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https://github.com/bevyengine/bevy
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2bd328220b
# Objective Fixes #15791. As raised in #11022, scaling orthographic cameras is confusing! In Bevy 0.14, there were multiple completely redundant ways to do this, and no clear guidance on which to use. As a result, #15075 removed the `scale` field from `OrthographicProjection` completely, solving the redundancy issue. However, this resulted in an unintuitive API and a painful migration, as discussed in #15791. Users simply want to change a single parameter to zoom, rather than deal with the irrelevant details of how the camera is being scaled. ## Solution This PR reverts #15075, and takes an alternate, more nuanced approach to the redundancy problem. `ScalingMode::WindowSize` was by far the biggest offender. This was the default variant, and stored a float that was *fully* redundant to setting `scale`. All of the other variants contained meaningful semantic information and had an intuitive scale. I could have made these unitless, storing an aspect ratio, but this would have been a worse API and resulted in a pointlessly painful migration. In the course of this work I've also: - improved the documentation to explain that you should just set `scale` to zoom cameras - swapped to named fields for all of the variants in `ScalingMode` for more clarity about the parameter meanings - substantially improved the `projection_zoom` example - removed the footgunny `Mul` and `Div` impls for `ScalingMode`, especially since these no longer have the intended effect on `ScalingMode::WindowSize`. - removed a rounding step because this is now redundant 🎉 ## Testing I've tested these changes as part of my work in the `projection_zoom` example, and things seem to work fine. ## Migration Guide `ScalingMode` has been refactored for clarity, especially on how to zoom orthographic cameras and their projections: - `ScalingMode::WindowSize` no longer stores a float, and acts as if its value was 1. Divide your camera's scale by any previous value to achieve identical results. - `ScalingMode::FixedVertical` and `FixedHorizontal` now use named fields. --------- Co-authored-by: MiniaczQ <xnetroidpl@gmail.com>
154 lines
4.7 KiB
Rust
154 lines
4.7 KiB
Rust
//! Shows how to create graphics that snap to the pixel grid by rendering to a texture in 2D
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use bevy::{
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prelude::*,
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render::{
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camera::RenderTarget,
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render_resource::{
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Extent3d, TextureDescriptor, TextureDimension, TextureFormat, TextureUsages,
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},
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view::RenderLayers,
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},
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window::WindowResized,
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};
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/// In-game resolution width.
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const RES_WIDTH: u32 = 160;
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/// In-game resolution height.
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const RES_HEIGHT: u32 = 90;
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/// Default render layers for pixel-perfect rendering.
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/// You can skip adding this component, as this is the default.
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const PIXEL_PERFECT_LAYERS: RenderLayers = RenderLayers::layer(0);
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/// Render layers for high-resolution rendering.
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const HIGH_RES_LAYERS: RenderLayers = RenderLayers::layer(1);
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fn main() {
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App::new()
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.add_plugins(DefaultPlugins.set(ImagePlugin::default_nearest()))
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.add_systems(Startup, (setup_camera, setup_sprite, setup_mesh))
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.add_systems(Update, (rotate, fit_canvas))
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.run();
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}
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/// Low-resolution texture that contains the pixel-perfect world.
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/// Canvas itself is rendered to the high-resolution world.
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#[derive(Component)]
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struct Canvas;
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/// Camera that renders the pixel-perfect world to the [`Canvas`].
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#[derive(Component)]
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struct InGameCamera;
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/// Camera that renders the [`Canvas`] (and other graphics on [`HIGH_RES_LAYERS`]) to the screen.
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#[derive(Component)]
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struct OuterCamera;
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#[derive(Component)]
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struct Rotate;
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fn setup_sprite(mut commands: Commands, asset_server: Res<AssetServer>) {
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// the sample sprite that will be rendered to the pixel-perfect canvas
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commands.spawn((
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Sprite::from_image(asset_server.load("pixel/bevy_pixel_dark.png")),
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Transform::from_xyz(-40., 20., 2.),
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Rotate,
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PIXEL_PERFECT_LAYERS,
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));
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// the sample sprite that will be rendered to the high-res "outer world"
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commands.spawn((
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Sprite::from_image(asset_server.load("pixel/bevy_pixel_light.png")),
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Transform::from_xyz(-40., -20., 2.),
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Rotate,
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HIGH_RES_LAYERS,
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));
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}
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/// Spawns a capsule mesh on the pixel-perfect layer.
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fn setup_mesh(
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mut commands: Commands,
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mut meshes: ResMut<Assets<Mesh>>,
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mut materials: ResMut<Assets<ColorMaterial>>,
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) {
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commands.spawn((
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Mesh2d(meshes.add(Capsule2d::default())),
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MeshMaterial2d(materials.add(Color::BLACK)),
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Transform::from_xyz(40., 0., 2.).with_scale(Vec3::splat(32.)),
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Rotate,
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PIXEL_PERFECT_LAYERS,
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));
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}
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fn setup_camera(mut commands: Commands, mut images: ResMut<Assets<Image>>) {
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let canvas_size = Extent3d {
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width: RES_WIDTH,
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height: RES_HEIGHT,
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..default()
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};
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// this Image serves as a canvas representing the low-resolution game screen
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let mut canvas = Image {
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texture_descriptor: TextureDescriptor {
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label: None,
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size: canvas_size,
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dimension: TextureDimension::D2,
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format: TextureFormat::Bgra8UnormSrgb,
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mip_level_count: 1,
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sample_count: 1,
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usage: TextureUsages::TEXTURE_BINDING
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| TextureUsages::COPY_DST
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| TextureUsages::RENDER_ATTACHMENT,
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view_formats: &[],
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},
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..default()
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};
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// fill image.data with zeroes
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canvas.resize(canvas_size);
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let image_handle = images.add(canvas);
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// this camera renders whatever is on `PIXEL_PERFECT_LAYERS` to the canvas
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commands.spawn((
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Camera2d,
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Camera {
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// render before the "main pass" camera
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order: -1,
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target: RenderTarget::Image(image_handle.clone()),
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..default()
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},
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Msaa::Off,
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InGameCamera,
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PIXEL_PERFECT_LAYERS,
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));
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// spawn the canvas
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commands.spawn((Sprite::from_image(image_handle), Canvas, HIGH_RES_LAYERS));
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// the "outer" camera renders whatever is on `HIGH_RES_LAYERS` to the screen.
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// here, the canvas and one of the sample sprites will be rendered by this camera
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commands.spawn((Camera2d, Msaa::Off, OuterCamera, HIGH_RES_LAYERS));
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}
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/// Rotates entities to demonstrate grid snapping.
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fn rotate(time: Res<Time>, mut transforms: Query<&mut Transform, With<Rotate>>) {
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for mut transform in &mut transforms {
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let dt = time.delta_secs();
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transform.rotate_z(dt);
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}
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}
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/// Scales camera projection to fit the window (integer multiples only).
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fn fit_canvas(
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mut resize_events: EventReader<WindowResized>,
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mut projection: Single<&mut OrthographicProjection, With<OuterCamera>>,
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) {
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for event in resize_events.read() {
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let h_scale = event.width / RES_WIDTH as f32;
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let v_scale = event.height / RES_HEIGHT as f32;
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projection.scale = 1. / h_scale.min(v_scale).round();
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}
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}
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