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bevy/examples/stress_tests/many_foxes.rs
Kanabenki e3cf5f8fb2
Use the Continuous update mode in stress tests when unfocused (#11652) 
# Objective

- When running any of the stress tests, the refresh rate is currently
capped to 60hz because of the `ReactiveLowPower` default used when the
window is not in focus. Since stress tests should run as fast as
possible (and as such vsync is disabled for all of them), it makes sense
to always run them in `Continuous` mode. This is especially useful to
avoid capturing non-representative frame times when recording a Tracy
frame.

## Solution

- Always use the `Continuous` update mode in stress tests.
2024-02-01 19:22:47 +00:00

321 lines
9.2 KiB
Rust
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//! Loads animations from a skinned glTF, spawns many of them, and plays the
//! animation to stress test skinned meshes.
use std::f32::consts::PI;
use std::time::Duration;
use argh::FromArgs;
use bevy::{
diagnostic::{FrameTimeDiagnosticsPlugin, LogDiagnosticsPlugin},
pbr::CascadeShadowConfigBuilder,
prelude::*,
window::{PresentMode, WindowPlugin, WindowResolution},
winit::{UpdateMode, WinitSettings},
};
#[derive(FromArgs, Resource)]
/// `many_foxes` stress test
struct Args {
/// whether all foxes run in sync.
#[argh(switch)]
sync: bool,
/// total number of foxes.
#[argh(option, default = "1000")]
count: usize,
}
#[derive(Resource)]
struct Foxes {
count: usize,
speed: f32,
moving: bool,
sync: bool,
}
fn main() {
// `from_env` panics on the web
#[cfg(not(target_arch = "wasm32"))]
let args: Args = argh::from_env();
#[cfg(target_arch = "wasm32")]
let args = Args::from_args(&[], &[]).unwrap();
App::new()
.add_plugins((
DefaultPlugins.set(WindowPlugin {
primary_window: Some(Window {
title: "🦊🦊🦊 Many Foxes! 🦊🦊🦊".into(),
present_mode: PresentMode::AutoNoVsync,
resolution: WindowResolution::new(1920.0, 1080.0)
.with_scale_factor_override(1.0),
..default()
}),
..default()
}),
FrameTimeDiagnosticsPlugin,
LogDiagnosticsPlugin::default(),
))
.insert_resource(WinitSettings {
focused_mode: UpdateMode::Continuous,
unfocused_mode: UpdateMode::Continuous,
})
.insert_resource(Foxes {
count: args.count,
speed: 2.0,
moving: true,
sync: args.sync,
})
.insert_resource(AmbientLight {
color: Color::WHITE,
brightness: 100.0,
})
.add_systems(Startup, setup)
.add_systems(
Update,
(
setup_scene_once_loaded,
keyboard_animation_control,
update_fox_rings.after(keyboard_animation_control),
),
)
.run();
}
#[derive(Resource)]
struct Animations(Vec<Handle<AnimationClip>>);
const RING_SPACING: f32 = 2.0;
const FOX_SPACING: f32 = 2.0;
#[derive(Component, Clone, Copy)]
enum RotationDirection {
CounterClockwise,
Clockwise,
}
impl RotationDirection {
fn sign(&self) -> f32 {
match self {
RotationDirection::CounterClockwise => 1.0,
RotationDirection::Clockwise => -1.0,
}
}
}
#[derive(Component)]
struct Ring {
radius: f32,
}
fn setup(
mut commands: Commands,
asset_server: Res<AssetServer>,
mut meshes: ResMut<Assets<Mesh>>,
mut materials: ResMut<Assets<StandardMaterial>>,
foxes: Res<Foxes>,
) {
warn!(include_str!("warning_string.txt"));
// Insert a resource with the current scene information
commands.insert_resource(Animations(vec![
asset_server.load("models/animated/Fox.glb#Animation2"),
asset_server.load("models/animated/Fox.glb#Animation1"),
asset_server.load("models/animated/Fox.glb#Animation0"),
]));
// Foxes
// Concentric rings of foxes, running in opposite directions. The rings are spaced at 2m radius intervals.
// The foxes in each ring are spaced at least 2m apart around its circumference.'
// NOTE: This fox model faces +z
let fox_handle = asset_server.load("models/animated/Fox.glb#Scene0");
let ring_directions = [
(
Quat::from_rotation_y(PI),
RotationDirection::CounterClockwise,
),
(Quat::IDENTITY, RotationDirection::Clockwise),
];
let mut ring_index = 0;
let mut radius = RING_SPACING;
let mut foxes_remaining = foxes.count;
info!("Spawning {} foxes...", foxes.count);
while foxes_remaining > 0 {
let (base_rotation, ring_direction) = ring_directions[ring_index % 2];
let ring_parent = commands
.spawn((
SpatialBundle::INHERITED_IDENTITY,
ring_direction,
Ring { radius },
))
.id();
let circumference = PI * 2. * radius;
let foxes_in_ring = ((circumference / FOX_SPACING) as usize).min(foxes_remaining);
let fox_spacing_angle = circumference / (foxes_in_ring as f32 * radius);
for fox_i in 0..foxes_in_ring {
let fox_angle = fox_i as f32 * fox_spacing_angle;
let (s, c) = fox_angle.sin_cos();
let (x, z) = (radius * c, radius * s);
commands.entity(ring_parent).with_children(|builder| {
builder.spawn(SceneBundle {
scene: fox_handle.clone(),
transform: Transform::from_xyz(x, 0.0, z)
.with_scale(Vec3::splat(0.01))
.with_rotation(base_rotation * Quat::from_rotation_y(-fox_angle)),
..default()
});
});
}
foxes_remaining -= foxes_in_ring;
radius += RING_SPACING;
ring_index += 1;
}
// Camera
let zoom = 0.8;
let translation = Vec3::new(
radius * 1.25 * zoom,
radius * 0.5 * zoom,
radius * 1.5 * zoom,
);
commands.spawn(Camera3dBundle {
transform: Transform::from_translation(translation)
.looking_at(0.2 * Vec3::new(translation.x, 0.0, translation.z), Vec3::Y),
..default()
});
// Plane
commands.spawn(PbrBundle {
mesh: meshes.add(shape::Plane::from_size(5000.0)),
material: materials.add(Color::rgb(0.3, 0.5, 0.3)),
..default()
});
// Light
commands.spawn(DirectionalLightBundle {
transform: Transform::from_rotation(Quat::from_euler(EulerRot::ZYX, 0.0, 1.0, -PI / 4.)),
directional_light: DirectionalLight {
illuminance: 3000.0,
shadows_enabled: true,
..default()
},
cascade_shadow_config: CascadeShadowConfigBuilder {
first_cascade_far_bound: 0.9 * radius,
maximum_distance: 2.8 * radius,
..default()
}
.into(),
..default()
});
println!("Animation controls:");
println!(" - spacebar: play / pause");
println!(" - arrow up / down: speed up / slow down animation playback");
println!(" - arrow left / right: seek backward / forward");
println!(" - return: change animation");
}
// Once the scene is loaded, start the animation
fn setup_scene_once_loaded(
animations: Res<Animations>,
foxes: Res<Foxes>,
mut player: Query<(Entity, &mut AnimationPlayer)>,
mut done: Local<bool>,
) {
if !*done && player.iter().len() == foxes.count {
for (entity, mut player) in &mut player {
player.play(animations.0[0].clone_weak()).repeat();
if !foxes.sync {
player.seek_to(entity.index() as f32 / 10.0);
}
}
*done = true;
}
}
fn update_fox_rings(
time: Res<Time>,
foxes: Res<Foxes>,
mut rings: Query<(&Ring, &RotationDirection, &mut Transform)>,
) {
if !foxes.moving {
return;
}
let dt = time.delta_seconds();
for (ring, rotation_direction, mut transform) in &mut rings {
let angular_velocity = foxes.speed / ring.radius;
transform.rotate_y(rotation_direction.sign() * angular_velocity * dt);
}
}
fn keyboard_animation_control(
keyboard_input: Res<ButtonInput<KeyCode>>,
mut animation_player: Query<&mut AnimationPlayer>,
animations: Res<Animations>,
mut current_animation: Local<usize>,
mut foxes: ResMut<Foxes>,
) {
if keyboard_input.just_pressed(KeyCode::Space) {
foxes.moving = !foxes.moving;
}
if keyboard_input.just_pressed(KeyCode::ArrowUp) {
foxes.speed *= 1.25;
}
if keyboard_input.just_pressed(KeyCode::ArrowDown) {
foxes.speed *= 0.8;
}
if keyboard_input.just_pressed(KeyCode::Enter) {
*current_animation = (*current_animation + 1) % animations.0.len();
}
for mut player in &mut animation_player {
if keyboard_input.just_pressed(KeyCode::Space) {
if player.is_paused() {
player.resume();
} else {
player.pause();
}
}
if keyboard_input.just_pressed(KeyCode::ArrowUp) {
let speed = player.speed();
player.set_speed(speed * 1.25);
}
if keyboard_input.just_pressed(KeyCode::ArrowDown) {
let speed = player.speed();
player.set_speed(speed * 0.8);
}
if keyboard_input.just_pressed(KeyCode::ArrowLeft) {
let elapsed = player.seek_time();
player.seek_to(elapsed - 0.1);
}
if keyboard_input.just_pressed(KeyCode::ArrowRight) {
let elapsed = player.seek_time();
player.seek_to(elapsed + 0.1);
}
if keyboard_input.just_pressed(KeyCode::Enter) {
player
.play_with_transition(
animations.0[*current_animation].clone_weak(),
Duration::from_millis(250),
)
.repeat();
}
}
}
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