmail.com> |
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Aevyrie
|
1918608b02
|
Update default ClearColor to better match Bevy's branding (#10339)
# Objective - Changes the default clear color to match the code block color on Bevy's website. ## Solution - Changed the clear color, updated text in examples to ensure adequate contrast. Inconsistent usage of white text color set to use the default color instead, which is already white. - Additionally, updated the `3d_scene` example to make it look a bit better, and use bevy's branding colors. ![image](https://github.com/bevyengine/bevy/assets/2632925/540a22c0-826c-4c33-89aa-34905e3e313a) |
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ickshonpe
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2e887b856f
|
UI node outlines (#9931)
# Objective Add support for drawing outlines outside the borders of UI nodes. ## Solution Add a new `Outline` component with `width`, `offset` and `color` fields. Added `outline_width` and `outline_offset` fields to `Node`. This is set after layout recomputation by the `resolve_outlines_system`. Properties of outlines: * Unlike borders, outlines have to be the same width on each edge. * Outlines do not occupy any space in the layout. * The `Outline` component won't be added to any of the UI node bundles, it needs to be inserted separately. * Outlines are drawn outside the node's border, so they are clipped using the clipping rect of their entity's parent UI node (if it exists). * `Val::Percent` outline widths are resolved based on the width of the outlined UI node. * The offset of the `Outline` adds space between an outline and the edge of its node. I was leaning towards adding an `outline` field to `Style` but a separate component seems more efficient for queries and change detection. The `Outline` component isn't added to bundles for the same reason. --- ## Examples * This image is from the `borders` example from the Bevy UI examples but modified to include outlines. The UI nodes are the dark red rectangles, the bright red rectangles are borders and the white lines offset from each node are the outlines. The yellow rectangles are separate nodes contained with the dark red nodes: <img width="406" alt="outlines" src="https://github.com/bevyengine/bevy/assets/27962798/4e6f315a-019f-42a4-94ee-cca8e684d64a"> * This is from the same example but using a branch that implements border-radius. Here the the outlines are in orange and there is no offset applied. I broke the borders implementation somehow during the merge, which is why some of the borders from the first screenshot are missing 😅. The outlines work nicely though (as long as you can forgive the lack of anti-aliasing): ![image](https://github.com/bevyengine/bevy/assets/27962798/d15560b6-6cd6-42e5-907b-56ccf2ad5e02) --- ## Notes As I explained above, I don't think the `Outline` component should be added to UI node bundles. We can have helper functions though, perhaps something as simple as: ```rust impl NodeBundle { pub fn with_outline(self, outline: Outline) -> (Self, Outline) { (self, outline) } } ``` I didn't include anything like this as I wanted to keep the PR's scope as narrow as possible. Maybe `with_outline` should be in a trait that we implement for each UI node bundle. --- ## Changelog Added support for outlines to Bevy UI. * The `Outline` component adds an outline to a UI node. * The `outline_width` field added to `Node` holds the resolved width of the outline, which is set by the `resolve_outlines_system` after layout recomputation. * Outlines are drawn by the system `extract_uinode_outlines`. |
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Bruce Mitchener
|
9a798aa100
|
Allow clippy::type_complexity in more places. (#9796)
# Objective - See fewer warnings when running `cargo clippy` locally. ## Solution - allow `clippy::type_complexity` in more places, which also signals to users they should do the same. |
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ickshonpe
|
418405046a
|
text_wrap_debug scale factor commandline args (#9951)
# Objective Add commandline arguments to `text_wrap_debug` to set the window and UI scale factors. |
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Rob Parrett
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7063c86ed4
|
Fix some typos (#9934)
# Objective To celebrate the turning of the seasons, I took a small walk through the codebase guided by the "[code spell checker](https://marketplace.visualstudio.com/items?itemName=streetsidesoftware.code-spell-checker)" VS Code extension and fixed a few typos. |
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Nico Burns
|
b995827013
|
Have a separate implicit viewport node per root node + make viewport node Display::Grid (#9637)
# Objective Make `bevy_ui` "root" nodes more intuitive to use/style by: - Removing the implicit flexbox styling (such as stretch alignment) that is applied to them, and replacing it with more intuitive CSS Grid styling (notably with stretch alignment disabled in both axes). - Making root nodes layout independently of each other. Instead of there being a single implicit "viewport" node that all root nodes are children of, there is now an implicit "viewport" node *per root node*. And layout of each tree is computed separately. ## Solution - Remove the global implicit viewport node, and instead create an implicit viewport node for each user-specified root node. - Keep track of both the user-specified root nodes and the implicit viewport nodes in a separate `Vec`. - Use the window's size as the `available_space` parameter to `Taffy.compute_layout` rather than setting it on the implicit viewport node (and set the viewport to `height: 100%; width: 100%` to make this "just work"). --- ## Changelog - Bevy UI now lays out root nodes independently of each other in separate layout contexts. - The implicit viewport node (which contains each user-specified root node) is now `Display::Grid` with `align_items` and `justify_items` both set to `Start`. ## Migration Guide - Bevy UI now lays out root nodes independently of each other in separate layout contexts. If you were relying on your root nodes being able to affect each other's layouts, then you may need to wrap them in a single root node. - The implicit viewport node (which contains each user-specified root node) is now `Display::Grid` with `align_items` and `justify_items` both set to `Start`. You may need to add `height: Val::Percent(100.)` to your root nodes if you were previously relying on being implicitly set. |
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Bruce Mitchener
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5eb6889832
|
examples: Remove unused doc comments. (#9795)
# Objective - Compile all targets without warnings about unused doc comments. ## Solution - Turn unused doc comments into regular comments. Doc comments aren't supported on expressions, so they can just be regular comments. |
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ickshonpe
|
625d386940
|
impl From<String> and From<&str> for TextSection (#8856)
# Objective Implement `From<String>` and `From<&str>` for `TextSection` Example from something I was working on earlier: ```rust parent.spawn(TextBundle::from_sections([ TextSection::new("press ".to_string(), TextStyle::default()), TextSection::new("space".to_string(), TextStyle { color: Color::YELLOW, ..default() }), TextSection::new(" to advance frames".to_string(), TextStyle::default()), ])); ``` After an `impl From<&str> for TextSection` : ```rust parent.spawn(TextBundle::from_sections([ "press ".into(), TextSection::new("space".to_string(), TextStyle { color: Color::YELLOW, ..default() }), " to advance frames".into(), ])); ``` * Potentially unhelpful without a default font, so behind the `default_font` feature. Co-authored-by: [hate](https://github.com/hate) --------- Co-authored-by: hate <15314665+hate@users.noreply.github.com> |
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Joseph
|
8eb6ccdd87
|
Remove useless single tuples and trailing commas (#9720)
# Objective Title |
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Carter Anderson
|
5eb292dc10
|
Bevy Asset V2 (#8624)
# Bevy Asset V2 Proposal ## Why Does Bevy Need A New Asset System? Asset pipelines are a central part of the gamedev process. Bevy's current asset system is missing a number of features that make it non-viable for many classes of gamedev. After plenty of discussions and [a long community feedback period](https://github.com/bevyengine/bevy/discussions/3972), we've identified a number missing features: * **Asset Preprocessing**: it should be possible to "preprocess" / "compile" / "crunch" assets at "development time" rather than when the game starts up. This enables offloading expensive work from deployed apps, faster asset loading, less runtime memory usage, etc. * **Per-Asset Loader Settings**: Individual assets cannot define their own loaders that override the defaults. Additionally, they cannot provide per-asset settings to their loaders. This is a huge limitation, as many asset types don't provide all information necessary for Bevy _inside_ the asset. For example, a raw PNG image says nothing about how it should be sampled (ex: linear vs nearest). * **Asset `.meta` files**: assets should have configuration files stored adjacent to the asset in question, which allows the user to configure asset-type-specific settings. These settings should be accessible during the pre-processing phase. Modifying a `.meta` file should trigger a re-processing / re-load of the asset. It should be possible to configure asset loaders from the meta file. * **Processed Asset Hot Reloading**: Changes to processed assets (or their dependencies) should result in re-processing them and re-loading the results in live Bevy Apps. * **Asset Dependency Tracking**: The current bevy_asset has no good way to wait for asset dependencies to load. It punts this as an exercise for consumers of the loader apis, which is unreasonable and error prone. There should be easy, ergonomic ways to wait for assets to load and block some logic on an asset's entire dependency tree loading. * **Runtime Asset Loading**: it should be (optionally) possible to load arbitrary assets dynamically at runtime. This necessitates being able to deploy and run the asset server alongside Bevy Apps on _all platforms_. For example, we should be able to invoke the shader compiler at runtime, stream scenes from sources like the internet, etc. To keep deployed binaries (and startup times) small, the runtime asset server configuration should be configurable with different settings compared to the "pre processor asset server". * **Multiple Backends**: It should be possible to load assets from arbitrary sources (filesystems, the internet, remote asset serves, etc). * **Asset Packing**: It should be possible to deploy assets in compressed "packs", which makes it easier and more efficient to distribute assets with Bevy Apps. * **Asset Handoff**: It should be possible to hold a "live" asset handle, which correlates to runtime data, without actually holding the asset in memory. Ex: it must be possible to hold a reference to a GPU mesh generated from a "mesh asset" without keeping the mesh data in CPU memory * **Per-Platform Processed Assets**: Different platforms and app distributions have different capabilities and requirements. Some platforms need lower asset resolutions or different asset formats to operate within the hardware constraints of the platform. It should be possible to define per-platform asset processing profiles. And it should be possible to deploy only the assets required for a given platform. These features have architectural implications that are significant enough to require a full rewrite. The current Bevy Asset implementation got us this far, but it can take us no farther. This PR defines a brand new asset system that implements most of these features, while laying the foundations for the remaining features to be built. ## Bevy Asset V2 Here is a quick overview of the features introduced in this PR. * **Asset Preprocessing**: Preprocess assets at development time into more efficient (and configurable) representations * **Dependency Aware**: Dependencies required to process an asset are tracked. If an asset's processed dependency changes, it will be reprocessed * **Hot Reprocessing/Reloading**: detect changes to asset source files, reprocess them if they have changed, and then hot-reload them in Bevy Apps. * **Only Process Changes**: Assets are only re-processed when their source file (or meta file) has changed. This uses hashing and timestamps to avoid processing assets that haven't changed. * **Transactional and Reliable**: Uses write-ahead logging (a technique commonly used by databases) to recover from crashes / forced-exits. Whenever possible it avoids full-reprocessing / only uncompleted transactions will be reprocessed. When the processor is running in parallel with a Bevy App, processor asset writes block Bevy App asset reads. Reading metadata + asset bytes is guaranteed to be transactional / correctly paired. * **Portable / Run anywhere / Database-free**: The processor does not rely on an in-memory database (although it uses some database techniques for reliability). This is important because pretty much all in-memory databases have unsupported platforms or build complications. * **Configure Processor Defaults Per File Type**: You can say "use this processor for all files of this type". * **Custom Processors**: The `Processor` trait is flexible and unopinionated. It can be implemented by downstream plugins. * **LoadAndSave Processors**: Most asset processing scenarios can be expressed as "run AssetLoader A, save the results using AssetSaver X, and then load the result using AssetLoader B". For example, load this png image using `PngImageLoader`, which produces an `Image` asset and then save it using `CompressedImageSaver` (which also produces an `Image` asset, but in a compressed format), which takes an `Image` asset as input. This means if you have an `AssetLoader` for an asset, you are already half way there! It also means that you can share AssetSavers across multiple loaders. Because `CompressedImageSaver` accepts Bevy's generic Image asset as input, it means you can also use it with some future `JpegImageLoader`. * **Loader and Saver Settings**: Asset Loaders and Savers can now define their own settings types, which are passed in as input when an asset is loaded / saved. Each asset can define its own settings. * **Asset `.meta` files**: configure asset loaders, their settings, enable/disable processing, and configure processor settings * **Runtime Asset Dependency Tracking** Runtime asset dependencies (ex: if an asset contains a `Handle<Image>`) are tracked by the asset server. An event is emitted when an asset and all of its dependencies have been loaded * **Unprocessed Asset Loading**: Assets do not require preprocessing. They can be loaded directly. A processed asset is just a "normal" asset with some extra metadata. Asset Loaders don't need to know or care about whether or not an asset was processed. * **Async Asset IO**: Asset readers/writers use async non-blocking interfaces. Note that because Rust doesn't yet support async traits, there is a bit of manual Boxing / Future boilerplate. This will hopefully be removed in the near future when Rust gets async traits. * **Pluggable Asset Readers and Writers**: Arbitrary asset source readers/writers are supported, both by the processor and the asset server. * **Better Asset Handles** * **Single Arc Tree**: Asset Handles now use a single arc tree that represents the lifetime of the asset. This makes their implementation simpler, more efficient, and allows us to cheaply attach metadata to handles. Ex: the AssetPath of a handle is now directly accessible on the handle itself! * **Const Typed Handles**: typed handles can be constructed in a const context. No more weird "const untyped converted to typed at runtime" patterns! * **Handles and Ids are Smaller / Faster To Hash / Compare**: Typed `Handle<T>` is now much smaller in memory and `AssetId<T>` is even smaller. * **Weak Handle Usage Reduction**: In general Handles are now considered to be "strong". Bevy features that previously used "weak `Handle<T>`" have been ported to `AssetId<T>`, which makes it statically clear that the features do not hold strong handles (while retaining strong type information). Currently Handle::Weak still exists, but it is very possible that we can remove that entirely. * **Efficient / Dense Asset Ids**: Assets now have efficient dense runtime asset ids, which means we can avoid expensive hash lookups. Assets are stored in Vecs instead of HashMaps. There are now typed and untyped ids, which means we no longer need to store dynamic type information in the ID for typed handles. "AssetPathId" (which was a nightmare from a performance and correctness standpoint) has been entirely removed in favor of dense ids (which are retrieved for a path on load) * **Direct Asset Loading, with Dependency Tracking**: Assets that are defined at runtime can still have their dependencies tracked by the Asset Server (ex: if you create a material at runtime, you can still wait for its textures to load). This is accomplished via the (currently optional) "asset dependency visitor" trait. This system can also be used to define a set of assets to load, then wait for those assets to load. * **Async folder loading**: Folder loading also uses this system and immediately returns a handle to the LoadedFolder asset, which means folder loading no longer blocks on directory traversals. * **Improved Loader Interface**: Loaders now have a specific "top level asset type", which makes returning the top-level asset simpler and statically typed. * **Basic Image Settings and Processing**: Image assets can now be processed into the gpu-friendly Basic Universal format. The ImageLoader now has a setting to define what format the image should be loaded as. Note that this is just a minimal MVP ... plenty of additional work to do here. To demo this, enable the `basis-universal` feature and turn on asset processing. * **Simpler Audio Play / AudioSink API**: Asset handle providers are cloneable, which means the Audio resource can mint its own handles. This means you can now do `let sink_handle = audio.play(music)` instead of `let sink_handle = audio_sinks.get_handle(audio.play(music))`. Note that this might still be replaced by https://github.com/bevyengine/bevy/pull/8424. **Removed Handle Casting From Engine Features**: Ex: FontAtlases no longer use casting between handle types ## Using The New Asset System ### Normal Unprocessed Asset Loading By default the `AssetPlugin` does not use processing. It behaves pretty much the same way as the old system. If you are defining a custom asset, first derive `Asset`: ```rust #[derive(Asset)] struct Thing { value: String, } ``` Initialize the asset: ```rust app.init_asset:<Thing>() ``` Implement a new `AssetLoader` for it: ```rust #[derive(Default)] struct ThingLoader; #[derive(Serialize, Deserialize, Default)] pub struct ThingSettings { some_setting: bool, } impl AssetLoader for ThingLoader { type Asset = Thing; type Settings = ThingSettings; fn load<'a>( &'a self, reader: &'a mut Reader, settings: &'a ThingSettings, load_context: &'a mut LoadContext, ) -> BoxedFuture<'a, Result<Thing, anyhow::Error>> { Box::pin(async move { let mut bytes = Vec::new(); reader.read_to_end(&mut bytes).await?; // convert bytes to value somehow Ok(Thing { value }) }) } fn extensions(&self) -> &[&str] { &["thing"] } } ``` Note that this interface will get much cleaner once Rust gets support for async traits. `Reader` is an async futures_io::AsyncRead. You can stream bytes as they come in or read them all into a `Vec<u8>`, depending on the context. You can use `let handle = load_context.load(path)` to kick off a dependency load, retrieve a handle, and register the dependency for the asset. Then just register the loader in your Bevy app: ```rust app.init_asset_loader::<ThingLoader>() ``` Now just add your `Thing` asset files into the `assets` folder and load them like this: ```rust fn system(asset_server: Res<AssetServer>) { let handle = Handle<Thing> = asset_server.load("cool.thing"); } ``` You can check load states directly via the asset server: ```rust if asset_server.load_state(&handle) == LoadState::Loaded { } ``` You can also listen for events: ```rust fn system(mut events: EventReader<AssetEvent<Thing>>, handle: Res<SomeThingHandle>) { for event in events.iter() { if event.is_loaded_with_dependencies(&handle) { } } } ``` Note the new `AssetEvent::LoadedWithDependencies`, which only fires when the asset is loaded _and_ all dependencies (and their dependencies) have loaded. Unlike the old asset system, for a given asset path all `Handle<T>` values point to the same underlying Arc. This means Handles can cheaply hold more asset information, such as the AssetPath: ```rust // prints the AssetPath of the handle info!("{:?}", handle.path()) ``` ### Processed Assets Asset processing can be enabled via the `AssetPlugin`. When developing Bevy Apps with processed assets, do this: ```rust app.add_plugins(DefaultPlugins.set(AssetPlugin::processed_dev())) ``` This runs the `AssetProcessor` in the background with hot-reloading. It reads assets from the `assets` folder, processes them, and writes them to the `.imported_assets` folder. Asset loads in the Bevy App will wait for a processed version of the asset to become available. If an asset in the `assets` folder changes, it will be reprocessed and hot-reloaded in the Bevy App. When deploying processed Bevy apps, do this: ```rust app.add_plugins(DefaultPlugins.set(AssetPlugin::processed())) ``` This does not run the `AssetProcessor` in the background. It behaves like `AssetPlugin::unprocessed()`, but reads assets from `.imported_assets`. When the `AssetProcessor` is running, it will populate sibling `.meta` files for assets in the `assets` folder. Meta files for assets that do not have a processor configured look like this: ```rust ( meta_format_version: "1.0", asset: Load( loader: "bevy_render::texture::image_loader::ImageLoader", settings: ( format: FromExtension, ), ), ) ``` This is metadata for an image asset. For example, if you have `assets/my_sprite.png`, this could be the metadata stored at `assets/my_sprite.png.meta`. Meta files are totally optional. If no metadata exists, the default settings will be used. In short, this file says "load this asset with the ImageLoader and use the file extension to determine the image type". This type of meta file is supported in all AssetPlugin modes. If in `Unprocessed` mode, the asset (with the meta settings) will be loaded directly. If in `ProcessedDev` mode, the asset file will be copied directly to the `.imported_assets` folder. The meta will also be copied directly to the `.imported_assets` folder, but with one addition: ```rust ( meta_format_version: "1.0", processed_info: Some(( hash: 12415480888597742505, full_hash: 14344495437905856884, process_dependencies: [], )), asset: Load( loader: "bevy_render::texture::image_loader::ImageLoader", settings: ( format: FromExtension, ), ), ) ``` `processed_info` contains `hash` (a direct hash of the asset and meta bytes), `full_hash` (a hash of `hash` and the hashes of all `process_dependencies`), and `process_dependencies` (the `path` and `full_hash` of every process_dependency). A "process dependency" is an asset dependency that is _directly_ used when processing the asset. Images do not have process dependencies, so this is empty. When the processor is enabled, you can use the `Process` metadata config: ```rust ( meta_format_version: "1.0", asset: Process( processor: "bevy_asset::processor::process::LoadAndSave<bevy_render::texture::image_loader::ImageLoader, bevy_render::texture::compressed_image_saver::CompressedImageSaver>", settings: ( loader_settings: ( format: FromExtension, ), saver_settings: ( generate_mipmaps: true, ), ), ), ) ``` This configures the asset to use the `LoadAndSave` processor, which runs an AssetLoader and feeds the result into an AssetSaver (which saves the given Asset and defines a loader to load it with). (for terseness LoadAndSave will likely get a shorter/friendlier type name when [Stable Type Paths](#7184) lands). `LoadAndSave` is likely to be the most common processor type, but arbitrary processors are supported. `CompressedImageSaver` saves an `Image` in the Basis Universal format and configures the ImageLoader to load it as basis universal. The `AssetProcessor` will read this meta, run it through the LoadAndSave processor, and write the basis-universal version of the image to `.imported_assets`. The final metadata will look like this: ```rust ( meta_format_version: "1.0", processed_info: Some(( hash: 905599590923828066, full_hash: 9948823010183819117, process_dependencies: [], )), asset: Load( loader: "bevy_render::texture::image_loader::ImageLoader", settings: ( format: Format(Basis), ), ), ) ``` To try basis-universal processing out in Bevy examples, (for example `sprite.rs`), change `add_plugins(DefaultPlugins)` to `add_plugins(DefaultPlugins.set(AssetPlugin::processed_dev()))` and run with the `basis-universal` feature enabled: `cargo run --features=basis-universal --example sprite`. To create a custom processor, there are two main paths: 1. Use the `LoadAndSave` processor with an existing `AssetLoader`. Implement the `AssetSaver` trait, register the processor using `asset_processor.register_processor::<LoadAndSave<ImageLoader, CompressedImageSaver>>(image_saver.into())`. 2. Implement the `Process` trait directly and register it using: `asset_processor.register_processor(thing_processor)`. You can configure default processors for file extensions like this: ```rust asset_processor.set_default_processor::<ThingProcessor>("thing") ``` There is one more metadata type to be aware of: ```rust ( meta_format_version: "1.0", asset: Ignore, ) ``` This will ignore the asset during processing / prevent it from being written to `.imported_assets`. The AssetProcessor stores a transaction log at `.imported_assets/log` and uses it to gracefully recover from unexpected stops. This means you can force-quit the processor (and Bevy Apps running the processor in parallel) at arbitrary times! `.imported_assets` is "local state". It should _not_ be checked into source control. It should also be considered "read only". In practice, you _can_ modify processed assets and processed metadata if you really need to test something. But those modifications will not be represented in the hashes of the assets, so the processed state will be "out of sync" with the source assets. The processor _will not_ fix this for you. Either revert the change after you have tested it, or delete the processed files so they can be re-populated. ## Open Questions There are a number of open questions to be discussed. We should decide if they need to be addressed in this PR and if so, how we will address them: ### Implied Dependencies vs Dependency Enumeration There are currently two ways to populate asset dependencies: * **Implied via AssetLoaders**: if an AssetLoader loads an asset (and retrieves a handle), a dependency is added to the list. * **Explicit via the optional Asset::visit_dependencies**: if `server.load_asset(my_asset)` is called, it will call `my_asset.visit_dependencies`, which will grab dependencies that have been manually defined for the asset via the Asset trait impl (which can be derived). This means that defining explicit dependencies is optional for "loaded assets". And the list of dependencies is always accurate because loaders can only produce Handles if they register dependencies. If an asset was loaded with an AssetLoader, it only uses the implied dependencies. If an asset was created at runtime and added with `asset_server.load_asset(MyAsset)`, it will use `Asset::visit_dependencies`. However this can create a behavior mismatch between loaded assets and equivalent "created at runtime" assets if `Assets::visit_dependencies` doesn't exactly match the dependencies produced by the AssetLoader. This behavior mismatch can be resolved by completely removing "implied loader dependencies" and requiring `Asset::visit_dependencies` to supply dependency data. But this creates two problems: * It makes defining loaded assets harder and more error prone: Devs must remember to manually annotate asset dependencies with `#[dependency]` when deriving `Asset`. For more complicated assets (such as scenes), the derive likely wouldn't be sufficient and a manual `visit_dependencies` impl would be required. * Removes the ability to immediately kick off dependency loads: When AssetLoaders retrieve a Handle, they also immediately kick off an asset load for the handle, which means it can start loading in parallel _before_ the asset finishes loading. For large assets, this could be significant. (although this could be mitigated for processed assets if we store dependencies in the processed meta file and load them ahead of time) ### Eager ProcessorDev Asset Loading I made a controversial call in the interest of fast startup times ("time to first pixel") for the "processor dev mode configuration". When initializing the AssetProcessor, current processed versions of unchanged assets are yielded immediately, even if their dependencies haven't been checked yet for reprocessing. This means that non-current-state-of-filesystem-but-previously-valid assets might be returned to the App first, then hot-reloaded if/when their dependencies change and the asset is reprocessed. Is this behavior desirable? There is largely one alternative: do not yield an asset from the processor to the app until all of its dependencies have been checked for changes. In some common cases (load dependency has not changed since last run) this will increase startup time. The main question is "by how much" and is that slower startup time worth it in the interest of only yielding assets that are true to the current state of the filesystem. Should this be configurable? I'm starting to think we should only yield an asset after its (historical) dependencies have been checked for changes + processed as necessary, but I'm curious what you all think. ### Paths Are Currently The Only Canonical ID / Do We Want Asset UUIDs? In this implementation AssetPaths are the only canonical asset identifier (just like the previous Bevy Asset system and Godot). Moving assets will result in re-scans (and currently reprocessing, although reprocessing can easily be avoided with some changes). Asset renames/moves will break code and assets that rely on specific paths, unless those paths are fixed up. Do we want / need "stable asset uuids"? Introducing them is very possible: 1. Generate a UUID and include it in .meta files 2. Support UUID in AssetPath 3. Generate "asset indices" which are loaded on startup and map UUIDs to paths. 4 (maybe). Consider only supporting UUIDs for processed assets so we can generate quick-to-load indices instead of scanning meta files. The main "pro" is that assets referencing UUIDs don't need to be migrated when a path changes. The main "con" is that UUIDs cannot be "lazily resolved" like paths. They need a full view of all assets to answer the question "does this UUID exist". Which means UUIDs require the AssetProcessor to fully finish startup scans before saying an asset doesnt exist. And they essentially require asset pre-processing to use in apps, because scanning all asset metadata files at runtime to resolve a UUID is not viable for medium-to-large apps. It really requires a pre-generated UUID index, which must be loaded before querying for assets. I personally think this should be investigated in a separate PR. Paths aren't going anywhere ... _everyone_ uses filesystems (and filesystem-like apis) to manage their asset source files. I consider them permanent canonical asset information. Additionally, they behave well for both processed and unprocessed asset modes. Given that Bevy is supporting both, this feels like the right canonical ID to start with. UUIDS (and maybe even other indexed-identifier types) can be added later as necessary. ### Folder / File Naming Conventions All asset processing config currently lives in the `.imported_assets` folder. The processor transaction log is in `.imported_assets/log`. Processed assets are added to `.imported_assets/Default`, which will make migrating to processed asset profiles (ex: a `.imported_assets/Mobile` profile) a non-breaking change. It also allows us to create top-level files like `.imported_assets/log` without it being interpreted as an asset. Meta files currently have a `.meta` suffix. Do we like these names and conventions? ### Should the `AssetPlugin::processed_dev` configuration enable `watch_for_changes` automatically? Currently it does (which I think makes sense), but it does make it the only configuration that enables watch_for_changes by default. ### Discuss on_loaded High Level Interface: This PR includes a very rough "proof of concept" `on_loaded` system adapter that uses the `LoadedWithDependencies` event in combination with `asset_server.load_asset` dependency tracking to support this pattern ```rust fn main() { App::new() .init_asset::<MyAssets>() .add_systems(Update, on_loaded(create_array_texture)) .run(); } #[derive(Asset, Clone)] struct MyAssets { #[dependency] picture_of_my_cat: Handle<Image>, #[dependency] picture_of_my_other_cat: Handle<Image>, } impl FromWorld for ArrayTexture { fn from_world(world: &mut World) -> Self { picture_of_my_cat: server.load("meow.png"), picture_of_my_other_cat: server.load("meeeeeeeow.png"), } } fn spawn_cat(In(my_assets): In<MyAssets>, mut commands: Commands) { commands.spawn(SpriteBundle { texture: my_assets.picture_of_my_cat.clone(), ..default() }); commands.spawn(SpriteBundle { texture: my_assets.picture_of_my_other_cat.clone(), ..default() }); } ``` The implementation is _very_ rough. And it is currently unsafe because `bevy_ecs` doesn't expose some internals to do this safely from inside `bevy_asset`. There are plenty of unanswered questions like: * "do we add a Loadable" derive? (effectively automate the FromWorld implementation above) * Should `MyAssets` even be an Asset? (largely implemented this way because it elegantly builds on `server.load_asset(MyAsset { .. })` dependency tracking). We should think hard about what our ideal API looks like (and if this is a pattern we want to support). Not necessarily something we need to solve in this PR. The current `on_loaded` impl should probably be removed from this PR before merging. ## Clarifying Questions ### What about Assets as Entities? This Bevy Asset V2 proposal implementation initially stored Assets as ECS Entities. Instead of `AssetId<T>` + the `Assets<T>` resource it used `Entity` as the asset id and Asset values were just ECS components. There are plenty of compelling reasons to do this: 1. Easier to inline assets in Bevy Scenes (as they are "just" normal entities + components) 2. More flexible queries: use the power of the ECS to filter assets (ex: `Query<Mesh, With<Tree>>`). 3. Extensible. Users can add arbitrary component data to assets. 4. Things like "component visualization tools" work out of the box to visualize asset data. However Assets as Entities has a ton of caveats right now: * We need to be able to allocate entity ids without a direct World reference (aka rework id allocator in Entities ... i worked around this in my prototypes by just pre allocating big chunks of entities) * We want asset change events in addition to ECS change tracking ... how do we populate them when mutations can come from anywhere? Do we use Changed queries? This would require iterating over the change data for all assets every frame. Is this acceptable or should we implement a new "event based" component change detection option? * Reconciling manually created assets with asset-system managed assets has some nuance (ex: are they "loaded" / do they also have that component metadata?) * "how do we handle "static" / default entity handles" (ties in to the Entity Indices discussion: https://github.com/bevyengine/bevy/discussions/8319). This is necessary for things like "built in" assets and default handles in things like SpriteBundle. * Storing asset information as a component makes it easy to "invalidate" asset state by removing the component (or forcing modifications). Ideally we have ways to lock this down (some combination of Rust type privacy and ECS validation) In practice, how we store and identify assets is a reasonably superficial change (porting off of Assets as Entities and implementing dedicated storage + ids took less than a day). So once we sort out the remaining challenges the flip should be straightforward. Additionally, I do still have "Assets as Entities" in my commit history, so we can reuse that work. I personally think "assets as entities" is a good endgame, but it also doesn't provide _significant_ value at the moment and it certainly isn't ready yet with the current state of things. ### Why not Distill? [Distill](https://github.com/amethyst/distill) is a high quality fully featured asset system built in Rust. It is very natural to ask "why not just use Distill?". It is also worth calling out that for awhile, [we planned on adopting Distill / I signed off on it](https://github.com/bevyengine/bevy/issues/708). However I think Bevy has a number of constraints that make Distill adoption suboptimal: * **Architectural Simplicity:** * Distill's processor requires an in-memory database (lmdb) and RPC networked API (using Cap'n Proto). Each of these introduces API complexity that increases maintenance burden and "code grokability". Ignoring tests, documentation, and examples, Distill has 24,237 lines of Rust code (including generated code for RPC + database interactions). If you ignore generated code, it has 11,499 lines. * Bevy builds the AssetProcessor and AssetServer using pluggable AssetReader/AssetWriter Rust traits with simple io interfaces. They do not necessitate databases or RPC interfaces (although Readers/Writers could use them if that is desired). Bevy Asset V2 (at the time of writing this PR) is 5,384 lines of Rust code (ignoring tests, documentation, and examples). Grain of salt: Distill does have more features currently (ex: Asset Packing, GUIDS, remote-out-of-process asset processor). I do plan to implement these features in Bevy Asset V2 and I personally highly doubt they will meaningfully close the 6115 lines-of-code gap. * This complexity gap (which while illustrated by lines of code, is much bigger than just that) is noteworthy to me. Bevy should be hackable and there are pillars of Distill that are very hard to understand and extend. This is a matter of opinion (and Bevy Asset V2 also has complicated areas), but I think Bevy Asset V2 is much more approachable for the average developer. * Necessary disclaimer: counting lines of code is an extremely rough complexity metric. Read the code and form your own opinions. * **Optional Asset Processing:** Not all Bevy Apps (or Bevy App developers) need / want asset preprocessing. Processing increases the complexity of the development environment by introducing things like meta files, imported asset storage, running processors in the background, waiting for processing to finish, etc. Distill _requires_ preprocessing to work. With Bevy Asset V2 processing is fully opt-in. The AssetServer isn't directly aware of asset processors at all. AssetLoaders only care about converting bytes to runtime Assets ... they don't know or care if the bytes were pre-processed or not. Processing is "elegantly" (forgive my self-congratulatory phrasing) layered on top and builds on the existing Asset system primitives. * **Direct Filesystem Access to Processed Asset State:** Distill stores processed assets in a database. This makes debugging / inspecting the processed outputs harder (either requires special tooling to query the database or they need to be "deployed" to be inspected). Bevy Asset V2, on the other hand, stores processed assets in the filesystem (by default ... this is configurable). This makes interacting with the processed state more natural. Note that both Godot and Unity's new asset system store processed assets in the filesystem. * **Portability**: Because Distill's processor uses lmdb and RPC networking, it cannot be run on certain platforms (ex: lmdb is a non-rust dependency that cannot run on the web, some platforms don't support running network servers). Bevy should be able to process assets everywhere (ex: run the Bevy Editor on the web, compile + process shaders on mobile, etc). Distill does partially mitigate this problem by supporting "streaming" assets via the RPC protocol, but this is not a full solve from my perspective. And Bevy Asset V2 can (in theory) also stream assets (without requiring RPC, although this isn't implemented yet) Note that I _do_ still think Distill would be a solid asset system for Bevy. But I think the approach in this PR is a better solve for Bevy's specific "asset system requirements". ### Doesn't async-fs just shim requests to "sync" `std::fs`? What is the point? "True async file io" has limited / spotty platform support. async-fs (and the rust async ecosystem generally ... ex Tokio) currently use async wrappers over std::fs that offload blocking requests to separate threads. This may feel unsatisfying, but it _does_ still provide value because it prevents our task pools from blocking on file system operations (which would prevent progress when there are many tasks to do, but all threads in a pool are currently blocking on file system ops). Additionally, using async APIs for our AssetReaders and AssetWriters also provides value because we can later add support for "true async file io" for platforms that support it. _And_ we can implement other "true async io" asset backends (such as networked asset io). ## Draft TODO - [x] Fill in missing filesystem event APIs: file removed event (which is expressed as dangling RenameFrom events in some cases), file/folder renamed event - [x] Assets without loaders are not moved to the processed folder. This breaks things like referenced `.bin` files for GLTFs. This should be configurable per-non-asset-type. - [x] Initial implementation of Reflect and FromReflect for Handle. The "deserialization" parity bar is low here as this only worked with static UUIDs in the old impl ... this is a non-trivial problem. Either we add a Handle::AssetPath variant that gets "upgraded" to a strong handle on scene load or we use a separate AssetRef type for Bevy scenes (which is converted to a runtime Handle on load). This deserves its own discussion in a different pr. - [x] Populate read_asset_bytes hash when run by the processor (a bit of a special case .. when run by the processor the processed meta will contain the hash so we don't need to compute it on the spot, but we don't want/need to read the meta when run by the main AssetServer) - [x] Delay hot reloading: currently filesystem events are handled immediately, which creates timing issues in some cases. For example hot reloading images can sometimes break because the image isn't finished writing. We should add a delay, likely similar to the [implementation in this PR](https://github.com/bevyengine/bevy/pull/8503). - [x] Port old platform-specific AssetIo implementations to the new AssetReader interface (currently missing Android and web) - [x] Resolve on_loaded unsafety (either by removing the API entirely or removing the unsafe) - [x] Runtime loader setting overrides - [x] Remove remaining unwraps that should be error-handled. There are number of TODOs here - [x] Pretty AssetPath Display impl - [x] Document more APIs - [x] Resolve spurious "reloading because it has changed" events (to repro run load_gltf with `processed_dev()`) - [x] load_dependency hot reloading currently only works for processed assets. If processing is disabled, load_dependency changes are not hot reloaded. - [x] Replace AssetInfo dependency load/fail counters with `loading_dependencies: HashSet<UntypedAssetId>` to prevent reloads from (potentially) breaking counters. Storing this will also enable "dependency reloaded" events (see [Next Steps](#next-steps)) - [x] Re-add filesystem watcher cargo feature gate (currently it is not optional) - [ ] Migration Guide - [ ] Changelog ## Followup TODO - [ ] Replace "eager unchanged processed asset loading" behavior with "don't returned unchanged processed asset until dependencies have been checked". - [ ] Add true `Ignore` AssetAction that does not copy the asset to the imported_assets folder. - [ ] Finish "live asset unloading" (ex: free up CPU asset memory after uploading an image to the GPU), rethink RenderAssets, and port renderer features. The `Assets` collection uses `Option<T>` for asset storage to support its removal. (1) the Option might not actually be necessary ... might be able to just remove from the collection entirely (2) need to finalize removal apis - [ ] Try replacing the "channel based" asset id recycling with something a bit more efficient (ex: we might be able to use raw atomic ints with some cleverness) - [ ] Consider adding UUIDs to processed assets (scoped just to helping identify moved assets ... not exposed to load queries ... see [Next Steps](#next-steps)) - [ ] Store "last modified" source asset and meta timestamps in processed meta files to enable skipping expensive hashing when the file wasn't changed - [ ] Fix "slow loop" handle drop fix - [ ] Migrate to TypeName - [x] Handle "loader preregistration". See #9429 ## Next Steps * **Configurable per-type defaults for AssetMeta**: It should be possible to add configuration like "all png image meta should default to using nearest sampling" (currently this hard-coded per-loader/processor Settings::default() impls). Also see the "Folder Meta" bullet point. * **Avoid Reprocessing on Asset Renames / Moves**: See the "canonical asset ids" discussion in [Open Questions](#open-questions) and the relevant bullet point in [Draft TODO](#draft-todo). Even without canonical ids, folder renames could avoid reprocessing in some cases. * **Multiple Asset Sources**: Expand AssetPath to support "asset source names" and support multiple AssetReaders in the asset server (ex: `webserver://some_path/image.png` backed by an Http webserver AssetReader). The "default" asset reader would use normal `some_path/image.png` paths. Ideally this works in combination with multiple AssetWatchers for hot-reloading * **Stable Type Names**: this pr removes the TypeUuid requirement from assets in favor of `std::any::type_name`. This makes defining assets easier (no need to generate a new uuid / use weird proc macro syntax). It also makes reading meta files easier (because things have "friendly names"). We also use type names for components in scene files. If they are good enough for components, they are good enough for assets. And consistency across Bevy pillars is desirable. However, `std::any::type_name` is not guaranteed to be stable (although in practice it is). We've developed a [stable type path](https://github.com/bevyengine/bevy/pull/7184) to resolve this, which should be adopted when it is ready. * **Command Line Interface**: It should be possible to run the asset processor in a separate process from the command line. This will also require building a network-server-backed AssetReader to communicate between the app and the processor. We've been planning to build a "bevy cli" for awhile. This seems like a good excuse to build it. * **Asset Packing**: This is largely an additive feature, so it made sense to me to punt this until we've laid the foundations in this PR. * **Per-Platform Processed Assets**: It should be possible to generate assets for multiple platforms by supporting multiple "processor profiles" per asset (ex: compress with format X on PC and Y on iOS). I think there should probably be arbitrary "profiles" (which can be separate from actual platforms), which are then assigned to a given platform when generating the final asset distribution for that platform. Ex: maybe devs want a "Mobile" profile that is shared between iOS and Android. Or a "LowEnd" profile shared between web and mobile. * **Versioning and Migrations**: Assets, Loaders, Savers, and Processors need to have versions to determine if their schema is valid. If an asset / loader version is incompatible with the current version expected at runtime, the processor should be able to migrate them. I think we should try using Bevy Reflect for this, as it would allow us to load the old version as a dynamic Reflect type without actually having the old Rust type. It would also allow us to define "patches" to migrate between versions (Bevy Reflect devs are currently working on patching). The `.meta` file already has its own format version. Migrating that to new versions should also be possible. * **Real Copy-on-write AssetPaths**: Rust's actual Cow (clone-on-write type) currently used by AssetPath can still result in String clones that aren't actually necessary (cloning an Owned Cow clones the contents). Bevy's asset system requires cloning AssetPaths in a number of places, which result in actual clones of the internal Strings. This is not efficient. AssetPath internals should be reworked to exhibit truer cow-like-behavior that reduces String clones to the absolute minimum. * **Consider processor-less processing**: In theory the AssetServer could run processors "inline" even if the background AssetProcessor is disabled. If we decide this is actually desirable, we could add this. But I don't think its a priority in the short or medium term. * **Pre-emptive dependency loading**: We could encode dependencies in processed meta files, which could then be used by the Asset Server to kick of dependency loads as early as possible (prior to starting the actual asset load). Is this desirable? How much time would this save in practice? * **Optimize Processor With UntypedAssetIds**: The processor exclusively uses AssetPath to identify assets currently. It might be possible to swap these out for UntypedAssetIds in some places, which are smaller / cheaper to hash and compare. * **One to Many Asset Processing**: An asset source file that produces many assets currently must be processed into a single "processed" asset source. If labeled assets can be written separately they can each have their own configured savers _and_ they could be loaded more granularly. Definitely worth exploring! * **Automatically Track "Runtime-only" Asset Dependencies**: Right now, tracking "created at runtime" asset dependencies requires adding them via `asset_server.load_asset(StandardMaterial::default())`. I think with some cleverness we could also do this for `materials.add(StandardMaterial::default())`, making tracking work "everywhere". There are challenges here relating to change detection / ensuring the server is made aware of dependency changes. This could be expensive in some cases. * **"Dependency Changed" events**: Some assets have runtime artifacts that need to be re-generated when one of their dependencies change (ex: regenerate a material's bind group when a Texture needs to change). We are generating the dependency graph so we can definitely produce these events. Buuuuut generating these events will have a cost / they could be high frequency for some assets, so we might want this to be opt-in for specific cases. * **Investigate Storing More Information In Handles**: Handles can now store arbitrary information, which makes it cheaper and easier to access. How much should we move into them? Canonical asset load states (via atomics)? (`handle.is_loaded()` would be very cool). Should we store the entire asset and remove the `Assets<T>` collection? (`Arc<RwLock<Option<Image>>>`?) * **Support processing and loading files without extensions**: This is a pretty arbitrary restriction and could be supported with very minimal changes. * **Folder Meta**: It would be nice if we could define per folder processor configuration defaults (likely in a `.meta` or `.folder_meta` file). Things like "default to linear filtering for all Images in this folder". * **Replace async_broadcast with event-listener?** This might be approximately drop-in for some uses and it feels more light weight * **Support Running the AssetProcessor on the Web**: Most of the hard work is done here, but there are some easy straggling TODOs (make the transaction log an interface instead of a direct file writer so we can write a web storage backend, implement an AssetReader/AssetWriter that reads/writes to something like LocalStorage). * **Consider identifying and preventing circular dependencies**: This is especially important for "processor dependencies", as processing will silently never finish in these cases. * **Built-in/Inlined Asset Hot Reloading**: This PR regresses "built-in/inlined" asset hot reloading (previously provided by the DebugAssetServer). I'm intentionally punting this because I think it can be cleanly implemented with "multiple asset sources" by registering a "debug asset source" (ex: `debug://bevy_pbr/src/render/pbr.wgsl` asset paths) in combination with an AssetWatcher for that asset source and support for "manually loading pats with asset bytes instead of AssetReaders". The old DebugAssetServer was quite nasty and I'd love to avoid that hackery going forward. * **Investigate ways to remove double-parsing meta files**: Parsing meta files currently involves parsing once with "minimal" versions of the meta file to extract the type name of the loader/processor config, then parsing again to parse the "full" meta. This is suboptimal. We should be able to define custom deserializers that (1) assume the loader/processor type name comes first (2) dynamically looks up the loader/processor registrations to deserialize settings in-line (similar to components in the bevy scene format). Another alternative: deserialize as dynamic Reflect objects and then convert. * **More runtime loading configuration**: Support using the Handle type as a hint to select an asset loader (instead of relying on AssetPath extensions) * **More high level Processor trait implementations**: For example, it might be worth adding support for arbitrary chains of "asset transforms" that modify an in-memory asset representation between loading and saving. (ex: load a Mesh, run a `subdivide_mesh` transform, followed by a `flip_normals` transform, then save the mesh to an efficient compressed format). * **Bevy Scene Handle Deserialization**: (see the relevant [Draft TODO item](#draft-todo) for context) * **Explore High Level Load Interfaces**: See [this discussion](#discuss-on_loaded-high-level-interface) for one prototype. * **Asset Streaming**: It would be great if we could stream Assets (ex: stream a long video file piece by piece) * **ID Exchanging**: In this PR Asset Handles/AssetIds are bigger than they need to be because they have a Uuid enum variant. If we implement an "id exchanging" system that trades Uuids for "efficient runtime ids", we can cut down on the size of AssetIds, making them more efficient. This has some open design questions, such as how to spawn entities with "default" handle values (as these wouldn't have access to the exchange api in the current system). * **Asset Path Fixup Tooling**: Assets that inline asset paths inside them will break when an asset moves. The asset system provides the functionality to detect when paths break. We should build a framework that enables formats to define "path migrations". This is especially important for scene files. For editor-generated files, we should also consider using UUIDs (see other bullet point) to avoid the need to migrate in these cases. --------- Co-authored-by: BeastLe9enD <beastle9end@outlook.de> Co-authored-by: Mike <mike.hsu@gmail.com> Co-authored-by: Nicola Papale <nicopap@users.noreply.github.com> |
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Rob Parrett
|
870d46ec2e
|
Use default resolution for viewport_debug example (#9666)
# Objective The `viewport_debug` example opens a window that is physically very large. Probably larger than the screen for the majority of machines. ## Solution Remove the custom resolution and adjust the pixel coordinates so that everything lines up. At the default resolution, everything is still whole numbers even without adjusting the viewport coordinates. |
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lelo
|
42e6dc8987
|
Refactor EventReader::iter to read (#9631)
# Objective - The current `EventReader::iter` has been determined to cause confusion among new Bevy users. It was suggested by @JoJoJet to rename the method to better clarify its usage. - Solves #9624 ## Solution - Rename `EventReader::iter` to `EventReader::read`. - Rename `EventReader::iter_with_id` to `EventReader::read_with_id`. - Rename `ManualEventReader::iter` to `ManualEventReader::read`. - Rename `ManualEventReader::iter_with_id` to `ManualEventReader::read_with_id`. --- ## Changelog - `EventReader::iter` has been renamed to `EventReader::read`. - `EventReader::iter_with_id` has been renamed to `EventReader::read_with_id`. - `ManualEventReader::iter` has been renamed to `ManualEventReader::read`. - `ManualEventReader::iter_with_id` has been renamed to `ManualEventReader::read_with_id`. - Deprecated `EventReader::iter` - Deprecated `EventReader::iter_with_id` - Deprecated `ManualEventReader::iter` - Deprecated `ManualEventReader::iter_with_id` ## Migration Guide - Existing usages of `EventReader::iter` and `EventReader::iter_with_id` will have to be changed to `EventReader::read` and `EventReader::read_with_id` respectively. - Existing usages of `ManualEventReader::iter` and `ManualEventReader::iter_with_id` will have to be changed to `ManualEventReader::read` and `ManualEventReader::read_with_id` respectively. |
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Zachary Harrold
|
90b3ac7f3a
|
Added Val::ZERO Constant (#9566)
# Objective - Fixes #9533 ## Solution * Added `Val::ZERO` as a constant which is defined as `Val::Px(0.)`. * Added manual `PartialEq` implementation for `Val` which allows any zero value to equal any other zero value. E.g., `Val::Px(0.) == Val::Percent(0.)` etc. This is technically a breaking change, as `Val::Px(0.) == Val::Percent(0.)` now equals `true` instead of `false` (as an example) * Replaced instances of `Val::Px(0.)`, `Val::Percent(0.)`, etc. with `Val::ZERO` * Fixed `bevy_ui::layout::convert::tests::test_convert_from` test to account for Taffy not equating `Points(0.)` and `Percent(0.)`. These tests now use `assert_eq!(...)` instead of `assert!(matches!(...))` which gives easier to diagnose error messages. |
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Rob Parrett
|
a788e31ad5
|
Fix CI for Rust 1.72 (#9562)
# Objective [Rust 1.72.0](https://blog.rust-lang.org/2023/08/24/Rust-1.72.0.html) is now stable. # Notes - `let-else` formatting has arrived! - I chose to allow `explicit_iter_loop` due to https://github.com/rust-lang/rust-clippy/issues/11074. We didn't hit any of the false positives that prevent compilation, but fixing this did produce a lot of the "symbol soup" mentioned, e.g. `for image in &mut *image_events {`. Happy to undo this if there's consensus the other way. --------- Co-authored-by: François <mockersf@gmail.com> |
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ickshonpe
|
373f1eeb1e
|
UI examples clean up (#9479)
# Objective Fix a few issues with some of the examples: * Root UI nodes have an implicit parent with `FlexDirection::Row` and `AlignItems::Stretch` set. Only a width constraint is needed to fill the viewport. Specifying ```height: Val::Percent(100.)``` is unnecessary and can cause confusing overflow behaviour. * The default for position and size constraint properties is `Val::Auto`. Setting `left: Val::Auto`, `max_height: Val::Auto`, etc does nothing. ## Solution Delete those lines. There should be no observable differences in the behaviours of any of the examples. Also changed a padding setting in the `flex_layout` example to use the `axes` helper function. |
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st0rmbtw
|
b6a9d8eba7
|
Change UiScale to a tuple struct (#9444)
# Objective Inconvenient initialization of `UiScale` ## Solution Change `UiScale` to a tuple struct ## Migration Guide Replace initialization of `UiScale` like ```UiScale { scale: 1.0 }``` with ```UiScale(1.0)``` |
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张林伟
|
dfe462b019
|
Update text example using default font (#9259)
# Objective - Fixes https://github.com/bevyengine/bevy/issues/9233 |
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ClayenKitten
|
ffc572728f
|
Fix typos throughout the project (#9090)
# Objective
Fix typos throughout the project.
## Solution
[`typos`](https://github.com/crate-ci/typos) project was used for
scanning, but no automatic corrections were applied. I checked
everything by hand before fixing.
Most of the changes are documentation/comments corrections. Also, there
are few trivial changes to code (variable name, pub(crate) function name
and a few error/panic messages).
## Unsolved
`bevy_reflect_derive` has
[typo](
|
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ickshonpe
|
9655acebb6
|
Divide by UiScale when converting UI coordinates from physical to logical (#8720)
# Objective After the UI layout is computed when the coordinates are converted back from physical coordinates to logical coordinates the `UiScale` is ignored. This results in a confusing situation where we have two different systems of logical coordinates. Example: ```rust use bevy::prelude::*; fn main() { App::new() .add_plugins(DefaultPlugins) .add_systems(Startup, setup) .add_systems(Update, update) .run(); } fn setup(mut commands: Commands, mut ui_scale: ResMut<UiScale>) { ui_scale.scale = 4.; commands.spawn(Camera2dBundle::default()); commands.spawn(NodeBundle { style: Style { align_items: AlignItems::Center, justify_content: JustifyContent::Center, width: Val::Percent(100.), ..Default::default() }, ..Default::default() }) .with_children(|builder| { builder.spawn(NodeBundle { style: Style { width: Val::Px(100.), height: Val::Px(100.), ..Default::default() }, background_color: Color::MAROON.into(), ..Default::default() }).with_children(|builder| { builder.spawn(TextBundle::from_section("", TextStyle::default()); }); }); } fn update( mut text_query: Query<(&mut Text, &Parent)>, node_query: Query<Ref<Node>>, ) { for (mut text, parent) in text_query.iter_mut() { let node = node_query.get(parent.get()).unwrap(); if node.is_changed() { text.sections[0].value = format!("size: {}", node.size()); } } } ``` result: ![Bevy App 30_05_2023 16_54_32](https://github.com/bevyengine/bevy/assets/27962798/a5ecbf31-0a12-4669-87df-b0c32f058732) We asked for a 100x100 UI node but the Node's size is multiplied by the value of `UiScale` to give a logical size of 400x400. ## Solution Divide the output physical coordinates by `UiScale` in `ui_layout_system` and multiply the logical viewport size by `UiScale` when creating the projection matrix for the UI's `ExtractedView` in `extract_default_ui_camera_view`. --- ## Changelog * The UI layout's physical coordinates are divided by both the window scale factor and `UiScale` when converting them back to logical coordinates. The logical size of Ui nodes now matches the values given to their size constraints. * Multiply the logical viewport size by `UiScale` before creating the projection matrix for the UI's `ExtractedView` in `extract_default_ui_camera_view`. * In `ui_focus_system` the cursor position returned from `Window` is divided by `UiScale`. * Added a scale factor parameter to `Node::physical_size` and `Node::physical_rect`. * The example `viewport_debug` now uses a `UiScale` of 2. to ensure that viewport coordinates are working correctly with a non-unit `UiScale`. ## Migration Guide Physical UI coordinates are now divided by both the `UiScale` and the window's scale factor to compute the logical sizes and positions of UI nodes. This ensures that UI Node size and position values, held by the `Node` and `GlobalTransform` components, conform to the same logical coordinate system as the style constraints from which they are derived, irrespective of the current `scale_factor` and `UiScale`. --------- Co-authored-by: Carter Anderson <mcanders1@gmail.com> |
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Anby
|
7f1d084b71
|
Rename Interaction::Clicked -> Interaction::Pressed (#8989) (#9027)
# Objective - Fixes #8989 ## Solution - Renamed Interaction::Clicked -> Interaction::Pressed - Minor changes to comments to keep clarity of terms ## Migration Guide - Rename all instances of Interaction::Clicked -> Interaction::Pressed |
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ickshonpe
|
aeea4b0344
|
NoWrap Text feature (#8947)
# Objective In Bevy 10.1 and before, the only way to enable text wrapping was to set a local `Val::Px` width constraint on the text node itself. `Val::Percent` constraints and constraints on the text node's ancestors did nothing. #7779 fixed those problems. But perversely displaying unwrapped text is really difficult now, and requires users to nest each `TextBundle` in a `NodeBundle` and apply `min_width` and `max_width` constraints. Some constructions may even need more than one layer of nesting. I've seen several people already who have really struggled with this when porting their projects to main in advance of 0.11. ## Solution Add a `NoWrap` variant to the `BreakLineOn` enum. If `NoWrap` is set, ignore any constraints on the width for the text and call `TextPipeline::queue_text` with a width bound of `f32::INFINITY`. --- ## Changelog * Added a `NoWrap` variant to the `BreakLineOn` enum. * If `NoWrap` is set, any constraints on the width for the text are ignored and `TextPipeline::queue_text` is called with a width bound of `f32::INFINITY`. * Changed the `size` field of `FixedMeasure` to `pub`. This shouldn't have been private, it was always intended to have `pub` visibility. * Added a `with_no_wrap` method to `TextBundle`. ## Migration Guide `bevy_text::text::BreakLineOn` has a new variant `NoWrap` that disables text wrapping for the `Text`. Text wrapping can also be disabled using the `with_no_wrap` method of `TextBundle`. |
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Thierry Berger
|
469a19c290
|
fix example grid (#8940)
`Style` flattened `size`, `min_size` and `max_size` to its root struct, causing compilation errors. I uncommented the code to avoid further silent error not caught by CI, but hid the view to keep the same behaviour. |
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Edgar Geier
|
f18f28874a
|
Allow tuples and single plugins in add_plugins , deprecate add_plugin (#8097)
# Objective - Better consistency with `add_systems`. - Deprecating `add_plugin` in favor of a more powerful `add_plugins`. - Allow passing `Plugin` to `add_plugins`. - Allow passing tuples to `add_plugins`. ## Solution - `App::add_plugins` now takes an `impl Plugins` parameter. - `App::add_plugin` is deprecated. - `Plugins` is a new sealed trait that is only implemented for `Plugin`, `PluginGroup` and tuples over `Plugins`. - All examples, benchmarks and tests are changed to use `add_plugins`, using tuples where appropriate. --- ## Changelog ### Changed - `App::add_plugins` now accepts all types that implement `Plugins`, which is implemented for: - Types that implement `Plugin`. - Types that implement `PluginGroup`. - Tuples (up to 16 elements) over types that implement `Plugins`. - Deprecated `App::add_plugin` in favor of `App::add_plugins`. ## Migration Guide - Replace `app.add_plugin(plugin)` calls with `app.add_plugins(plugin)`. --------- Co-authored-by: Carter Anderson <mcanders1@gmail.com> |
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ickshonpe
|
50c50cdcb6
|
UI Display and Visibility Example (#7629)
# Objective An example demonstrating how Display and Visibility work in Bevy UI. fixes #5380 related #5368 ![Bevy App 15_02_2023 20_40_46](https://user-images.githubusercontent.com/27962798/219150865-419ade53-250b-4030-8197-907cac7aa5da.png) ## Changelog * Added the example `flex_display.rs`. |
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mwbryant
|
8b5bf42c28
|
UI texture atlas support (#8822)
# Objective This adds support for using texture atlas sprites in UI. From discussions today in the ui-dev discord it seems this is a much wanted feature. This was previously attempted in #5070 by @ManevilleF however that was blocked #5103. This work can be easily modified to support #5103 changes after that merges. ## Solution I created a new UI bundle that reuses the existing texture atlas infrastructure. I create a new atlas image component to prevent it from being drawn by the existing non-UI systems and to remove unused parameters. In extract I added new system to calculate the required values for the texture atlas image, this extracts into the same resource as the existing UI Image and Text components. This should have minimal performance impact because if texture atlas is not present then the exact same code path is followed. Also there should be no unintended behavior changes because without the new components the existing systems write the extract same resulting data. I also added an example showing the sprite working and a system to advance the animation on space bar presses. Naming is hard and I would accept any feedback on the bundle name! --- ## Changelog > Added TextureAtlasImageBundle --------- Co-authored-by: ickshonpe <david.curthoys@googlemail.com> |
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ickshonpe
|
f7aa83a247
|
Ui Node Borders (#7795)
# Objective Implement borders for UI nodes. Relevant discussion: #7785 Related: #5924, #3991 <img width="283" alt="borders" src="https://user-images.githubusercontent.com/27962798/220968899-7661d5ec-6f5b-4b0f-af29-bf9af02259b5.PNG"> ## Solution Add an extraction function to draw the borders. --- Can only do one colour rectangular borders due to the limitations of the Bevy UI renderer. Maybe it can be combined with #3991 eventually to add curved border support. ## Changelog * Added a component `BorderColor`. * Added the `extract_uinode_borders` system to the UI Render App. * Added the UI example `borders` --------- Co-authored-by: Nico Burns <nico@nicoburns.com> |
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ickshonpe
|
6fc619d34a
|
Fix the logo image in the "ui" UI example (#7894)
# Objective The AccessKit PR removed the loading of the image logo from the UI example. It also added some alt text with `TextStyle::default()` as a child of the logo image node. If you give an image node a child, then its size is no longer determined by the measurefunc that preserves its aspect ratio. Instead, its width and height are determined by the constraints set on the node and the size of the contents of the node. In this case, the image node is set to have a width of 500 with no constraints on its height. So it looks at its child node to determine what height it should take. Because the child has `TextStyle::default` it allocates no space for the text, the height of the image node is set to zero and the logo isn't drawn. Fixes #8805 ## Solution Load the image, and set min_size and max_size constraints of 500 by 125 pixels. |
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CatThingy
|
89cbc78d3d
|
Require #[derive(Event)] on all Events (#7086)
# Objective Be consistent with `Resource`s and `Components` and have `Event` types be more self-documenting. Although not susceptible to accidentally using a function instead of a value due to `Event`s only being initialized by their type, much of the same reasoning for removing the blanket impl on `Resource` also applies here. * Not immediately obvious if a type is intended to be an event * Prevent invisible conflicts if the same third-party or primitive types are used as events * Allows for further extensions (e.g. opt-in warning for missed events) ## Solution Remove the blanket impl for the `Event` trait. Add a derive macro for it. --- ## Changelog - `Event` is no longer implemented for all applicable types. Add the `#[derive(Event)]` macro for events. ## Migration Guide * Add the `#[derive(Event)]` macro for events. Third-party types used as events should be wrapped in a newtype. |