2023-10-17 21:28:08 +00:00
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use bevy_asset::{Asset, Handle};
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2023-11-15 12:48:36 +00:00
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use bevy_reflect::{impl_type_path, Reflect};
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2023-10-17 21:28:08 +00:00
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use bevy_render::{
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2024-03-01 20:56:21 +00:00
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mesh::MeshVertexBufferLayoutRef,
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2023-10-17 21:28:08 +00:00
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render_asset::RenderAssets,
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render_resource::{
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AsBindGroup, AsBindGroupError, BindGroupLayout, RenderPipelineDescriptor, Shader,
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ShaderRef, SpecializedMeshPipelineError, UnpreparedBindGroup,
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},
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renderer::RenderDevice,
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texture::{FallbackImage, Image},
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};
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use crate::{Material, MaterialPipeline, MaterialPipelineKey, MeshPipeline, MeshPipelineKey};
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pub struct MaterialExtensionPipeline {
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pub mesh_pipeline: MeshPipeline,
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pub material_layout: BindGroupLayout,
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pub vertex_shader: Option<Handle<Shader>>,
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pub fragment_shader: Option<Handle<Shader>>,
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}
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pub struct MaterialExtensionKey<E: MaterialExtension> {
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pub mesh_key: MeshPipelineKey,
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pub bind_group_data: E::Data,
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}
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/// A subset of the `Material` trait for defining extensions to a base `Material`, such as the builtin `StandardMaterial`.
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/// A user type implementing the trait should be used as the `E` generic param in an `ExtendedMaterial` struct.
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pub trait MaterialExtension: Asset + AsBindGroup + Clone + Sized {
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/// Returns this material's vertex shader. If [`ShaderRef::Default`] is returned, the base material mesh vertex shader
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/// will be used.
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fn vertex_shader() -> ShaderRef {
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ShaderRef::Default
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}
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/// Returns this material's fragment shader. If [`ShaderRef::Default`] is returned, the base material mesh fragment shader
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/// will be used.
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#[allow(unused_variables)]
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fn fragment_shader() -> ShaderRef {
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ShaderRef::Default
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}
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/// Returns this material's prepass vertex shader. If [`ShaderRef::Default`] is returned, the base material prepass vertex shader
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/// will be used.
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fn prepass_vertex_shader() -> ShaderRef {
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ShaderRef::Default
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}
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/// Returns this material's prepass fragment shader. If [`ShaderRef::Default`] is returned, the base material prepass fragment shader
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/// will be used.
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#[allow(unused_variables)]
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fn prepass_fragment_shader() -> ShaderRef {
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ShaderRef::Default
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}
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/// Returns this material's deferred vertex shader. If [`ShaderRef::Default`] is returned, the base material deferred vertex shader
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/// will be used.
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fn deferred_vertex_shader() -> ShaderRef {
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ShaderRef::Default
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}
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/// Returns this material's prepass fragment shader. If [`ShaderRef::Default`] is returned, the base material deferred fragment shader
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/// will be used.
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#[allow(unused_variables)]
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fn deferred_fragment_shader() -> ShaderRef {
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ShaderRef::Default
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}
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/// Returns this material's [`crate::meshlet::MeshletMesh`] fragment shader. If [`ShaderRef::Default`] is returned,
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/// the default meshlet mesh fragment shader will be used.
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#[allow(unused_variables)]
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#[cfg(feature = "meshlet")]
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fn meshlet_mesh_fragment_shader() -> ShaderRef {
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ShaderRef::Default
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}
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/// Returns this material's [`crate::meshlet::MeshletMesh`] prepass fragment shader. If [`ShaderRef::Default`] is returned,
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/// the default meshlet mesh prepass fragment shader will be used.
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#[allow(unused_variables)]
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#[cfg(feature = "meshlet")]
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fn meshlet_mesh_prepass_fragment_shader() -> ShaderRef {
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ShaderRef::Default
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}
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/// Returns this material's [`crate::meshlet::MeshletMesh`] deferred fragment shader. If [`ShaderRef::Default`] is returned,
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/// the default meshlet mesh deferred fragment shader will be used.
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#[allow(unused_variables)]
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#[cfg(feature = "meshlet")]
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fn meshlet_mesh_deferred_fragment_shader() -> ShaderRef {
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ShaderRef::Default
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}
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/// Customizes the default [`RenderPipelineDescriptor`] for a specific entity using the entity's
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/// [`MaterialPipelineKey`] and [`MeshVertexBufferLayoutRef`] as input.
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/// Specialization for the base material is applied before this function is called.
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#[allow(unused_variables)]
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#[inline]
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fn specialize(
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pipeline: &MaterialExtensionPipeline,
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descriptor: &mut RenderPipelineDescriptor,
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layout: &MeshVertexBufferLayoutRef,
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key: MaterialExtensionKey<Self>,
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) -> Result<(), SpecializedMeshPipelineError> {
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Ok(())
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}
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}
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/// A material that extends a base [`Material`] with additional shaders and data.
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///
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/// The data from both materials will be combined and made available to the shader
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/// so that shader functions built for the base material (and referencing the base material
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/// bindings) will work as expected, and custom alterations based on custom data can also be used.
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///
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/// If the extension `E` returns a non-default result from `vertex_shader()` it will be used in place of the base
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/// material's vertex shader.
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///
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/// If the extension `E` returns a non-default result from `fragment_shader()` it will be used in place of the base
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/// fragment shader.
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///
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/// When used with `StandardMaterial` as the base, all the standard material fields are
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/// present, so the `pbr_fragment` shader functions can be called from the extension shader (see
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/// the `extended_material` example).
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#[derive(Asset, Clone, Reflect)]
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#[reflect(type_path = false)]
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pub struct ExtendedMaterial<B: Material, E: MaterialExtension> {
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pub base: B,
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pub extension: E,
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}
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2023-11-15 12:48:36 +00:00
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// We don't use the `TypePath` derive here due to a bug where `#[reflect(type_path = false)]`
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// causes the `TypePath` derive to not generate an implementation.
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impl_type_path!((in bevy_pbr::extended_material) ExtendedMaterial<B: Material, E: MaterialExtension>);
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impl<B: Material, E: MaterialExtension> AsBindGroup for ExtendedMaterial<B, E> {
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type Data = (<B as AsBindGroup>::Data, <E as AsBindGroup>::Data);
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fn unprepared_bind_group(
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&self,
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layout: &BindGroupLayout,
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render_device: &RenderDevice,
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images: &RenderAssets<Image>,
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fallback_image: &FallbackImage,
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) -> Result<UnpreparedBindGroup<Self::Data>, AsBindGroupError> {
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// add together the bindings of the base material and the user material
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let UnpreparedBindGroup {
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mut bindings,
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data: base_data,
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} = B::unprepared_bind_group(&self.base, layout, render_device, images, fallback_image)?;
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let extended_bindgroup = E::unprepared_bind_group(
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&self.extension,
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layout,
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render_device,
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images,
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fallback_image,
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)?;
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bindings.extend(extended_bindgroup.bindings);
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Ok(UnpreparedBindGroup {
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bindings,
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data: (base_data, extended_bindgroup.data),
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})
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}
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fn bind_group_layout_entries(
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render_device: &RenderDevice,
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) -> Vec<bevy_render::render_resource::BindGroupLayoutEntry>
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where
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Self: Sized,
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{
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// add together the bindings of the standard material and the user material
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let mut entries = B::bind_group_layout_entries(render_device);
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entries.extend(E::bind_group_layout_entries(render_device));
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entries
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}
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}
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impl<B: Material, E: MaterialExtension> Material for ExtendedMaterial<B, E> {
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fn vertex_shader() -> ShaderRef {
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match E::vertex_shader() {
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ShaderRef::Default => B::vertex_shader(),
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specified => specified,
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}
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}
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fn fragment_shader() -> ShaderRef {
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match E::fragment_shader() {
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ShaderRef::Default => B::fragment_shader(),
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specified => specified,
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}
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}
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2023-12-24 17:43:55 +00:00
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fn alpha_mode(&self) -> crate::AlphaMode {
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B::alpha_mode(&self.base)
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}
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fn opaque_render_method(&self) -> crate::OpaqueRendererMethod {
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B::opaque_render_method(&self.base)
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}
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fn depth_bias(&self) -> f32 {
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B::depth_bias(&self.base)
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}
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fn reads_view_transmission_texture(&self) -> bool {
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B::reads_view_transmission_texture(&self.base)
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}
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fn prepass_vertex_shader() -> ShaderRef {
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match E::prepass_vertex_shader() {
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ShaderRef::Default => B::prepass_vertex_shader(),
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specified => specified,
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}
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}
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fn prepass_fragment_shader() -> ShaderRef {
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match E::prepass_fragment_shader() {
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ShaderRef::Default => B::prepass_fragment_shader(),
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specified => specified,
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}
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}
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fn deferred_vertex_shader() -> ShaderRef {
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match E::deferred_vertex_shader() {
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ShaderRef::Default => B::deferred_vertex_shader(),
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specified => specified,
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}
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}
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fn deferred_fragment_shader() -> ShaderRef {
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match E::deferred_fragment_shader() {
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ShaderRef::Default => B::deferred_fragment_shader(),
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specified => specified,
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}
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}
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2024-03-25 19:08:27 +00:00
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#[cfg(feature = "meshlet")]
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fn meshlet_mesh_fragment_shader() -> ShaderRef {
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match E::meshlet_mesh_fragment_shader() {
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ShaderRef::Default => B::meshlet_mesh_fragment_shader(),
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specified => specified,
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}
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}
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#[cfg(feature = "meshlet")]
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fn meshlet_mesh_prepass_fragment_shader() -> ShaderRef {
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match E::meshlet_mesh_prepass_fragment_shader() {
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ShaderRef::Default => B::meshlet_mesh_prepass_fragment_shader(),
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specified => specified,
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}
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}
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#[cfg(feature = "meshlet")]
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fn meshlet_mesh_deferred_fragment_shader() -> ShaderRef {
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match E::meshlet_mesh_deferred_fragment_shader() {
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ShaderRef::Default => B::meshlet_mesh_deferred_fragment_shader(),
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specified => specified,
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}
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}
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2023-10-17 21:28:08 +00:00
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fn specialize(
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pipeline: &MaterialPipeline<Self>,
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descriptor: &mut RenderPipelineDescriptor,
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layout: &MeshVertexBufferLayoutRef,
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key: MaterialPipelineKey<Self>,
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) -> Result<(), SpecializedMeshPipelineError> {
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// Call the base material's specialize function
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let MaterialPipeline::<Self> {
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mesh_pipeline,
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material_layout,
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vertex_shader,
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fragment_shader,
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..
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} = pipeline.clone();
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let base_pipeline = MaterialPipeline::<B> {
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mesh_pipeline,
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material_layout,
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vertex_shader,
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fragment_shader,
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marker: Default::default(),
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};
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let base_key = MaterialPipelineKey::<B> {
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mesh_key: key.mesh_key,
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bind_group_data: key.bind_group_data.0,
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};
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B::specialize(&base_pipeline, descriptor, layout, base_key)?;
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// Call the extended material's specialize function afterwards
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let MaterialPipeline::<Self> {
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mesh_pipeline,
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material_layout,
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vertex_shader,
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fragment_shader,
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..
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} = pipeline.clone();
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E::specialize(
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&MaterialExtensionPipeline {
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mesh_pipeline,
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material_layout,
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vertex_shader,
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fragment_shader,
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},
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descriptor,
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layout,
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MaterialExtensionKey {
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mesh_key: key.mesh_key,
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bind_group_data: key.bind_group_data.1,
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},
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)
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}
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}
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