bevy/examples/animation/easing_functions.rs
Emerson Coskey 7d40e3ec87
Migrate bevy_sprite to required components (#15489)
# Objective

Continue migration of bevy APIs to required components, following
guidance of https://hackmd.io/@bevy/required_components/

## Solution

- Make `Sprite` require `Transform` and `Visibility` and
`SyncToRenderWorld`
- move image and texture atlas handles into `Sprite`
- deprecate `SpriteBundle`
- remove engine uses of `SpriteBundle`

## Testing

ran cargo tests on bevy_sprite and tested several sprite examples.

---

## Migration Guide

Replace all uses of `SpriteBundle` with `Sprite`. There are several new
convenience constructors: `Sprite::from_image`,
`Sprite::from_atlas_image`, `Sprite::from_color`.

WARNING: use of `Handle<Image>` and `TextureAtlas` as components on
sprite entities will NO LONGER WORK. Use the fields on `Sprite` instead.
I would have removed the `Component` impls from `TextureAtlas` and
`Handle<Image>` except it is still used within ui. We should fix this
moving forward with the migration.
2024-10-09 16:17:26 +00:00

176 lines
5.8 KiB
Rust

//! Demonstrates the behavior of the built-in easing functions.
use bevy::{prelude::*, sprite::Anchor};
#[derive(Component)]
struct SelectedEaseFunction(EaseFunction, Color);
fn main() {
App::new()
.add_plugins(DefaultPlugins)
.add_systems(Startup, setup)
.add_systems(Update, display_curves)
.run();
}
fn setup(mut commands: Commands) {
commands.spawn(Camera2d);
let text_style = TextStyle {
font_size: 10.0,
..default()
};
for (i, functions) in [
EaseFunction::SineIn,
EaseFunction::SineOut,
EaseFunction::SineInOut,
EaseFunction::QuadraticIn,
EaseFunction::QuadraticOut,
EaseFunction::QuadraticInOut,
EaseFunction::CubicIn,
EaseFunction::CubicOut,
EaseFunction::CubicInOut,
EaseFunction::QuarticIn,
EaseFunction::QuarticOut,
EaseFunction::QuarticInOut,
EaseFunction::QuinticIn,
EaseFunction::QuinticOut,
EaseFunction::QuinticInOut,
EaseFunction::CircularIn,
EaseFunction::CircularOut,
EaseFunction::CircularInOut,
EaseFunction::ExponentialIn,
EaseFunction::ExponentialOut,
EaseFunction::ExponentialInOut,
EaseFunction::ElasticIn,
EaseFunction::ElasticOut,
EaseFunction::ElasticInOut,
EaseFunction::BackIn,
EaseFunction::BackOut,
EaseFunction::BackInOut,
EaseFunction::BounceIn,
EaseFunction::BounceOut,
EaseFunction::BounceInOut,
EaseFunction::Linear,
EaseFunction::Steps(4),
EaseFunction::Elastic(50.0),
]
.chunks(3)
.enumerate()
{
for (j, function) in functions.iter().enumerate() {
let color = Hsla::hsl(i as f32 / 11.0 * 360.0, 0.8, 0.75).into();
commands
.spawn((
Text2dBundle {
text: Text::from_section(
format!("{:?}", function),
TextStyle {
color,
..text_style.clone()
},
),
transform: Transform::from_xyz(
i as f32 * 113.0 - 1280.0 / 2.0 + 25.0,
-100.0 - ((j as f32 * 250.0) - 300.0),
0.0,
),
text_anchor: Anchor::TopLeft,
..default()
},
SelectedEaseFunction(*function, color),
))
.with_children(|p| {
p.spawn((
Sprite::from_color(color, Vec2::splat(5.0)),
Transform::from_xyz(SIZE_PER_FUNCTION + 5.0, 15.0, 0.0),
));
p.spawn((
Sprite::from_color(color, Vec2::splat(4.0)),
Transform::from_xyz(0.0, 0.0, 0.0),
));
});
}
}
commands.spawn(
TextBundle::from_section("", TextStyle::default()).with_style(Style {
position_type: PositionType::Absolute,
bottom: Val::Px(12.0),
left: Val::Px(12.0),
..default()
}),
);
}
const SIZE_PER_FUNCTION: f32 = 95.0;
fn display_curves(
mut gizmos: Gizmos,
ease_functions: Query<(&SelectedEaseFunction, &Transform, &Children)>,
mut transforms: Query<&mut Transform, Without<SelectedEaseFunction>>,
mut ui: Query<&mut Text, With<Node>>,
time: Res<Time>,
) {
let samples = 100;
let duration = 2.5;
let time_margin = 0.5;
let now = ((time.elapsed_seconds() % (duration + time_margin * 2.0) - time_margin) / duration)
.clamp(0.0, 1.0);
ui.single_mut().sections[0].value = format!("Progress: {:.2}", now);
for (SelectedEaseFunction(function, color), transform, children) in &ease_functions {
// Draw a box around the curve
gizmos.linestrip_2d(
[
Vec2::new(transform.translation.x, transform.translation.y + 15.0),
Vec2::new(
transform.translation.x + SIZE_PER_FUNCTION,
transform.translation.y + 15.0,
),
Vec2::new(
transform.translation.x + SIZE_PER_FUNCTION,
transform.translation.y + 15.0 + SIZE_PER_FUNCTION,
),
Vec2::new(
transform.translation.x,
transform.translation.y + 15.0 + SIZE_PER_FUNCTION,
),
Vec2::new(transform.translation.x, transform.translation.y + 15.0),
],
color.darker(0.4),
);
// Draw the curve
let f = easing_curve(0.0, 1.0, *function);
let drawn_curve = f.by_ref().graph().map(|(x, y)| {
Vec2::new(
x * SIZE_PER_FUNCTION + transform.translation.x,
y * SIZE_PER_FUNCTION + transform.translation.y + 15.0,
)
});
gizmos.curve_2d(
&drawn_curve,
drawn_curve.domain().spaced_points(samples).unwrap(),
*color,
);
// Show progress along the curve for the current time
let y = f.sample(now).unwrap() * SIZE_PER_FUNCTION + 15.0;
transforms.get_mut(children[0]).unwrap().translation.y = y;
transforms.get_mut(children[1]).unwrap().translation =
Vec3::new(now * SIZE_PER_FUNCTION, y, 0.0);
gizmos.linestrip_2d(
[
Vec2::new(transform.translation.x, transform.translation.y + y),
Vec2::new(
transform.translation.x + SIZE_PER_FUNCTION,
transform.translation.y + y,
),
],
color.darker(0.2),
);
}
}