mirror of
https://github.com/bevyengine/bevy
synced 2024-11-25 22:20:20 +00:00
71842c5ac9
# Objective - Support WebGPU - alternative to #5027 that doesn't need any async / await - fixes #8315 - Surprise fix #7318 ## Solution ### For async renderer initialisation - Update the plugin lifecycle: - app builds the plugin - calls `plugin.build` - registers the plugin - app starts the event loop - event loop waits for `ready` of all registered plugins in the same order - returns `true` by default - then call all `finish` then all `cleanup` in the same order as registered - then execute the schedule In the case of the renderer, to avoid anything async: - building the renderer plugin creates a detached task that will send back the initialised renderer through a mutex in a resource - `ready` will wait for the renderer to be present in the resource - `finish` will take that renderer and place it in the expected resources by other plugins - other plugins (that expect the renderer to be available) `finish` are called and they are able to set up their pipelines - `cleanup` is called, only custom one is still for pipeline rendering ### For WebGPU support - update the `build-wasm-example` script to support passing `--api webgpu` that will build the example with WebGPU support - feature for webgl2 was always enabled when building for wasm. it's now in the default feature list and enabled on all platforms, so check for this feature must also check that the target_arch is `wasm32` --- ## Migration Guide - `Plugin::setup` has been renamed `Plugin::cleanup` - `Plugin::finish` has been added, and plugins adding pipelines should do it in this function instead of `Plugin::build` ```rust // Before impl Plugin for MyPlugin { fn build(&self, app: &mut App) { app.insert_resource::<MyResource> .add_systems(Update, my_system); let render_app = match app.get_sub_app_mut(RenderApp) { Ok(render_app) => render_app, Err(_) => return, }; render_app .init_resource::<RenderResourceNeedingDevice>() .init_resource::<OtherRenderResource>(); } } // After impl Plugin for MyPlugin { fn build(&self, app: &mut App) { app.insert_resource::<MyResource> .add_systems(Update, my_system); let render_app = match app.get_sub_app_mut(RenderApp) { Ok(render_app) => render_app, Err(_) => return, }; render_app .init_resource::<OtherRenderResource>(); } fn finish(&self, app: &mut App) { let render_app = match app.get_sub_app_mut(RenderApp) { Ok(render_app) => render_app, Err(_) => return, }; render_app .init_resource::<RenderResourceNeedingDevice>(); } } ```
265 lines
8.8 KiB
Rust
265 lines
8.8 KiB
Rust
//! A shader that renders a mesh multiple times in one draw call.
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use bevy::{
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core_pipeline::core_3d::Transparent3d,
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ecs::{
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query::QueryItem,
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system::{lifetimeless::*, SystemParamItem},
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},
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pbr::{MeshPipeline, MeshPipelineKey, MeshUniform, SetMeshBindGroup, SetMeshViewBindGroup},
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prelude::*,
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render::{
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extract_component::{ExtractComponent, ExtractComponentPlugin},
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mesh::{GpuBufferInfo, MeshVertexBufferLayout},
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render_asset::RenderAssets,
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render_phase::{
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AddRenderCommand, DrawFunctions, PhaseItem, RenderCommand, RenderCommandResult,
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RenderPhase, SetItemPipeline, TrackedRenderPass,
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},
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render_resource::*,
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renderer::RenderDevice,
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view::{ExtractedView, NoFrustumCulling},
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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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fn main() {
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App::new()
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.add_plugins(DefaultPlugins)
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.add_plugin(CustomMaterialPlugin)
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.add_systems(Startup, setup)
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.run();
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}
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fn setup(mut commands: Commands, mut meshes: ResMut<Assets<Mesh>>) {
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commands.spawn((
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meshes.add(Mesh::from(shape::Cube { size: 0.5 })),
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SpatialBundle::INHERITED_IDENTITY,
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InstanceMaterialData(
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(1..=10)
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.flat_map(|x| (1..=10).map(move |y| (x as f32 / 10.0, y as f32 / 10.0)))
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.map(|(x, y)| InstanceData {
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position: Vec3::new(x * 10.0 - 5.0, y * 10.0 - 5.0, 0.0),
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scale: 1.0,
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color: Color::hsla(x * 360., y, 0.5, 1.0).as_rgba_f32(),
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})
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.collect(),
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),
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// NOTE: Frustum culling is done based on the Aabb of the Mesh and the GlobalTransform.
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// As the cube is at the origin, if its Aabb moves outside the view frustum, all the
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// instanced cubes will be culled.
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// The InstanceMaterialData contains the 'GlobalTransform' information for this custom
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// instancing, and that is not taken into account with the built-in frustum culling.
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// We must disable the built-in frustum culling by adding the `NoFrustumCulling` marker
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// component to avoid incorrect culling.
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NoFrustumCulling,
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));
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// camera
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commands.spawn(Camera3dBundle {
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transform: Transform::from_xyz(0.0, 0.0, 15.0).looking_at(Vec3::ZERO, Vec3::Y),
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..default()
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});
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}
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#[derive(Component, Deref)]
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struct InstanceMaterialData(Vec<InstanceData>);
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impl ExtractComponent for InstanceMaterialData {
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type Query = &'static InstanceMaterialData;
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type Filter = ();
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type Out = Self;
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fn extract_component(item: QueryItem<'_, Self::Query>) -> Option<Self> {
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Some(InstanceMaterialData(item.0.clone()))
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}
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}
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pub struct CustomMaterialPlugin;
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impl Plugin for CustomMaterialPlugin {
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fn build(&self, app: &mut App) {
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app.add_plugin(ExtractComponentPlugin::<InstanceMaterialData>::default());
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app.sub_app_mut(RenderApp)
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.add_render_command::<Transparent3d, DrawCustom>()
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.init_resource::<SpecializedMeshPipelines<CustomPipeline>>()
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.add_systems(
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Render,
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(
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queue_custom.in_set(RenderSet::Queue),
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prepare_instance_buffers.in_set(RenderSet::Prepare),
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),
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);
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}
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fn finish(&self, app: &mut App) {
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app.sub_app_mut(RenderApp).init_resource::<CustomPipeline>();
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}
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}
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#[derive(Clone, Copy, Pod, Zeroable)]
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#[repr(C)]
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struct InstanceData {
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position: Vec3,
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scale: f32,
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color: [f32; 4],
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}
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#[allow(clippy::too_many_arguments)]
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fn queue_custom(
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transparent_3d_draw_functions: Res<DrawFunctions<Transparent3d>>,
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custom_pipeline: Res<CustomPipeline>,
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msaa: Res<Msaa>,
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mut pipelines: ResMut<SpecializedMeshPipelines<CustomPipeline>>,
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pipeline_cache: Res<PipelineCache>,
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meshes: Res<RenderAssets<Mesh>>,
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material_meshes: Query<(Entity, &MeshUniform, &Handle<Mesh>), With<InstanceMaterialData>>,
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mut views: Query<(&ExtractedView, &mut RenderPhase<Transparent3d>)>,
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) {
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let draw_custom = transparent_3d_draw_functions.read().id::<DrawCustom>();
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let msaa_key = MeshPipelineKey::from_msaa_samples(msaa.samples());
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for (view, mut transparent_phase) in &mut views {
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let view_key = msaa_key | MeshPipelineKey::from_hdr(view.hdr);
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let rangefinder = view.rangefinder3d();
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for (entity, mesh_uniform, mesh_handle) in &material_meshes {
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if let Some(mesh) = meshes.get(mesh_handle) {
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let key =
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view_key | MeshPipelineKey::from_primitive_topology(mesh.primitive_topology);
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let pipeline = pipelines
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.specialize(&pipeline_cache, &custom_pipeline, key, &mesh.layout)
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.unwrap();
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transparent_phase.add(Transparent3d {
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entity,
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pipeline,
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draw_function: draw_custom,
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distance: rangefinder.distance(&mesh_uniform.transform),
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});
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}
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}
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}
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}
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#[derive(Component)]
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pub struct InstanceBuffer {
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buffer: Buffer,
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length: usize,
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}
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fn prepare_instance_buffers(
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mut commands: Commands,
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query: Query<(Entity, &InstanceMaterialData)>,
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render_device: Res<RenderDevice>,
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) {
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for (entity, instance_data) in &query {
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let buffer = render_device.create_buffer_with_data(&BufferInitDescriptor {
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label: Some("instance data buffer"),
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contents: bytemuck::cast_slice(instance_data.as_slice()),
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usage: BufferUsages::VERTEX | BufferUsages::COPY_DST,
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});
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commands.entity(entity).insert(InstanceBuffer {
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buffer,
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length: instance_data.len(),
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});
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}
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}
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#[derive(Resource)]
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pub struct CustomPipeline {
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shader: Handle<Shader>,
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mesh_pipeline: MeshPipeline,
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}
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impl FromWorld for CustomPipeline {
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fn from_world(world: &mut World) -> Self {
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let asset_server = world.resource::<AssetServer>();
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let shader = asset_server.load("shaders/instancing.wgsl");
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let mesh_pipeline = world.resource::<MeshPipeline>();
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CustomPipeline {
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shader,
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mesh_pipeline: mesh_pipeline.clone(),
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}
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}
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}
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impl SpecializedMeshPipeline for CustomPipeline {
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type Key = MeshPipelineKey;
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fn specialize(
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&self,
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key: Self::Key,
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layout: &MeshVertexBufferLayout,
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) -> Result<RenderPipelineDescriptor, SpecializedMeshPipelineError> {
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let mut descriptor = self.mesh_pipeline.specialize(key, layout)?;
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descriptor.vertex.shader = self.shader.clone();
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descriptor.vertex.buffers.push(VertexBufferLayout {
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array_stride: std::mem::size_of::<InstanceData>() as u64,
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step_mode: VertexStepMode::Instance,
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attributes: vec![
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VertexAttribute {
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format: VertexFormat::Float32x4,
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offset: 0,
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shader_location: 3, // shader locations 0-2 are taken up by Position, Normal and UV attributes
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},
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VertexAttribute {
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format: VertexFormat::Float32x4,
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offset: VertexFormat::Float32x4.size(),
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shader_location: 4,
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},
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],
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});
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descriptor.fragment.as_mut().unwrap().shader = self.shader.clone();
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Ok(descriptor)
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}
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}
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type DrawCustom = (
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SetItemPipeline,
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SetMeshViewBindGroup<0>,
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SetMeshBindGroup<1>,
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DrawMeshInstanced,
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);
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pub struct DrawMeshInstanced;
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impl<P: PhaseItem> RenderCommand<P> for DrawMeshInstanced {
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type Param = SRes<RenderAssets<Mesh>>;
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type ViewWorldQuery = ();
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type ItemWorldQuery = (Read<Handle<Mesh>>, Read<InstanceBuffer>);
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#[inline]
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fn render<'w>(
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_item: &P,
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_view: (),
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(mesh_handle, instance_buffer): (&'w Handle<Mesh>, &'w InstanceBuffer),
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meshes: SystemParamItem<'w, '_, Self::Param>,
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pass: &mut TrackedRenderPass<'w>,
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) -> RenderCommandResult {
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let gpu_mesh = match meshes.into_inner().get(mesh_handle) {
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Some(gpu_mesh) => gpu_mesh,
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None => return RenderCommandResult::Failure,
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};
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pass.set_vertex_buffer(0, gpu_mesh.vertex_buffer.slice(..));
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pass.set_vertex_buffer(1, instance_buffer.buffer.slice(..));
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match &gpu_mesh.buffer_info {
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GpuBufferInfo::Indexed {
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buffer,
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index_format,
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count,
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} => {
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pass.set_index_buffer(buffer.slice(..), 0, *index_format);
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pass.draw_indexed(0..*count, 0, 0..instance_buffer.length as u32);
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}
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GpuBufferInfo::NonIndexed => {
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pass.draw(0..gpu_mesh.vertex_count, 0..instance_buffer.length as u32);
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}
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}
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RenderCommandResult::Success
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}
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}
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