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https://github.com/bevyengine/bevy
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938d810766
# Objective Fixes #14782 ## Solution Enable the lint and fix all upcoming hints (`--fix`). Also tried to figure out the false-positive (see review comment). Maybe split this PR up into multiple parts where only the last one enables the lint, so some can already be merged resulting in less many files touched / less potential for merge conflicts? Currently, there are some cases where it might be easier to read the code with the qualifier, so perhaps remove the import of it and adapt its cases? In the current stage it's just a plain adoption of the suggestions in order to have a base to discuss. ## Testing `cargo clippy` and `cargo run -p ci` are happy.
389 lines
14 KiB
Rust
389 lines
14 KiB
Rust
//! Demonstrates how to enqueue custom draw commands in a render phase.
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//!
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//! This example shows how to use the built-in
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//! [`bevy_render::render_phase::BinnedRenderPhase`] functionality with a
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//! custom [`RenderCommand`] to allow inserting arbitrary GPU drawing logic
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//! into Bevy's pipeline. This is not the only way to add custom rendering code
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//! into Bevy—render nodes are another, lower-level method—but it does allow
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//! for better reuse of parts of Bevy's built-in mesh rendering logic.
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use bevy::{
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core_pipeline::core_3d::{Opaque3d, Opaque3dBinKey, CORE_3D_DEPTH_FORMAT},
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ecs::{
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query::ROQueryItem,
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system::{lifetimeless::SRes, SystemParamItem},
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},
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math::{vec3, Vec3A},
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prelude::*,
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render::{
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extract_component::{ExtractComponent, ExtractComponentPlugin},
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primitives::Aabb,
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render_phase::{
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AddRenderCommand, BinnedRenderPhaseType, DrawFunctions, PhaseItem, RenderCommand,
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RenderCommandResult, SetItemPipeline, TrackedRenderPass, ViewBinnedRenderPhases,
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},
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render_resource::{
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BufferUsages, ColorTargetState, ColorWrites, CompareFunction, DepthStencilState,
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FragmentState, IndexFormat, MultisampleState, PipelineCache, PrimitiveState,
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RawBufferVec, RenderPipelineDescriptor, SpecializedRenderPipeline,
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SpecializedRenderPipelines, TextureFormat, VertexAttribute, VertexBufferLayout,
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VertexFormat, VertexState, VertexStepMode,
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},
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renderer::{RenderDevice, RenderQueue},
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texture::BevyDefault as _,
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view::{self, ExtractedView, VisibilitySystems, VisibleEntities},
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Render, RenderApp, RenderSet,
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},
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};
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use bytemuck::{Pod, Zeroable};
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use std::mem::size_of;
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/// A marker component that represents an entity that is to be rendered using
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/// our custom phase item.
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///
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/// Note the [`ExtractComponent`] trait implementation. This is necessary to
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/// tell Bevy that this object should be pulled into the render world.
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#[derive(Clone, Component, ExtractComponent)]
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struct CustomRenderedEntity;
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/// Holds a reference to our shader.
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///
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/// This is loaded at app creation time.
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#[derive(Resource)]
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struct CustomPhasePipeline {
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shader: Handle<Shader>,
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}
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/// A [`RenderCommand`] that binds the vertex and index buffers and issues the
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/// draw command for our custom phase item.
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struct DrawCustomPhaseItem;
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impl<P> RenderCommand<P> for DrawCustomPhaseItem
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where
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P: PhaseItem,
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{
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type Param = SRes<CustomPhaseItemBuffers>;
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type ViewQuery = ();
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type ItemQuery = ();
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fn render<'w>(
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_: &P,
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_: ROQueryItem<'w, Self::ViewQuery>,
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_: Option<ROQueryItem<'w, Self::ItemQuery>>,
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custom_phase_item_buffers: SystemParamItem<'w, '_, Self::Param>,
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pass: &mut TrackedRenderPass<'w>,
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) -> RenderCommandResult {
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// Borrow check workaround.
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let custom_phase_item_buffers = custom_phase_item_buffers.into_inner();
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// Tell the GPU where the vertices are.
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pass.set_vertex_buffer(
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0,
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custom_phase_item_buffers
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.vertices
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.buffer()
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.unwrap()
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.slice(..),
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);
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// Tell the GPU where the indices are.
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pass.set_index_buffer(
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custom_phase_item_buffers
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.indices
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.buffer()
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.unwrap()
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.slice(..),
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0,
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IndexFormat::Uint32,
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);
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// Draw one triangle (3 vertices).
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pass.draw_indexed(0..3, 0, 0..1);
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RenderCommandResult::Success
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}
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}
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/// The GPU vertex and index buffers for our custom phase item.
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///
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/// As the custom phase item is a single triangle, these are uploaded once and
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/// then left alone.
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#[derive(Resource)]
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struct CustomPhaseItemBuffers {
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/// The vertices for the single triangle.
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///
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/// This is a [`RawBufferVec`] because that's the simplest and fastest type
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/// of GPU buffer, and [`Vertex`] objects are simple.
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vertices: RawBufferVec<Vertex>,
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/// The indices of the single triangle.
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///
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/// As above, this is a [`RawBufferVec`] because `u32` values have trivial
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/// size and alignment.
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indices: RawBufferVec<u32>,
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}
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/// The CPU-side structure that describes a single vertex of the triangle.
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#[derive(Clone, Copy, Pod, Zeroable)]
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#[repr(C)]
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struct Vertex {
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/// The 3D position of the triangle vertex.
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position: Vec3,
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/// Padding.
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pad0: u32,
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/// The color of the triangle vertex.
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color: Vec3,
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/// Padding.
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pad1: u32,
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}
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impl Vertex {
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/// Creates a new vertex structure.
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const fn new(position: Vec3, color: Vec3) -> Vertex {
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Vertex {
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position,
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color,
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pad0: 0,
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pad1: 0,
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}
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}
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}
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/// The custom draw commands that Bevy executes for each entity we enqueue into
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/// the render phase.
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type DrawCustomPhaseItemCommands = (SetItemPipeline, DrawCustomPhaseItem);
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/// A query filter that tells [`view::check_visibility`] about our custom
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/// rendered entity.
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type WithCustomRenderedEntity = With<CustomRenderedEntity>;
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/// A single triangle's worth of vertices, for demonstration purposes.
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static VERTICES: [Vertex; 3] = [
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Vertex::new(vec3(-0.866, -0.5, 0.5), vec3(1.0, 0.0, 0.0)),
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Vertex::new(vec3(0.866, -0.5, 0.5), vec3(0.0, 1.0, 0.0)),
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Vertex::new(vec3(0.0, 1.0, 0.5), vec3(0.0, 0.0, 1.0)),
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];
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/// The entry point.
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fn main() {
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let mut app = App::new();
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app.add_plugins(DefaultPlugins)
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.add_plugins(ExtractComponentPlugin::<CustomRenderedEntity>::default())
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.add_systems(Startup, setup)
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// Make sure to tell Bevy to check our entity for visibility. Bevy won't
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// do this by default, for efficiency reasons.
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.add_systems(
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PostUpdate,
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view::check_visibility::<WithCustomRenderedEntity>
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.in_set(VisibilitySystems::CheckVisibility),
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);
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// We make sure to add these to the render app, not the main app.
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app.get_sub_app_mut(RenderApp)
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.unwrap()
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.init_resource::<CustomPhasePipeline>()
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.init_resource::<SpecializedRenderPipelines<CustomPhasePipeline>>()
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.add_render_command::<Opaque3d, DrawCustomPhaseItemCommands>()
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.add_systems(
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Render,
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prepare_custom_phase_item_buffers.in_set(RenderSet::Prepare),
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)
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.add_systems(Render, queue_custom_phase_item.in_set(RenderSet::Queue));
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app.run();
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}
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/// Spawns the objects in the scene.
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fn setup(mut commands: Commands) {
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// Spawn a single entity that has custom rendering. It'll be extracted into
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// the render world via [`ExtractComponent`].
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commands
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.spawn(SpatialBundle {
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visibility: Visibility::Visible,
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transform: Transform::IDENTITY,
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..default()
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})
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// This `Aabb` is necessary for the visibility checks to work.
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.insert(Aabb {
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center: Vec3A::ZERO,
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half_extents: Vec3A::splat(0.5),
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})
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.insert(CustomRenderedEntity);
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// Spawn the camera.
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commands.spawn(Camera3dBundle {
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transform: Transform::from_xyz(0.0, 0.0, 1.0).looking_at(Vec3::ZERO, Vec3::Y),
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..default()
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});
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}
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/// Creates the [`CustomPhaseItemBuffers`] resource.
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///
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/// This must be done in a startup system because it needs the [`RenderDevice`]
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/// and [`RenderQueue`] to exist, and they don't until [`App::run`] is called.
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fn prepare_custom_phase_item_buffers(mut commands: Commands) {
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commands.init_resource::<CustomPhaseItemBuffers>();
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}
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/// A render-world system that enqueues the entity with custom rendering into
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/// the opaque render phases of each view.
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fn queue_custom_phase_item(
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pipeline_cache: Res<PipelineCache>,
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custom_phase_pipeline: Res<CustomPhasePipeline>,
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mut opaque_render_phases: ResMut<ViewBinnedRenderPhases<Opaque3d>>,
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opaque_draw_functions: Res<DrawFunctions<Opaque3d>>,
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mut specialized_render_pipelines: ResMut<SpecializedRenderPipelines<CustomPhasePipeline>>,
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views: Query<(Entity, &VisibleEntities, &Msaa), With<ExtractedView>>,
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) {
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let draw_custom_phase_item = opaque_draw_functions
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.read()
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.id::<DrawCustomPhaseItemCommands>();
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// Render phases are per-view, so we need to iterate over all views so that
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// the entity appears in them. (In this example, we have only one view, but
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// it's good practice to loop over all views anyway.)
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for (view_entity, view_visible_entities, msaa) in views.iter() {
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let Some(opaque_phase) = opaque_render_phases.get_mut(&view_entity) else {
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continue;
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};
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// Find all the custom rendered entities that are visible from this
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// view.
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for &entity in view_visible_entities
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.get::<WithCustomRenderedEntity>()
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.iter()
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{
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// Ordinarily, the [`SpecializedRenderPipeline::Key`] would contain
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// some per-view settings, such as whether the view is HDR, but for
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// simplicity's sake we simply hard-code the view's characteristics,
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// with the exception of number of MSAA samples.
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let pipeline_id = specialized_render_pipelines.specialize(
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&pipeline_cache,
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&custom_phase_pipeline,
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*msaa,
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);
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// Add the custom render item. We use the
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// [`BinnedRenderPhaseType::NonMesh`] type to skip the special
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// handling that Bevy has for meshes (preprocessing, indirect
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// draws, etc.)
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//
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// The asset ID is arbitrary; we simply use [`AssetId::invalid`],
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// but you can use anything you like. Note that the asset ID need
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// not be the ID of a [`Mesh`].
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opaque_phase.add(
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Opaque3dBinKey {
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draw_function: draw_custom_phase_item,
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pipeline: pipeline_id,
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asset_id: AssetId::<Mesh>::invalid().untyped(),
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material_bind_group_id: None,
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lightmap_image: None,
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},
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entity,
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BinnedRenderPhaseType::NonMesh,
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);
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}
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}
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}
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impl SpecializedRenderPipeline for CustomPhasePipeline {
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type Key = Msaa;
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fn specialize(&self, msaa: Self::Key) -> RenderPipelineDescriptor {
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RenderPipelineDescriptor {
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label: Some("custom render pipeline".into()),
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layout: vec![],
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push_constant_ranges: vec![],
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vertex: VertexState {
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shader: self.shader.clone(),
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shader_defs: vec![],
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entry_point: "vertex".into(),
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buffers: vec![VertexBufferLayout {
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array_stride: size_of::<Vertex>() as u64,
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step_mode: VertexStepMode::Vertex,
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// This needs to match the layout of [`Vertex`].
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attributes: vec![
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VertexAttribute {
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format: VertexFormat::Float32x3,
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offset: 0,
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shader_location: 0,
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},
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VertexAttribute {
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format: VertexFormat::Float32x3,
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offset: 16,
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shader_location: 1,
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},
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],
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}],
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},
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fragment: Some(FragmentState {
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shader: self.shader.clone(),
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shader_defs: vec![],
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entry_point: "fragment".into(),
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targets: vec![Some(ColorTargetState {
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// Ordinarily, you'd want to check whether the view has the
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// HDR format and substitute the appropriate texture format
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// here, but we omit that for simplicity.
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format: TextureFormat::bevy_default(),
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blend: None,
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write_mask: ColorWrites::ALL,
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})],
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}),
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primitive: PrimitiveState::default(),
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// Note that if your view has no depth buffer this will need to be
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// changed.
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depth_stencil: Some(DepthStencilState {
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format: CORE_3D_DEPTH_FORMAT,
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depth_write_enabled: false,
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depth_compare: CompareFunction::Always,
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stencil: default(),
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bias: default(),
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}),
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multisample: MultisampleState {
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count: msaa.samples(),
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mask: !0,
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alpha_to_coverage_enabled: false,
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},
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}
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}
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}
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impl FromWorld for CustomPhaseItemBuffers {
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fn from_world(world: &mut World) -> Self {
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let render_device = world.resource::<RenderDevice>();
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let render_queue = world.resource::<RenderQueue>();
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// Create the vertex and index buffers.
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let mut vbo = RawBufferVec::new(BufferUsages::VERTEX);
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let mut ibo = RawBufferVec::new(BufferUsages::INDEX);
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for vertex in &VERTICES {
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vbo.push(*vertex);
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}
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for index in 0..3 {
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ibo.push(index);
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}
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// These two lines are required in order to trigger the upload to GPU.
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vbo.write_buffer(render_device, render_queue);
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ibo.write_buffer(render_device, render_queue);
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CustomPhaseItemBuffers {
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vertices: vbo,
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indices: ibo,
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}
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}
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}
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impl FromWorld for CustomPhasePipeline {
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fn from_world(world: &mut World) -> Self {
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// Load and compile the shader in the background.
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let asset_server = world.resource::<AssetServer>();
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CustomPhasePipeline {
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shader: asset_server.load("shaders/custom_phase_item.wgsl"),
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}
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}
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}
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