206c7ce219
Huge thanks to @maniwani, @devil-ira, @hymm, @cart, @superdump and @jakobhellermann for the help with this PR. # Objective - Followup #6587. - Minimal integration for the Stageless Scheduling RFC: https://github.com/bevyengine/rfcs/pull/45 ## Solution - [x] Remove old scheduling module - [x] Migrate new methods to no longer use extension methods - [x] Fix compiler errors - [x] Fix benchmarks - [x] Fix examples - [x] Fix docs - [x] Fix tests ## Changelog ### Added - a large number of methods on `App` to work with schedules ergonomically - the `CoreSchedule` enum - `App::add_extract_system` via the `RenderingAppExtension` trait extension method - the private `prepare_view_uniforms` system now has a public system set for scheduling purposes, called `ViewSet::PrepareUniforms` ### Removed - stages, and all code that mentions stages - states have been dramatically simplified, and no longer use a stack - `RunCriteriaLabel` - `AsSystemLabel` trait - `on_hierarchy_reports_enabled` run criteria (now just uses an ad hoc resource checking run condition) - systems in `RenderSet/Stage::Extract` no longer warn when they do not read data from the main world - `RunCriteriaLabel` - `transform_propagate_system_set`: this was a nonstandard pattern that didn't actually provide enough control. The systems are already `pub`: the docs have been updated to ensure that the third-party usage is clear. ### Changed - `System::default_labels` is now `System::default_system_sets`. - `App::add_default_labels` is now `App::add_default_sets` - `CoreStage` and `StartupStage` enums are now `CoreSet` and `StartupSet` - `App::add_system_set` was renamed to `App::add_systems` - The `StartupSchedule` label is now defined as part of the `CoreSchedules` enum - `.label(SystemLabel)` is now referred to as `.in_set(SystemSet)` - `SystemLabel` trait was replaced by `SystemSet` - `SystemTypeIdLabel<T>` was replaced by `SystemSetType<T>` - The `ReportHierarchyIssue` resource now has a public constructor (`new`), and implements `PartialEq` - Fixed time steps now use a schedule (`CoreSchedule::FixedTimeStep`) rather than a run criteria. - Adding rendering extraction systems now panics rather than silently failing if no subapp with the `RenderApp` label is found. - the `calculate_bounds` system, with the `CalculateBounds` label, is now in `CoreSet::Update`, rather than in `CoreSet::PostUpdate` before commands are applied. - `SceneSpawnerSystem` now runs under `CoreSet::Update`, rather than `CoreStage::PreUpdate.at_end()`. - `bevy_pbr::add_clusters` is no longer an exclusive system - the top level `bevy_ecs::schedule` module was replaced with `bevy_ecs::scheduling` - `tick_global_task_pools_on_main_thread` is no longer run as an exclusive system. Instead, it has been replaced by `tick_global_task_pools`, which uses a `NonSend` resource to force running on the main thread. ## Migration Guide - Calls to `.label(MyLabel)` should be replaced with `.in_set(MySet)` - Stages have been removed. Replace these with system sets, and then add command flushes using the `apply_system_buffers` exclusive system where needed. - The `CoreStage`, `StartupStage, `RenderStage` and `AssetStage` enums have been replaced with `CoreSet`, `StartupSet, `RenderSet` and `AssetSet`. The same scheduling guarantees have been preserved. - Systems are no longer added to `CoreSet::Update` by default. Add systems manually if this behavior is needed, although you should consider adding your game logic systems to `CoreSchedule::FixedTimestep` instead for more reliable framerate-independent behavior. - Similarly, startup systems are no longer part of `StartupSet::Startup` by default. In most cases, this won't matter to you. - For example, `add_system_to_stage(CoreStage::PostUpdate, my_system)` should be replaced with - `add_system(my_system.in_set(CoreSet::PostUpdate)` - When testing systems or otherwise running them in a headless fashion, simply construct and run a schedule using `Schedule::new()` and `World::run_schedule` rather than constructing stages - Run criteria have been renamed to run conditions. These can now be combined with each other and with states. - Looping run criteria and state stacks have been removed. Use an exclusive system that runs a schedule if you need this level of control over system control flow. - For app-level control flow over which schedules get run when (such as for rollback networking), create your own schedule and insert it under the `CoreSchedule::Outer` label. - Fixed timesteps are now evaluated in a schedule, rather than controlled via run criteria. The `run_fixed_timestep` system runs this schedule between `CoreSet::First` and `CoreSet::PreUpdate` by default. - Command flush points introduced by `AssetStage` have been removed. If you were relying on these, add them back manually. - Adding extract systems is now typically done directly on the main app. Make sure the `RenderingAppExtension` trait is in scope, then call `app.add_extract_system(my_system)`. - the `calculate_bounds` system, with the `CalculateBounds` label, is now in `CoreSet::Update`, rather than in `CoreSet::PostUpdate` before commands are applied. You may need to order your movement systems to occur before this system in order to avoid system order ambiguities in culling behavior. - the `RenderLabel` `AppLabel` was renamed to `RenderApp` for clarity - `App::add_state` now takes 0 arguments: the starting state is set based on the `Default` impl. - Instead of creating `SystemSet` containers for systems that run in stages, simply use `.on_enter::<State::Variant>()` or its `on_exit` or `on_update` siblings. - `SystemLabel` derives should be replaced with `SystemSet`. You will also need to add the `Debug`, `PartialEq`, `Eq`, and `Hash` traits to satisfy the new trait bounds. - `with_run_criteria` has been renamed to `run_if`. Run criteria have been renamed to run conditions for clarity, and should now simply return a bool. - States have been dramatically simplified: there is no longer a "state stack". To queue a transition to the next state, call `NextState::set` ## TODO - [x] remove dead methods on App and World - [x] add `App::add_system_to_schedule` and `App::add_systems_to_schedule` - [x] avoid adding the default system set at inappropriate times - [x] remove any accidental cycles in the default plugins schedule - [x] migrate benchmarks - [x] expose explicit labels for the built-in command flush points - [x] migrate engine code - [x] remove all mentions of stages from the docs - [x] verify docs for States - [x] fix uses of exclusive systems that use .end / .at_start / .before_commands - [x] migrate RenderStage and AssetStage - [x] migrate examples - [x] ensure that transform propagation is exported in a sufficiently public way (the systems are already pub) - [x] ensure that on_enter schedules are run at least once before the main app - [x] re-enable opt-in to execution order ambiguities - [x] revert change to `update_bounds` to ensure it runs in `PostUpdate` - [x] test all examples - [x] unbreak directional lights - [x] unbreak shadows (see 3d_scene, 3d_shape, lighting, transparaency_3d examples) - [x] game menu example shows loading screen and menu simultaneously - [x] display settings menu is a blank screen - [x] `without_winit` example panics - [x] ensure all tests pass - [x] SubApp doc test fails - [x] runs_spawn_local tasks fails - [x] [Fix panic_when_hierachy_cycle test hanging](https://github.com/alice-i-cecile/bevy/pull/120) ## Points of Difficulty and Controversy **Reviewers, please give feedback on these and look closely** 1. Default sets, from the RFC, have been removed. These added a tremendous amount of implicit complexity and result in hard to debug scheduling errors. They're going to be tackled in the form of "base sets" by @cart in a followup. 2. The outer schedule controls which schedule is run when `App::update` is called. 3. I implemented `Label for `Box<dyn Label>` for our label types. This enables us to store schedule labels in concrete form, and then later run them. I ran into the same set of problems when working with one-shot systems. We've previously investigated this pattern in depth, and it does not appear to lead to extra indirection with nested boxes. 4. `SubApp::update` simply runs the default schedule once. This sucks, but this whole API is incomplete and this was the minimal changeset. 5. `time_system` and `tick_global_task_pools_on_main_thread` no longer use exclusive systems to attempt to force scheduling order 6. Implemetnation strategy for fixed timesteps 7. `AssetStage` was migrated to `AssetSet` without reintroducing command flush points. These did not appear to be used, and it's nice to remove these bottlenecks. 8. Migration of `bevy_render/lib.rs` and pipelined rendering. The logic here is unusually tricky, as we have complex scheduling requirements. ## Future Work (ideally before 0.10) - Rename schedule_v3 module to schedule or scheduling - Add a derive macro to states, and likely a `EnumIter` trait of some form - Figure out what exactly to do with the "systems added should basically work by default" problem - Improve ergonomics for working with fixed timesteps and states - Polish FixedTime API to match Time - Rebase and merge #7415 - Resolve all internal ambiguities (blocked on better tools, especially #7442) - Add "base sets" to replace the removed default sets.
246 lines
8.0 KiB
Rust
246 lines
8.0 KiB
Rust
//! A compute shader that simulates Conway's Game of Life.
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//!
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//! Compute shaders use the GPU for computing arbitrary information, that may be independent of what
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//! is rendered to the screen.
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use bevy::{
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prelude::*,
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render::{
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extract_resource::{ExtractResource, ExtractResourcePlugin},
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render_asset::RenderAssets,
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render_graph::{self, RenderGraph},
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render_resource::*,
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renderer::{RenderContext, RenderDevice},
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RenderApp, RenderSet,
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},
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window::WindowPlugin,
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};
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use std::borrow::Cow;
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const SIZE: (u32, u32) = (1280, 720);
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const WORKGROUP_SIZE: u32 = 8;
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fn main() {
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App::new()
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.insert_resource(ClearColor(Color::BLACK))
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.add_plugins(DefaultPlugins.set(WindowPlugin {
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primary_window: Some(Window {
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// uncomment for unthrottled FPS
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// present_mode: bevy::window::PresentMode::AutoNoVsync,
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..default()
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}),
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..default()
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}))
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.add_plugin(GameOfLifeComputePlugin)
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.add_startup_system(setup)
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.run();
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}
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fn setup(mut commands: Commands, mut images: ResMut<Assets<Image>>) {
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let mut image = Image::new_fill(
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Extent3d {
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width: SIZE.0,
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height: SIZE.1,
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depth_or_array_layers: 1,
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},
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TextureDimension::D2,
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&[0, 0, 0, 255],
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TextureFormat::Rgba8Unorm,
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);
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image.texture_descriptor.usage =
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TextureUsages::COPY_DST | TextureUsages::STORAGE_BINDING | TextureUsages::TEXTURE_BINDING;
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let image = images.add(image);
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commands.spawn(SpriteBundle {
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sprite: Sprite {
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custom_size: Some(Vec2::new(SIZE.0 as f32, SIZE.1 as f32)),
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..default()
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},
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texture: image.clone(),
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..default()
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});
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commands.spawn(Camera2dBundle::default());
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commands.insert_resource(GameOfLifeImage(image));
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}
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pub struct GameOfLifeComputePlugin;
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impl Plugin for GameOfLifeComputePlugin {
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fn build(&self, app: &mut App) {
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// Extract the game of life image resource from the main world into the render world
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// for operation on by the compute shader and display on the sprite.
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app.add_plugin(ExtractResourcePlugin::<GameOfLifeImage>::default());
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let render_app = app.sub_app_mut(RenderApp);
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render_app
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.init_resource::<GameOfLifePipeline>()
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.add_system(queue_bind_group.in_set(RenderSet::Queue));
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let mut render_graph = render_app.world.resource_mut::<RenderGraph>();
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render_graph.add_node("game_of_life", GameOfLifeNode::default());
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render_graph.add_node_edge(
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"game_of_life",
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bevy::render::main_graph::node::CAMERA_DRIVER,
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);
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}
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}
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#[derive(Resource, Clone, Deref, ExtractResource)]
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struct GameOfLifeImage(Handle<Image>);
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#[derive(Resource)]
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struct GameOfLifeImageBindGroup(BindGroup);
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fn queue_bind_group(
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mut commands: Commands,
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pipeline: Res<GameOfLifePipeline>,
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gpu_images: Res<RenderAssets<Image>>,
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game_of_life_image: Res<GameOfLifeImage>,
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render_device: Res<RenderDevice>,
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) {
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let view = &gpu_images[&game_of_life_image.0];
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let bind_group = render_device.create_bind_group(&BindGroupDescriptor {
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label: None,
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layout: &pipeline.texture_bind_group_layout,
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entries: &[BindGroupEntry {
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binding: 0,
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resource: BindingResource::TextureView(&view.texture_view),
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}],
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});
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commands.insert_resource(GameOfLifeImageBindGroup(bind_group));
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}
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#[derive(Resource)]
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pub struct GameOfLifePipeline {
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texture_bind_group_layout: BindGroupLayout,
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init_pipeline: CachedComputePipelineId,
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update_pipeline: CachedComputePipelineId,
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}
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impl FromWorld for GameOfLifePipeline {
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fn from_world(world: &mut World) -> Self {
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let texture_bind_group_layout =
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world
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.resource::<RenderDevice>()
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.create_bind_group_layout(&BindGroupLayoutDescriptor {
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label: None,
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entries: &[BindGroupLayoutEntry {
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binding: 0,
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visibility: ShaderStages::COMPUTE,
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ty: BindingType::StorageTexture {
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access: StorageTextureAccess::ReadWrite,
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format: TextureFormat::Rgba8Unorm,
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view_dimension: TextureViewDimension::D2,
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},
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count: None,
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}],
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});
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let shader = world
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.resource::<AssetServer>()
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.load("shaders/game_of_life.wgsl");
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let pipeline_cache = world.resource::<PipelineCache>();
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let init_pipeline = pipeline_cache.queue_compute_pipeline(ComputePipelineDescriptor {
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label: None,
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layout: Some(vec![texture_bind_group_layout.clone()]),
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shader: shader.clone(),
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shader_defs: vec![],
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entry_point: Cow::from("init"),
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});
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let update_pipeline = pipeline_cache.queue_compute_pipeline(ComputePipelineDescriptor {
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label: None,
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layout: Some(vec![texture_bind_group_layout.clone()]),
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shader,
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shader_defs: vec![],
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entry_point: Cow::from("update"),
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});
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GameOfLifePipeline {
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texture_bind_group_layout,
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init_pipeline,
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update_pipeline,
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}
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}
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}
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enum GameOfLifeState {
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Loading,
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Init,
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Update,
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}
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struct GameOfLifeNode {
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state: GameOfLifeState,
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}
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impl Default for GameOfLifeNode {
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fn default() -> Self {
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Self {
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state: GameOfLifeState::Loading,
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}
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}
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}
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impl render_graph::Node for GameOfLifeNode {
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fn update(&mut self, world: &mut World) {
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let pipeline = world.resource::<GameOfLifePipeline>();
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let pipeline_cache = world.resource::<PipelineCache>();
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// if the corresponding pipeline has loaded, transition to the next stage
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match self.state {
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GameOfLifeState::Loading => {
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if let CachedPipelineState::Ok(_) =
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pipeline_cache.get_compute_pipeline_state(pipeline.init_pipeline)
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{
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self.state = GameOfLifeState::Init;
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}
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}
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GameOfLifeState::Init => {
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if let CachedPipelineState::Ok(_) =
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pipeline_cache.get_compute_pipeline_state(pipeline.update_pipeline)
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{
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self.state = GameOfLifeState::Update;
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}
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}
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GameOfLifeState::Update => {}
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}
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}
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fn run(
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&self,
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_graph: &mut render_graph::RenderGraphContext,
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render_context: &mut RenderContext,
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world: &World,
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) -> Result<(), render_graph::NodeRunError> {
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let texture_bind_group = &world.resource::<GameOfLifeImageBindGroup>().0;
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let pipeline_cache = world.resource::<PipelineCache>();
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let pipeline = world.resource::<GameOfLifePipeline>();
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let mut pass = render_context
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.command_encoder()
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.begin_compute_pass(&ComputePassDescriptor::default());
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pass.set_bind_group(0, texture_bind_group, &[]);
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// select the pipeline based on the current state
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match self.state {
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GameOfLifeState::Loading => {}
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GameOfLifeState::Init => {
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let init_pipeline = pipeline_cache
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.get_compute_pipeline(pipeline.init_pipeline)
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.unwrap();
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pass.set_pipeline(init_pipeline);
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pass.dispatch_workgroups(SIZE.0 / WORKGROUP_SIZE, SIZE.1 / WORKGROUP_SIZE, 1);
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}
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GameOfLifeState::Update => {
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let update_pipeline = pipeline_cache
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.get_compute_pipeline(pipeline.update_pipeline)
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.unwrap();
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pass.set_pipeline(update_pipeline);
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pass.dispatch_workgroups(SIZE.0 / WORKGROUP_SIZE, SIZE.1 / WORKGROUP_SIZE, 1);
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}
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}
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Ok(())
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}
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}
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