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compute_shader_game_of_life.rs
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compute_shader_game_of_life.rs
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//! A compute shader that simulates Conway's Game of Life.
//!
//! Compute shaders use the GPU for computing arbitrary information, that may be independent of what
//! is rendered to the screen.
use bevy::{
prelude::*,
render::{
extract_resource::{ExtractResource, ExtractResourcePlugin},
render_asset::{RenderAssetUsages, RenderAssets},
render_graph::{self, RenderGraph, RenderLabel},
render_resource::{binding_types::texture_storage_2d, *},
renderer::{RenderContext, RenderDevice},
texture::GpuImage,
Render, RenderApp, RenderSet,
},
};
use std::borrow::Cow;
/// This example uses a shader source file from the assets subdirectory
const SHADER_ASSET_PATH: &str = "shaders/game_of_life.wgsl";
const DISPLAY_FACTOR: u32 = 4;
const SIZE: (u32, u32) = (1280 / DISPLAY_FACTOR, 720 / DISPLAY_FACTOR);
const WORKGROUP_SIZE: u32 = 8;
fn main() {
App::new()
.insert_resource(ClearColor(Color::BLACK))
.add_plugins((
DefaultPlugins
.set(WindowPlugin {
primary_window: Some(Window {
resolution: (
(SIZE.0 * DISPLAY_FACTOR) as f32,
(SIZE.1 * DISPLAY_FACTOR) as f32,
)
.into(),
// uncomment for unthrottled FPS
// present_mode: bevy::window::PresentMode::AutoNoVsync,
..default()
}),
..default()
})
.set(ImagePlugin::default_nearest()),
GameOfLifeComputePlugin,
))
.add_systems(Startup, setup)
.add_systems(Update, switch_textures)
.run();
}
fn setup(mut commands: Commands, mut images: ResMut<Assets<Image>>) {
let mut image = Image::new_fill(
Extent3d {
width: SIZE.0,
height: SIZE.1,
depth_or_array_layers: 1,
},
TextureDimension::D2,
&[0, 0, 0, 255],
TextureFormat::R32Float,
RenderAssetUsages::RENDER_WORLD,
);
image.texture_descriptor.usage =
TextureUsages::COPY_DST | TextureUsages::STORAGE_BINDING | TextureUsages::TEXTURE_BINDING;
let image0 = images.add(image.clone());
let image1 = images.add(image);
commands.spawn((
Sprite {
image: image0.clone(),
custom_size: Some(Vec2::new(SIZE.0 as f32, SIZE.1 as f32)),
..default()
},
Transform::from_scale(Vec3::splat(DISPLAY_FACTOR as f32)),
));
commands.spawn(Camera2d);
commands.insert_resource(GameOfLifeImages {
texture_a: image0,
texture_b: image1,
});
}
// Switch texture to display every frame to show the one that was written to most recently.
fn switch_textures(images: Res<GameOfLifeImages>, mut sprite: Single<&mut Sprite>) {
if sprite.image == images.texture_a {
sprite.image = images.texture_b.clone_weak();
} else {
sprite.image = images.texture_a.clone_weak();
}
}
struct GameOfLifeComputePlugin;
#[derive(Debug, Hash, PartialEq, Eq, Clone, RenderLabel)]
struct GameOfLifeLabel;
impl Plugin for GameOfLifeComputePlugin {
fn build(&self, app: &mut App) {
// Extract the game of life image resource from the main world into the render world
// for operation on by the compute shader and display on the sprite.
app.add_plugins(ExtractResourcePlugin::<GameOfLifeImages>::default());
let render_app = app.sub_app_mut(RenderApp);
render_app.add_systems(
Render,
prepare_bind_group.in_set(RenderSet::PrepareBindGroups),
);
let mut render_graph = render_app.world_mut().resource_mut::<RenderGraph>();
render_graph.add_node(GameOfLifeLabel, GameOfLifeNode::default());
render_graph.add_node_edge(GameOfLifeLabel, bevy::render::graph::CameraDriverLabel);
}
fn finish(&self, app: &mut App) {
let render_app = app.sub_app_mut(RenderApp);
render_app.init_resource::<GameOfLifePipeline>();
}
}
#[derive(Resource, Clone, ExtractResource)]
struct GameOfLifeImages {
texture_a: Handle<Image>,
texture_b: Handle<Image>,
}
#[derive(Resource)]
struct GameOfLifeImageBindGroups([BindGroup; 2]);
fn prepare_bind_group(
mut commands: Commands,
pipeline: Res<GameOfLifePipeline>,
gpu_images: Res<RenderAssets<GpuImage>>,
game_of_life_images: Res<GameOfLifeImages>,
render_device: Res<RenderDevice>,
) {
let view_a = gpu_images.get(&game_of_life_images.texture_a).unwrap();
let view_b = gpu_images.get(&game_of_life_images.texture_b).unwrap();
let bind_group_0 = render_device.create_bind_group(
None,
&pipeline.texture_bind_group_layout,
&BindGroupEntries::sequential((&view_a.texture_view, &view_b.texture_view)),
);
let bind_group_1 = render_device.create_bind_group(
None,
&pipeline.texture_bind_group_layout,
&BindGroupEntries::sequential((&view_b.texture_view, &view_a.texture_view)),
);
commands.insert_resource(GameOfLifeImageBindGroups([bind_group_0, bind_group_1]));
}
#[derive(Resource)]
struct GameOfLifePipeline {
texture_bind_group_layout: BindGroupLayout,
init_pipeline: CachedComputePipelineId,
update_pipeline: CachedComputePipelineId,
}
impl FromWorld for GameOfLifePipeline {
fn from_world(world: &mut World) -> Self {
let render_device = world.resource::<RenderDevice>();
let texture_bind_group_layout = render_device.create_bind_group_layout(
"GameOfLifeImages",
&BindGroupLayoutEntries::sequential(
ShaderStages::COMPUTE,
(
texture_storage_2d(TextureFormat::R32Float, StorageTextureAccess::ReadOnly),
texture_storage_2d(TextureFormat::R32Float, StorageTextureAccess::WriteOnly),
),
),
);
let shader = world.load_asset(SHADER_ASSET_PATH);
let pipeline_cache = world.resource::<PipelineCache>();
let init_pipeline = pipeline_cache.queue_compute_pipeline(ComputePipelineDescriptor {
label: None,
layout: vec![texture_bind_group_layout.clone()],
push_constant_ranges: Vec::new(),
shader: shader.clone(),
shader_defs: vec![],
entry_point: Cow::from("init"),
zero_initialize_workgroup_memory: false,
});
let update_pipeline = pipeline_cache.queue_compute_pipeline(ComputePipelineDescriptor {
label: None,
layout: vec![texture_bind_group_layout.clone()],
push_constant_ranges: Vec::new(),
shader,
shader_defs: vec![],
entry_point: Cow::from("update"),
zero_initialize_workgroup_memory: false,
});
GameOfLifePipeline {
texture_bind_group_layout,
init_pipeline,
update_pipeline,
}
}
}
enum GameOfLifeState {
Loading,
Init,
Update(usize),
}
struct GameOfLifeNode {
state: GameOfLifeState,
}
impl Default for GameOfLifeNode {
fn default() -> Self {
Self {
state: GameOfLifeState::Loading,
}
}
}
impl render_graph::Node for GameOfLifeNode {
fn update(&mut self, world: &mut World) {
let pipeline = world.resource::<GameOfLifePipeline>();
let pipeline_cache = world.resource::<PipelineCache>();
// if the corresponding pipeline has loaded, transition to the next stage
match self.state {
GameOfLifeState::Loading => {
match pipeline_cache.get_compute_pipeline_state(pipeline.init_pipeline) {
CachedPipelineState::Ok(_) => {
self.state = GameOfLifeState::Init;
}
CachedPipelineState::Err(err) => {
panic!("Initializing assets/{SHADER_ASSET_PATH}:\n{err}")
}
_ => {}
}
}
GameOfLifeState::Init => {
if let CachedPipelineState::Ok(_) =
pipeline_cache.get_compute_pipeline_state(pipeline.update_pipeline)
{
self.state = GameOfLifeState::Update(1);
}
}
GameOfLifeState::Update(0) => {
self.state = GameOfLifeState::Update(1);
}
GameOfLifeState::Update(1) => {
self.state = GameOfLifeState::Update(0);
}
GameOfLifeState::Update(_) => unreachable!(),
}
}
fn run(
&self,
_graph: &mut render_graph::RenderGraphContext,
render_context: &mut RenderContext,
world: &World,
) -> Result<(), render_graph::NodeRunError> {
let bind_groups = &world.resource::<GameOfLifeImageBindGroups>().0;
let pipeline_cache = world.resource::<PipelineCache>();
let pipeline = world.resource::<GameOfLifePipeline>();
let mut pass = render_context
.command_encoder()
.begin_compute_pass(&ComputePassDescriptor::default());
// select the pipeline based on the current state
match self.state {
GameOfLifeState::Loading => {}
GameOfLifeState::Init => {
let init_pipeline = pipeline_cache
.get_compute_pipeline(pipeline.init_pipeline)
.unwrap();
pass.set_bind_group(0, &bind_groups[0], &[]);
pass.set_pipeline(init_pipeline);
pass.dispatch_workgroups(SIZE.0 / WORKGROUP_SIZE, SIZE.1 / WORKGROUP_SIZE, 1);
}
GameOfLifeState::Update(index) => {
let update_pipeline = pipeline_cache
.get_compute_pipeline(pipeline.update_pipeline)
.unwrap();
pass.set_bind_group(0, &bind_groups[index], &[]);
pass.set_pipeline(update_pipeline);
pass.dispatch_workgroups(SIZE.0 / WORKGROUP_SIZE, SIZE.1 / WORKGROUP_SIZE, 1);
}
}
Ok(())
}
}