bevy/crates/bevy_pbr/src/lib.rs
Sludge 9b92de9e35
Register AlphaMode type (#9222)
# Objective

- `AlphaMode` derives `Reflect`, but wasn't registered with the app and
type registry

## Solution

- `app.register_type::<AlphaMode>()`
2023-07-20 21:26:03 +00:00

330 lines
13 KiB
Rust

#![allow(clippy::type_complexity)]
pub mod wireframe;
mod alpha;
mod bundle;
mod environment_map;
mod fog;
mod light;
mod material;
mod parallax;
mod pbr_material;
mod prepass;
mod render;
mod ssao;
pub use alpha::*;
pub use bundle::*;
pub use environment_map::EnvironmentMapLight;
pub use fog::*;
pub use light::*;
pub use material::*;
pub use parallax::*;
pub use pbr_material::*;
pub use prepass::*;
pub use render::*;
pub use ssao::*;
pub mod prelude {
#[doc(hidden)]
pub use crate::{
alpha::AlphaMode,
bundle::{
DirectionalLightBundle, MaterialMeshBundle, PbrBundle, PointLightBundle,
SpotLightBundle,
},
environment_map::EnvironmentMapLight,
fog::{FogFalloff, FogSettings},
light::{AmbientLight, DirectionalLight, PointLight, SpotLight},
material::{Material, MaterialPlugin},
parallax::ParallaxMappingMethod,
pbr_material::StandardMaterial,
ssao::ScreenSpaceAmbientOcclusionPlugin,
};
}
pub mod draw_3d_graph {
pub mod node {
/// Label for the shadow pass node.
pub const SHADOW_PASS: &str = "shadow_pass";
}
}
use bevy_app::prelude::*;
use bevy_asset::{load_internal_asset, AddAsset, Assets, Handle, HandleUntyped};
use bevy_ecs::prelude::*;
use bevy_reflect::TypeUuid;
use bevy_render::{
camera::CameraUpdateSystem,
extract_resource::ExtractResourcePlugin,
prelude::Color,
render_graph::RenderGraph,
render_phase::sort_phase_system,
render_resource::Shader,
view::{ViewSet, VisibilitySystems},
ExtractSchedule, Render, RenderApp, RenderSet,
};
use bevy_transform::TransformSystem;
use environment_map::EnvironmentMapPlugin;
pub const PBR_TYPES_SHADER_HANDLE: HandleUntyped =
HandleUntyped::weak_from_u64(Shader::TYPE_UUID, 1708015359337029744);
pub const PBR_BINDINGS_SHADER_HANDLE: HandleUntyped =
HandleUntyped::weak_from_u64(Shader::TYPE_UUID, 5635987986427308186);
pub const UTILS_HANDLE: HandleUntyped =
HandleUntyped::weak_from_u64(Shader::TYPE_UUID, 1900548483293416725);
pub const CLUSTERED_FORWARD_HANDLE: HandleUntyped =
HandleUntyped::weak_from_u64(Shader::TYPE_UUID, 166852093121196815);
pub const PBR_LIGHTING_HANDLE: HandleUntyped =
HandleUntyped::weak_from_u64(Shader::TYPE_UUID, 14170772752254856967);
pub const SHADOWS_HANDLE: HandleUntyped =
HandleUntyped::weak_from_u64(Shader::TYPE_UUID, 11350275143789590502);
pub const PBR_SHADER_HANDLE: HandleUntyped =
HandleUntyped::weak_from_u64(Shader::TYPE_UUID, 4805239651767701046);
pub const PBR_PREPASS_SHADER_HANDLE: HandleUntyped =
HandleUntyped::weak_from_u64(Shader::TYPE_UUID, 9407115064344201137);
pub const PBR_FUNCTIONS_HANDLE: HandleUntyped =
HandleUntyped::weak_from_u64(Shader::TYPE_UUID, 16550102964439850292);
pub const PBR_AMBIENT_HANDLE: HandleUntyped =
HandleUntyped::weak_from_u64(Shader::TYPE_UUID, 2441520459096337034);
pub const PARALLAX_MAPPING_SHADER_HANDLE: HandleUntyped =
HandleUntyped::weak_from_u64(Shader::TYPE_UUID, 17035894873630133905);
/// 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,
}
impl Default for PbrPlugin {
fn default() -> Self {
Self {
prepass_enabled: 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,
SHADOWS_HANDLE,
"render/shadows.wgsl",
Shader::from_wgsl
);
load_internal_asset!(
app,
PBR_FUNCTIONS_HANDLE,
"render/pbr_functions.wgsl",
Shader::from_wgsl
);
load_internal_asset!(
app,
PBR_AMBIENT_HANDLE,
"render/pbr_ambient.wgsl",
Shader::from_wgsl
);
load_internal_asset!(app, PBR_SHADER_HANDLE, "render/pbr.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
);
app.register_asset_reflect::<StandardMaterial>()
.register_type::<AlphaMode>()
.register_type::<AmbientLight>()
.register_type::<Cascade>()
.register_type::<CascadeShadowConfig>()
.register_type::<Cascades>()
.register_type::<CascadesVisibleEntities>()
.register_type::<ClusterConfig>()
.register_type::<ClusterFarZMode>()
.register_type::<ClusterZConfig>()
.register_type::<CubemapVisibleEntities>()
.register_type::<DirectionalLight>()
.register_type::<DirectionalLightShadowMap>()
.register_type::<NotShadowCaster>()
.register_type::<NotShadowReceiver>()
.register_type::<PointLight>()
.register_type::<PointLightShadowMap>()
.register_type::<SpotLight>()
.init_resource::<AmbientLight>()
.init_resource::<GlobalVisiblePointLights>()
.init_resource::<DirectionalLightShadowMap>()
.init_resource::<PointLightShadowMap>()
.add_plugins((
MeshRenderPlugin,
MaterialPlugin::<StandardMaterial> {
prepass_enabled: self.prepass_enabled,
..Default::default()
},
ScreenSpaceAmbientOcclusionPlugin,
EnvironmentMapPlugin,
ExtractResourcePlugin::<AmbientLight>::default(),
FogPlugin,
))
.configure_sets(
PostUpdate,
(
SimulationLightSystems::AddClusters,
SimulationLightSystems::AddClustersFlush,
SimulationLightSystems::AssignLightsToClusters,
)
.chain(),
)
.add_systems(
PostUpdate,
(
add_clusters.in_set(SimulationLightSystems::AddClusters),
apply_deferred.in_set(SimulationLightSystems::AddClustersFlush),
assign_lights_to_clusters
.in_set(SimulationLightSystems::AssignLightsToClusters)
.after(TransformSystem::TransformPropagate)
.after(VisibilitySystems::CheckVisibility)
.after(CameraUpdateSystem),
update_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 ComputedVisibility::is_visible()
.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_light_mesh_visibility
.in_set(SimulationLightSystems::CheckLightVisibility)
.after(VisibilitySystems::CalculateBoundsFlush)
.after(TransformSystem::TransformPropagate)
.after(SimulationLightSystems::UpdateLightFrusta)
// NOTE: This MUST be scheduled AFTER the core renderer visibility check
// because that resets entity ComputedVisibility for the first view
// which would override any results from this otherwise
.after(VisibilitySystems::CheckVisibility),
),
);
app.world
.resource_mut::<Assets<StandardMaterial>>()
.set_untracked(
Handle::<StandardMaterial>::default(),
StandardMaterial {
base_color: Color::rgb(1.0, 0.0, 0.5),
unlit: true,
..Default::default()
},
);
let render_app = match app.get_sub_app_mut(RenderApp) {
Ok(render_app) => render_app,
Err(_) => return,
};
// Extract the required data from the main world
render_app
.configure_sets(
Render,
(
RenderLightSystems::PrepareLights.in_set(RenderSet::Prepare),
RenderLightSystems::PrepareClusters.in_set(RenderSet::Prepare),
RenderLightSystems::QueueShadows.in_set(RenderSet::Queue),
),
)
.add_systems(
ExtractSchedule,
(
render::extract_clusters.in_set(RenderLightSystems::ExtractClusters),
render::extract_lights.in_set(RenderLightSystems::ExtractLights),
),
)
.add_systems(
Render,
(
render::prepare_lights
.before(ViewSet::PrepareUniforms)
.in_set(RenderLightSystems::PrepareLights),
// A sync is needed after prepare_lights, before prepare_view_uniforms,
// because prepare_lights creates new views for shadow mapping
apply_deferred
.in_set(RenderSet::Prepare)
.after(RenderLightSystems::PrepareLights)
.before(ViewSet::PrepareUniforms),
render::prepare_clusters
.after(render::prepare_lights)
.in_set(RenderLightSystems::PrepareClusters),
sort_phase_system::<Shadow>.in_set(RenderSet::PhaseSort),
),
)
.init_resource::<LightMeta>();
let shadow_pass_node = ShadowPassNode::new(&mut render_app.world);
let mut graph = render_app.world.resource_mut::<RenderGraph>();
let draw_3d_graph = graph
.get_sub_graph_mut(bevy_core_pipeline::core_3d::graph::NAME)
.unwrap();
draw_3d_graph.add_node(draw_3d_graph::node::SHADOW_PASS, shadow_pass_node);
draw_3d_graph.add_node_edge(
draw_3d_graph::node::SHADOW_PASS,
bevy_core_pipeline::core_3d::graph::node::START_MAIN_PASS,
);
}
fn finish(&self, app: &mut App) {
let render_app = match app.get_sub_app_mut(RenderApp) {
Ok(render_app) => render_app,
Err(_) => return,
};
// Extract the required data from the main world
render_app
.init_resource::<ShadowSamplers>()
.init_resource::<GlobalLightMeta>();
}
}