// FIXME(15321): solve CI failures, then replace with `#![expect()]`. #![allow(missing_docs, reason = "Not all docs are written yet, see #3492.")] #![cfg_attr(docsrs, feature(doc_auto_cfg))] #![deny(unsafe_code)] #![doc( html_logo_url = "https://bevyengine.org/assets/icon.png", html_favicon_url = "https://bevyengine.org/assets/icon.png" )] extern crate alloc; #[cfg(feature = "meshlet")] mod meshlet; pub mod wireframe; /// Experimental features that are not yet finished. Please report any issues you encounter! /// /// Expect bugs, missing features, compatibility issues, low performance, and/or future breaking changes. #[cfg(feature = "meshlet")] pub mod experimental { /// Render high-poly 3d meshes using an efficient GPU-driven method. /// See [`MeshletPlugin`](meshlet::MeshletPlugin) and [`MeshletMesh`](meshlet::MeshletMesh) for details. pub mod meshlet { pub use crate::meshlet::*; } } mod bundle; mod cluster; pub mod deferred; mod extended_material; mod fog; mod light; mod light_probe; mod lightmap; mod material; mod mesh_material; mod parallax; mod pbr_material; mod prepass; mod render; mod ssao; mod ssr; mod volumetric_fog; use bevy_color::{Color, LinearRgba}; use core::marker::PhantomData; pub use bundle::*; pub use cluster::*; pub use extended_material::*; pub use fog::*; pub use light::*; pub use light_probe::*; pub use lightmap::*; pub use material::*; pub use mesh_material::*; pub use parallax::*; pub use pbr_material::*; pub use prepass::*; pub use render::*; pub use ssao::*; pub use ssr::*; #[allow(deprecated)] pub use volumetric_fog::{ FogVolume, FogVolumeBundle, VolumetricFog, VolumetricFogPlugin, VolumetricFogSettings, VolumetricLight, }; /// The PBR prelude. /// /// This includes the most common types in this crate, re-exported for your convenience. #[expect(deprecated)] pub mod prelude { #[doc(hidden)] pub use crate::{ bundle::{ DirectionalLightBundle, MaterialMeshBundle, PbrBundle, PointLightBundle, SpotLightBundle, }, fog::{DistanceFog, FogFalloff}, light::{light_consts, AmbientLight, DirectionalLight, PointLight, SpotLight}, light_probe::{ environment_map::{EnvironmentMapLight, ReflectionProbeBundle}, LightProbe, }, material::{Material, MaterialPlugin}, mesh_material::MeshMaterial3d, parallax::ParallaxMappingMethod, pbr_material::StandardMaterial, ssao::ScreenSpaceAmbientOcclusionPlugin, }; } pub mod graph { use bevy_render::render_graph::RenderLabel; #[derive(Debug, Hash, PartialEq, Eq, Clone, RenderLabel)] pub enum NodePbr { /// Label for the shadow pass node. ShadowPass, /// Label for the screen space ambient occlusion render node. ScreenSpaceAmbientOcclusion, DeferredLightingPass, /// Label for the volumetric lighting pass. VolumetricFog, /// Label for the compute shader instance data building pass. GpuPreprocess, /// Label for the screen space reflections pass. ScreenSpaceReflections, } } use crate::{deferred::DeferredPbrLightingPlugin, graph::NodePbr}; use bevy_app::prelude::*; use bevy_asset::{load_internal_asset, AssetApp, Assets, Handle}; use bevy_core_pipeline::core_3d::graph::{Core3d, Node3d}; use bevy_ecs::prelude::*; use bevy_render::{ alpha::AlphaMode, camera::{ CameraProjection, CameraUpdateSystem, OrthographicProjection, PerspectiveProjection, Projection, }, extract_component::ExtractComponentPlugin, extract_resource::ExtractResourcePlugin, render_asset::prepare_assets, render_graph::RenderGraph, render_resource::Shader, texture::{GpuImage, Image}, view::{check_visibility, VisibilitySystems}, ExtractSchedule, Render, RenderApp, RenderSet, }; use bevy_transform::TransformSystem; pub const PBR_TYPES_SHADER_HANDLE: Handle = Handle::weak_from_u128(1708015359337029744); pub const PBR_BINDINGS_SHADER_HANDLE: Handle = Handle::weak_from_u128(5635987986427308186); pub const UTILS_HANDLE: Handle = Handle::weak_from_u128(1900548483293416725); pub const CLUSTERED_FORWARD_HANDLE: Handle = Handle::weak_from_u128(166852093121196815); pub const PBR_LIGHTING_HANDLE: Handle = Handle::weak_from_u128(14170772752254856967); pub const PBR_TRANSMISSION_HANDLE: Handle = Handle::weak_from_u128(77319684653223658032); pub const SHADOWS_HANDLE: Handle = Handle::weak_from_u128(11350275143789590502); pub const SHADOW_SAMPLING_HANDLE: Handle = Handle::weak_from_u128(3145627513789590502); pub const PBR_FRAGMENT_HANDLE: Handle = Handle::weak_from_u128(2295049283805286543); pub const PBR_SHADER_HANDLE: Handle = Handle::weak_from_u128(4805239651767701046); pub const PBR_PREPASS_SHADER_HANDLE: Handle = Handle::weak_from_u128(9407115064344201137); pub const PBR_FUNCTIONS_HANDLE: Handle = Handle::weak_from_u128(16550102964439850292); pub const PBR_AMBIENT_HANDLE: Handle = Handle::weak_from_u128(2441520459096337034); pub const PARALLAX_MAPPING_SHADER_HANDLE: Handle = Handle::weak_from_u128(17035894873630133905); pub const VIEW_TRANSFORMATIONS_SHADER_HANDLE: Handle = Handle::weak_from_u128(2098345702398750291); pub const PBR_PREPASS_FUNCTIONS_SHADER_HANDLE: Handle = Handle::weak_from_u128(73204817249182637); pub const PBR_DEFERRED_TYPES_HANDLE: Handle = Handle::weak_from_u128(3221241127431430599); pub const PBR_DEFERRED_FUNCTIONS_HANDLE: Handle = Handle::weak_from_u128(72019026415438599); pub const RGB9E5_FUNCTIONS_HANDLE: Handle = Handle::weak_from_u128(2659010996143919192); const MESHLET_VISIBILITY_BUFFER_RESOLVE_SHADER_HANDLE: Handle = Handle::weak_from_u128(2325134235233421); const TONEMAPPING_LUT_TEXTURE_BINDING_INDEX: u32 = 23; const TONEMAPPING_LUT_SAMPLER_BINDING_INDEX: u32 = 24; /// Sets up the entire PBR infrastructure of bevy. pub struct PbrPlugin { /// Controls if the prepass is enabled for the [`StandardMaterial`]. /// For more information about what a prepass is, see the [`bevy_core_pipeline::prepass`] docs. pub prepass_enabled: bool, /// Controls if [`DeferredPbrLightingPlugin`] is added. pub add_default_deferred_lighting_plugin: bool, /// Controls if GPU [`MeshUniform`] building is enabled. /// /// This requires compute shader support and so will be forcibly disabled if /// the platform doesn't support those. pub use_gpu_instance_buffer_builder: bool, } impl Default for PbrPlugin { fn default() -> Self { Self { prepass_enabled: true, add_default_deferred_lighting_plugin: true, use_gpu_instance_buffer_builder: true, } } } impl Plugin for PbrPlugin { fn build(&self, app: &mut App) { load_internal_asset!( app, PBR_TYPES_SHADER_HANDLE, "render/pbr_types.wgsl", Shader::from_wgsl ); load_internal_asset!( app, PBR_BINDINGS_SHADER_HANDLE, "render/pbr_bindings.wgsl", Shader::from_wgsl ); load_internal_asset!(app, UTILS_HANDLE, "render/utils.wgsl", Shader::from_wgsl); load_internal_asset!( app, CLUSTERED_FORWARD_HANDLE, "render/clustered_forward.wgsl", Shader::from_wgsl ); load_internal_asset!( app, PBR_LIGHTING_HANDLE, "render/pbr_lighting.wgsl", Shader::from_wgsl ); load_internal_asset!( app, PBR_TRANSMISSION_HANDLE, "render/pbr_transmission.wgsl", Shader::from_wgsl ); load_internal_asset!( app, SHADOWS_HANDLE, "render/shadows.wgsl", Shader::from_wgsl ); load_internal_asset!( app, PBR_DEFERRED_TYPES_HANDLE, "deferred/pbr_deferred_types.wgsl", Shader::from_wgsl ); load_internal_asset!( app, PBR_DEFERRED_FUNCTIONS_HANDLE, "deferred/pbr_deferred_functions.wgsl", Shader::from_wgsl ); load_internal_asset!( app, SHADOW_SAMPLING_HANDLE, "render/shadow_sampling.wgsl", Shader::from_wgsl ); load_internal_asset!( app, PBR_FUNCTIONS_HANDLE, "render/pbr_functions.wgsl", Shader::from_wgsl ); load_internal_asset!( app, RGB9E5_FUNCTIONS_HANDLE, "render/rgb9e5.wgsl", Shader::from_wgsl ); load_internal_asset!( app, PBR_AMBIENT_HANDLE, "render/pbr_ambient.wgsl", Shader::from_wgsl ); load_internal_asset!( app, PBR_FRAGMENT_HANDLE, "render/pbr_fragment.wgsl", Shader::from_wgsl ); load_internal_asset!(app, PBR_SHADER_HANDLE, "render/pbr.wgsl", Shader::from_wgsl); load_internal_asset!( app, PBR_PREPASS_FUNCTIONS_SHADER_HANDLE, "render/pbr_prepass_functions.wgsl", Shader::from_wgsl ); load_internal_asset!( app, PBR_PREPASS_SHADER_HANDLE, "render/pbr_prepass.wgsl", Shader::from_wgsl ); load_internal_asset!( app, PARALLAX_MAPPING_SHADER_HANDLE, "render/parallax_mapping.wgsl", Shader::from_wgsl ); load_internal_asset!( app, VIEW_TRANSFORMATIONS_SHADER_HANDLE, "render/view_transformations.wgsl", Shader::from_wgsl ); // Setup dummy shaders for when MeshletPlugin is not used to prevent shader import errors. load_internal_asset!( app, MESHLET_VISIBILITY_BUFFER_RESOLVE_SHADER_HANDLE, "meshlet/dummy_visibility_buffer_resolve.wgsl", Shader::from_wgsl ); app.register_asset_reflect::() .register_type::() .register_type::() .register_type::() .register_type::() .register_type::() .register_type::() .register_type::() .register_type::() .register_type::() .register_type::() .register_type::() .register_type::() .register_type::() .register_type::() .register_type::() .register_type::() .init_resource::() .init_resource::() .init_resource::() .init_resource::() .register_type::() .init_resource::() .add_plugins(( MeshRenderPlugin { use_gpu_instance_buffer_builder: self.use_gpu_instance_buffer_builder, }, MaterialPlugin:: { prepass_enabled: self.prepass_enabled, ..Default::default() }, ScreenSpaceAmbientOcclusionPlugin, ExtractResourcePlugin::::default(), FogPlugin, ExtractResourcePlugin::::default(), ExtractComponentPlugin::::default(), LightmapPlugin, LightProbePlugin, PbrProjectionPlugin::::default(), PbrProjectionPlugin::::default(), PbrProjectionPlugin::::default(), GpuMeshPreprocessPlugin { use_gpu_instance_buffer_builder: self.use_gpu_instance_buffer_builder, }, VolumetricFogPlugin, ScreenSpaceReflectionsPlugin, )) .configure_sets( PostUpdate, ( SimulationLightSystems::AddClusters, SimulationLightSystems::AssignLightsToClusters, ) .chain(), ) .configure_sets( PostUpdate, SimulationLightSystems::UpdateDirectionalLightCascades .ambiguous_with(SimulationLightSystems::UpdateDirectionalLightCascades), ) .configure_sets( PostUpdate, SimulationLightSystems::CheckLightVisibility .ambiguous_with(SimulationLightSystems::CheckLightVisibility), ) .add_systems( PostUpdate, ( add_clusters .in_set(SimulationLightSystems::AddClusters) .after(CameraUpdateSystem), assign_objects_to_clusters .in_set(SimulationLightSystems::AssignLightsToClusters) .after(TransformSystem::TransformPropagate) .after(VisibilitySystems::CheckVisibility) .after(CameraUpdateSystem), clear_directional_light_cascades .in_set(SimulationLightSystems::UpdateDirectionalLightCascades) .after(TransformSystem::TransformPropagate) .after(CameraUpdateSystem), update_directional_light_frusta .in_set(SimulationLightSystems::UpdateLightFrusta) // This must run after CheckVisibility because it relies on `ViewVisibility` .after(VisibilitySystems::CheckVisibility) .after(TransformSystem::TransformPropagate) .after(SimulationLightSystems::UpdateDirectionalLightCascades) // We assume that no entity will be both a directional light and a spot light, // so these systems will run independently of one another. // FIXME: Add an archetype invariant for this https://github.com/bevyengine/bevy/issues/1481. .ambiguous_with(update_spot_light_frusta), update_point_light_frusta .in_set(SimulationLightSystems::UpdateLightFrusta) .after(TransformSystem::TransformPropagate) .after(SimulationLightSystems::AssignLightsToClusters), update_spot_light_frusta .in_set(SimulationLightSystems::UpdateLightFrusta) .after(TransformSystem::TransformPropagate) .after(SimulationLightSystems::AssignLightsToClusters), check_visibility::.in_set(VisibilitySystems::CheckVisibility), ( check_dir_light_mesh_visibility, check_point_light_mesh_visibility, ) .in_set(SimulationLightSystems::CheckLightVisibility) .after(VisibilitySystems::CalculateBounds) .after(TransformSystem::TransformPropagate) .after(SimulationLightSystems::UpdateLightFrusta) // NOTE: This MUST be scheduled AFTER the core renderer visibility check // because that resets entity `ViewVisibility` for the first view // which would override any results from this otherwise .after(VisibilitySystems::CheckVisibility), ), ); if self.add_default_deferred_lighting_plugin { app.add_plugins(DeferredPbrLightingPlugin); } // Initialize the default material. app.world_mut() .resource_mut::>() .insert( &Handle::::default(), StandardMaterial { base_color: Color::WHITE, ..Default::default() }, ); let Some(render_app) = app.get_sub_app_mut(RenderApp) else { return; }; // Extract the required data from the main world render_app .add_systems( ExtractSchedule, ( extract_clusters, extract_lights, extract_default_materials.after(clear_material_instances::), ), ) .add_systems( Render, ( prepare_lights .in_set(RenderSet::ManageViews) .after(prepare_assets::), prepare_clusters.in_set(RenderSet::PrepareResources), ), ) .init_resource::(); render_app.world_mut().observe(add_light_view_entities); render_app.world_mut().observe(remove_light_view_entities); let shadow_pass_node = ShadowPassNode::new(render_app.world_mut()); let mut graph = render_app.world_mut().resource_mut::(); let draw_3d_graph = graph.get_sub_graph_mut(Core3d).unwrap(); draw_3d_graph.add_node(NodePbr::ShadowPass, shadow_pass_node); draw_3d_graph.add_node_edge(NodePbr::ShadowPass, Node3d::StartMainPass); } fn finish(&self, app: &mut App) { let Some(render_app) = app.get_sub_app_mut(RenderApp) else { return; }; // Extract the required data from the main world render_app .init_resource::() .init_resource::(); } } /// [`CameraProjection`] specific PBR functionality. pub struct PbrProjectionPlugin(PhantomData); impl Plugin for PbrProjectionPlugin { fn build(&self, app: &mut App) { app.add_systems( PostUpdate, build_directional_light_cascades:: .in_set(SimulationLightSystems::UpdateDirectionalLightCascades) .after(clear_directional_light_cascades), ); } } impl Default for PbrProjectionPlugin { fn default() -> Self { Self(Default::default()) } }