765e5842cd
# Objective Make it easier to short-circuit system parameter validation. Simplify the API surface by combining `ValidationOutcome` with `SystemParamValidationError`. ## Solution Replace `ValidationOutcome` with `Result<(), SystemParamValidationError>`. Move the docs from `ValidationOutcome` to `SystemParamValidationError`. Add a `skipped` field to `SystemParamValidationError` to distinguish the `Skipped` and `Invalid` variants. Use the `?` operator to short-circuit validation in tuples of system params.
167 lines
6.7 KiB
Rust
167 lines
6.7 KiB
Rust
//! This example demonstrates how fallible parameters can prevent their systems
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//! from running if their acquiry conditions aren't met.
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//!
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//! Fallible system parameters include:
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//! - [`Res<R>`], [`ResMut<R>`] - Resource has to exist, and the [`GLOBAL_ERROR_HANDLER`] will be called if it doesn't.
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//! - [`Single<D, F>`] - There must be exactly one matching entity, but the system will be silently skipped otherwise.
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//! - [`Option<Single<D, F>>`] - There must be zero or one matching entity. The system will be silently skipped if there are more.
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//! - [`Populated<D, F>`] - There must be at least one matching entity, but the system will be silently skipped otherwise.
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//!
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//! Other system parameters, such as [`Query`], will never fail validation: returning a query with no matching entities is valid.
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//!
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//! The result of failed system parameter validation is determined by the [`SystemParamValidationError`] returned
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//! by [`SystemParam::validate_param`] for each system parameter.
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//! Each system will pass if all of its parameters are valid, or else return [`SystemParamValidationError`] for the first failing parameter.
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//!
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//! To learn more about setting the fallback behavior for [`SystemParamValidationError`] failures,
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//! please see the `error_handling.rs` example.
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//!
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//! [`SystemParamValidationError`]: bevy::ecs::system::SystemParamValidationError
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//! [`SystemParam::validate_param`]: bevy::ecs::system::SystemParam::validate_param
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use bevy::ecs::error::{warn, GLOBAL_ERROR_HANDLER};
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use bevy::prelude::*;
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use rand::Rng;
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fn main() {
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// By default, if a parameter fail to be fetched,
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// the `GLOBAL_ERROR_HANDLER` will be used to handle the error,
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// which by default is set to panic.
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GLOBAL_ERROR_HANDLER
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.set(warn)
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.expect("The error handler can only be set once, globally.");
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println!();
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println!("Press 'A' to add enemy ships and 'R' to remove them.");
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println!("Player ship will wait for enemy ships and track one if it exists,");
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println!("but will stop tracking if there are more than one.");
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println!();
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App::new()
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.add_plugins(DefaultPlugins)
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.add_systems(Startup, setup)
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.add_systems(Update, (user_input, move_targets, track_targets).chain())
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// This system will always fail validation, because we never create an entity with both `Player` and `Enemy` components.
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.add_systems(Update, do_nothing_fail_validation)
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.run();
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}
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/// Enemy component stores data for movement in a circle.
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#[derive(Component, Default)]
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struct Enemy {
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origin: Vec2,
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radius: f32,
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rotation: f32,
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rotation_speed: f32,
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}
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/// Player component stores data for going after enemies.
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#[derive(Component, Default)]
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struct Player {
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speed: f32,
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rotation_speed: f32,
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min_follow_radius: f32,
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}
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fn setup(mut commands: Commands, asset_server: Res<AssetServer>) {
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// Spawn 2D camera.
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commands.spawn(Camera2d);
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// Spawn player.
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let texture = asset_server.load("textures/simplespace/ship_C.png");
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commands.spawn((
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Player {
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speed: 100.0,
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rotation_speed: 2.0,
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min_follow_radius: 50.0,
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},
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Sprite {
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image: texture,
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color: bevy::color::palettes::tailwind::BLUE_800.into(),
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..Default::default()
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},
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Transform::from_translation(Vec3::ZERO),
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));
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}
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/// System that reads user input.
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/// If user presses 'A' we spawn a new random enemy.
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/// If user presses 'R' we remove a random enemy (if any exist).
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fn user_input(
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mut commands: Commands,
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enemies: Query<Entity, With<Enemy>>,
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keyboard_input: Res<ButtonInput<KeyCode>>,
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asset_server: Res<AssetServer>,
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) {
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let mut rng = rand::thread_rng();
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if keyboard_input.just_pressed(KeyCode::KeyA) {
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let texture = asset_server.load("textures/simplespace/enemy_A.png");
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commands.spawn((
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Enemy {
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origin: Vec2::new(rng.gen_range(-200.0..200.0), rng.gen_range(-200.0..200.0)),
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radius: rng.gen_range(50.0..150.0),
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rotation: rng.gen_range(0.0..std::f32::consts::TAU),
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rotation_speed: rng.gen_range(0.5..1.5),
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},
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Sprite {
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image: texture,
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color: bevy::color::palettes::tailwind::RED_800.into(),
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..default()
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},
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Transform::from_translation(Vec3::ZERO),
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));
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}
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if keyboard_input.just_pressed(KeyCode::KeyR) {
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if let Some(entity) = enemies.iter().next() {
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commands.entity(entity).despawn();
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}
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}
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}
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// System that moves the enemies in a circle.
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// Only runs if there are enemies, due to the `Populated` parameter.
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fn move_targets(mut enemies: Populated<(&mut Transform, &mut Enemy)>, time: Res<Time>) {
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for (mut transform, mut target) in &mut *enemies {
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target.rotation += target.rotation_speed * time.delta_secs();
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transform.rotation = Quat::from_rotation_z(target.rotation);
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let offset = transform.right() * target.radius;
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transform.translation = target.origin.extend(0.0) + offset;
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}
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}
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/// System that moves the player, causing them to track a single enemy.
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/// The player will search for enemies if there are none.
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/// If there is one, player will track it.
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/// If there are too many enemies, the player will cease all action (the system will not run).
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fn track_targets(
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// `Single` ensures the system runs ONLY when exactly one matching entity exists.
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mut player: Single<(&mut Transform, &Player)>,
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// `Option<Single>` ensures that the system runs ONLY when zero or one matching entity exists.
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enemy: Option<Single<&Transform, (With<Enemy>, Without<Player>)>>,
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time: Res<Time>,
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) {
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let (player_transform, player) = &mut *player;
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if let Some(enemy_transform) = enemy {
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// Enemy found, rotate and move towards it.
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let delta = enemy_transform.translation - player_transform.translation;
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let distance = delta.length();
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let front = delta / distance;
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let up = Vec3::Z;
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let side = front.cross(up);
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player_transform.rotation = Quat::from_mat3(&Mat3::from_cols(side, front, up));
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let max_step = distance - player.min_follow_radius;
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if 0.0 < max_step {
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let velocity = (player.speed * time.delta_secs()).min(max_step);
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player_transform.translation += front * velocity;
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}
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} else {
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// 0 or multiple enemies found, keep searching.
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player_transform.rotate_axis(Dir3::Z, player.rotation_speed * time.delta_secs());
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}
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}
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/// This system always fails param validation, because we never
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/// create an entity with both [`Player`] and [`Enemy`] components.
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fn do_nothing_fail_validation(_: Single<(), (With<Player>, With<Enemy>)>) {}
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