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lib.rs
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lib.rs
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extern crate core;
pub mod camera;
pub mod color;
pub mod extract_component;
pub mod extract_resource;
pub mod mesh;
pub mod primitives;
pub mod render_asset;
pub mod render_graph;
pub mod render_phase;
pub mod render_resource;
pub mod renderer;
pub mod settings;
pub mod texture;
pub mod view;
pub mod prelude {
#[doc(hidden)]
pub use crate::{
camera::{Camera, OrthographicProjection, PerspectiveProjection},
color::Color,
mesh::{shape, Mesh},
render_resource::Shader,
texture::Image,
view::{ComputedVisibility, Msaa, Visibility},
};
}
pub use once_cell;
use crate::{
camera::CameraPlugin,
color::Color,
mesh::MeshPlugin,
primitives::{CubemapFrusta, Frustum},
render_graph::RenderGraph,
render_resource::{PipelineCache, Shader, ShaderLoader},
renderer::render_system,
texture::ImagePlugin,
view::{ViewPlugin, WindowRenderPlugin},
};
use bevy_app::{App, AppLabel, Plugin};
use bevy_asset::{AddAsset, AssetServer};
use bevy_ecs::prelude::*;
use bevy_utils::tracing::debug;
use std::ops::{Deref, DerefMut};
/// Contains the default Bevy rendering backend based on wgpu.
#[derive(Default)]
pub struct RenderPlugin;
/// The labels of the default App rendering stages.
#[derive(Debug, Hash, PartialEq, Eq, Clone, StageLabel)]
pub enum RenderStage {
/// Extract data from the "app world" and insert it into the "render world".
/// This step should be kept as short as possible to increase the "pipelining potential" for
/// running the next frame while rendering the current frame.
Extract,
/// Prepare render resources from the extracted data for the GPU.
Prepare,
/// Create [`BindGroups`](crate::render_resource::BindGroup) that depend on
/// [`Prepare`](RenderStage::Prepare) data and queue up draw calls to run during the
/// [`Render`](RenderStage::Render) stage.
Queue,
// TODO: This could probably be moved in favor of a system ordering abstraction in Render or Queue
/// Sort the [`RenderPhases`](crate::render_phase::RenderPhase) here.
PhaseSort,
/// Actual rendering happens here.
/// In most cases, only the render backend should insert resources here.
Render,
/// Cleanup render resources here.
Cleanup,
}
/// The Render App World. This is only available as a resource during the Extract step.
#[derive(Default)]
pub struct RenderWorld(World);
impl Deref for RenderWorld {
type Target = World;
fn deref(&self) -> &Self::Target {
&self.0
}
}
impl DerefMut for RenderWorld {
fn deref_mut(&mut self) -> &mut Self::Target {
&mut self.0
}
}
pub mod main_graph {
pub mod node {
pub const CAMERA_DRIVER: &str = "camera_driver";
}
}
/// A Label for the rendering sub-app.
#[derive(Debug, Clone, Copy, Hash, PartialEq, Eq, AppLabel)]
pub struct RenderApp;
/// A "scratch" world used to avoid allocating new worlds every frame when
/// swapping out the [`RenderWorld`].
#[derive(Default)]
struct ScratchRenderWorld(World);
impl Plugin for RenderPlugin {
/// Initializes the renderer, sets up the [`RenderStage`](RenderStage) and creates the rendering sub-app.
fn build(&self, app: &mut App) {
let options = app
.world
.get_resource::<settings::WgpuSettings>()
.cloned()
.unwrap_or_default();
app.add_asset::<Shader>()
.add_debug_asset::<Shader>()
.init_asset_loader::<ShaderLoader>()
.init_debug_asset_loader::<ShaderLoader>()
.register_type::<Color>();
if let Some(backends) = options.backends {
let instance = wgpu::Instance::new(backends);
let surface = {
let windows = app.world.resource_mut::<bevy_window::Windows>();
let raw_handle = windows.get_primary().map(|window| unsafe {
let handle = window.raw_window_handle().get_handle();
instance.create_surface(&handle)
});
raw_handle
};
let request_adapter_options = wgpu::RequestAdapterOptions {
power_preference: options.power_preference,
compatible_surface: surface.as_ref(),
..Default::default()
};
let (device, queue, adapter_info) = futures_lite::future::block_on(
renderer::initialize_renderer(&instance, &options, &request_adapter_options),
);
debug!("Configured wgpu adapter Limits: {:#?}", device.limits());
debug!("Configured wgpu adapter Features: {:#?}", device.features());
app.insert_resource(device.clone())
.insert_resource(queue.clone())
.insert_resource(adapter_info.clone())
.init_resource::<ScratchRenderWorld>()
.register_type::<Frustum>()
.register_type::<CubemapFrusta>();
let pipeline_cache = PipelineCache::new(device.clone());
let asset_server = app.world.resource::<AssetServer>().clone();
let mut render_app = App::empty();
let mut extract_stage =
SystemStage::parallel().with_system(PipelineCache::extract_shaders);
// don't apply buffers when the stage finishes running
// extract stage runs on the app world, but the buffers are applied to the render world
extract_stage.set_apply_buffers(false);
render_app
.add_stage(RenderStage::Extract, extract_stage)
.add_stage(RenderStage::Prepare, SystemStage::parallel())
.add_stage(RenderStage::Queue, SystemStage::parallel())
.add_stage(RenderStage::PhaseSort, SystemStage::parallel())
.add_stage(
RenderStage::Render,
SystemStage::parallel()
.with_system(PipelineCache::process_pipeline_queue_system)
.with_system(render_system.exclusive_system().at_end()),
)
.add_stage(RenderStage::Cleanup, SystemStage::parallel())
.init_resource::<RenderGraph>()
.insert_resource(instance)
.insert_resource(device)
.insert_resource(queue)
.insert_resource(adapter_info)
.insert_resource(pipeline_cache)
.insert_resource(asset_server)
.init_resource::<RenderGraph>();
app.add_sub_app(RenderApp, render_app, move |app_world, render_app| {
#[cfg(feature = "trace")]
let _render_span = bevy_utils::tracing::info_span!("renderer subapp").entered();
{
#[cfg(feature = "trace")]
let _stage_span =
bevy_utils::tracing::info_span!("stage", name = "reserve_and_flush")
.entered();
// reserve all existing app entities for use in render_app
// they can only be spawned using `get_or_spawn()`
let meta_len = app_world.entities().meta_len();
render_app
.world
.entities()
.reserve_entities(meta_len as u32);
// flushing as "invalid" ensures that app world entities aren't added as "empty archetype" entities by default
// these entities cannot be accessed without spawning directly onto them
// this _only_ works as expected because clear_entities() is called at the end of every frame.
unsafe { render_app.world.entities_mut() }.flush_as_invalid();
}
{
#[cfg(feature = "trace")]
let _stage_span =
bevy_utils::tracing::info_span!("stage", name = "extract").entered();
// extract
extract(app_world, render_app);
}
{
#[cfg(feature = "trace")]
let _stage_span =
bevy_utils::tracing::info_span!("stage", name = "prepare").entered();
// prepare
let prepare = render_app
.schedule
.get_stage_mut::<SystemStage>(&RenderStage::Prepare)
.unwrap();
prepare.run(&mut render_app.world);
}
{
#[cfg(feature = "trace")]
let _stage_span =
bevy_utils::tracing::info_span!("stage", name = "queue").entered();
// queue
let queue = render_app
.schedule
.get_stage_mut::<SystemStage>(&RenderStage::Queue)
.unwrap();
queue.run(&mut render_app.world);
}
{
#[cfg(feature = "trace")]
let _stage_span =
bevy_utils::tracing::info_span!("stage", name = "sort").entered();
// phase sort
let phase_sort = render_app
.schedule
.get_stage_mut::<SystemStage>(&RenderStage::PhaseSort)
.unwrap();
phase_sort.run(&mut render_app.world);
}
{
#[cfg(feature = "trace")]
let _stage_span =
bevy_utils::tracing::info_span!("stage", name = "render").entered();
// render
let render = render_app
.schedule
.get_stage_mut::<SystemStage>(&RenderStage::Render)
.unwrap();
render.run(&mut render_app.world);
}
{
#[cfg(feature = "trace")]
let _stage_span =
bevy_utils::tracing::info_span!("stage", name = "cleanup").entered();
// cleanup
let cleanup = render_app
.schedule
.get_stage_mut::<SystemStage>(&RenderStage::Cleanup)
.unwrap();
cleanup.run(&mut render_app.world);
}
{
#[cfg(feature = "trace")]
let _stage_span =
bevy_utils::tracing::info_span!("stage", name = "clear_entities").entered();
render_app.world.clear_entities();
}
});
}
app.add_plugin(WindowRenderPlugin)
.add_plugin(CameraPlugin)
.add_plugin(ViewPlugin)
.add_plugin(MeshPlugin)
// NOTE: Load this after renderer initialization so that it knows about the supported
// compressed texture formats
.add_plugin(ImagePlugin);
}
}
/// Executes the [`Extract`](RenderStage::Extract) stage of the renderer.
/// This updates the render world with the extracted ECS data of the current frame.
fn extract(app_world: &mut World, render_app: &mut App) {
let extract = render_app
.schedule
.get_stage_mut::<SystemStage>(&RenderStage::Extract)
.unwrap();
// temporarily add the render world to the app world as a resource
let scratch_world = app_world.remove_resource::<ScratchRenderWorld>().unwrap();
let render_world = std::mem::replace(&mut render_app.world, scratch_world.0);
app_world.insert_resource(RenderWorld(render_world));
extract.run(app_world);
// add the render world back to the render app
let render_world = app_world.remove_resource::<RenderWorld>().unwrap();
let scratch_world = std::mem::replace(&mut render_app.world, render_world.0);
app_world.insert_resource(ScratchRenderWorld(scratch_world));
extract.apply_buffers(&mut render_app.world);
}