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https://github.com/bevyengine/bevy
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Micro-optimize queue_material_meshes
, primarily to remove bit manipulation. (#12791)
This commit makes the following optimizations: ## `MeshPipelineKey`/`BaseMeshPipelineKey` split `MeshPipelineKey` has been split into `BaseMeshPipelineKey`, which lives in `bevy_render` and `MeshPipelineKey`, which lives in `bevy_pbr`. Conceptually, `BaseMeshPipelineKey` is a superclass of `MeshPipelineKey`. For `BaseMeshPipelineKey`, the bits start at the highest (most significant) bit and grow downward toward the lowest bit; for `MeshPipelineKey`, the bits start at the lowest bit and grow upward toward the highest bit. This prevents them from colliding. The goal of this is to avoid having to reassemble bits of the pipeline key for every mesh every frame. Instead, we can just use a bitwise or operation to combine the pieces that make up a `MeshPipelineKey`. ## `specialize_slow` Previously, all of `specialize()` was marked as `#[inline]`. This bloated `queue_material_meshes` unnecessarily, as a large chunk of it ended up being a slow path that was rarely hit. This commit refactors the function to move the slow path to `specialize_slow()`. Together, these two changes shave about 5% off `queue_material_meshes`: ![Screenshot 2024-03-29 130002](https://github.com/bevyengine/bevy/assets/157897/a7e5a994-a807-4328-b314-9003429dcdd2) ## Migration Guide - The `primitive_topology` field on `GpuMesh` is now an accessor method: `GpuMesh::primitive_topology()`. - For performance reasons, `MeshPipelineKey` has been split into `BaseMeshPipelineKey`, which lives in `bevy_render`, and `MeshPipelineKey`, which lives in `bevy_pbr`. These two should be combined with bitwise-or to produce the final `MeshPipelineKey`.
This commit is contained in:
parent
c8aa3ac7d1
commit
37522fd0ae
10 changed files with 195 additions and 108 deletions
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@ -50,6 +50,7 @@ serde = { version = "1", features = ["derive", "rc"] }
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bincode = "1"
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range-alloc = "0.1"
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nonmax = "0.5"
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static_assertions = "1"
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[lints]
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workspace = true
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@ -661,25 +661,9 @@ pub fn queue_material_meshes<M: Material>(
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continue;
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};
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let forward = match material.properties.render_method {
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OpaqueRendererMethod::Forward => true,
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OpaqueRendererMethod::Deferred => false,
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OpaqueRendererMethod::Auto => unreachable!(),
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};
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let mut mesh_key = view_key;
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mesh_key |= MeshPipelineKey::from_primitive_topology(mesh.primitive_topology);
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if mesh.morph_targets.is_some() {
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mesh_key |= MeshPipelineKey::MORPH_TARGETS;
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}
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if material.properties.reads_view_transmission_texture {
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mesh_key |= MeshPipelineKey::READS_VIEW_TRANSMISSION_TEXTURE;
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}
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mesh_key |= alpha_mode_pipeline_key(material.properties.alpha_mode);
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let mut mesh_key = view_key
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| MeshPipelineKey::from_bits_retain(mesh.key_bits.bits())
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| material.properties.mesh_pipeline_key_bits;
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let lightmap_image = render_lightmaps
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.render_lightmaps
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@ -724,7 +708,7 @@ pub fn queue_material_meshes<M: Material>(
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batch_range: 0..1,
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dynamic_offset: None,
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});
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} else if forward {
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} else if material.properties.render_method == OpaqueRendererMethod::Forward {
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let bin_key = Opaque3dBinKey {
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draw_function: draw_opaque_pbr,
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pipeline: pipeline_id,
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@ -748,7 +732,7 @@ pub fn queue_material_meshes<M: Material>(
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batch_range: 0..1,
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dynamic_offset: None,
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});
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} else if forward {
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} else if material.properties.render_method == OpaqueRendererMethod::Forward {
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let bin_key = OpaqueNoLightmap3dBinKey {
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draw_function: draw_alpha_mask_pbr,
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pipeline: pipeline_id,
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@ -823,7 +807,7 @@ impl DefaultOpaqueRendererMethod {
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/// bandwidth usage which can be unsuitable for low end mobile or other bandwidth-constrained devices.
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///
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/// If a material indicates `OpaqueRendererMethod::Auto`, `DefaultOpaqueRendererMethod` will be used.
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#[derive(Default, Clone, Copy, Debug, Reflect)]
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#[derive(Default, Clone, Copy, Debug, PartialEq, Reflect)]
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pub enum OpaqueRendererMethod {
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#[default]
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Forward,
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@ -838,6 +822,11 @@ pub struct MaterialProperties {
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pub render_method: OpaqueRendererMethod,
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/// The [`AlphaMode`] of this material.
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pub alpha_mode: AlphaMode,
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/// The bits in the [`MeshPipelineKey`] for this material.
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///
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/// These are precalculated so that we can just "or" them together in
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/// [`queue_material_meshes`].
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pub mesh_pipeline_key_bits: MeshPipelineKey,
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/// Add a bias to the view depth of the mesh which can be used to force a specific render order
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/// for meshes with equal depth, to avoid z-fighting.
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/// The bias is in depth-texture units so large values may be needed to overcome small depth differences.
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@ -1061,6 +1050,14 @@ fn prepare_material<M: Material>(
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OpaqueRendererMethod::Deferred => OpaqueRendererMethod::Deferred,
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OpaqueRendererMethod::Auto => default_opaque_render_method,
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};
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let mut mesh_pipeline_key_bits = MeshPipelineKey::empty();
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mesh_pipeline_key_bits.set(
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MeshPipelineKey::READS_VIEW_TRANSMISSION_TEXTURE,
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material.reads_view_transmission_texture(),
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);
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mesh_pipeline_key_bits.insert(alpha_mode_pipeline_key(material.alpha_mode()));
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Ok(PreparedMaterial {
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bindings: prepared.bindings,
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bind_group: prepared.bind_group,
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@ -1068,8 +1065,10 @@ fn prepare_material<M: Material>(
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properties: MaterialProperties {
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alpha_mode: material.alpha_mode(),
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depth_bias: material.depth_bias(),
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reads_view_transmission_texture: material.reads_view_transmission_texture(),
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reads_view_transmission_texture: mesh_pipeline_key_bits
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.contains(MeshPipelineKey::READS_VIEW_TRANSMISSION_TEXTURE),
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render_method: method,
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mesh_pipeline_key_bits,
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},
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})
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}
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@ -792,11 +792,8 @@ pub fn queue_prepass_material_meshes<M: Material>(
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continue;
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};
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let mut mesh_key =
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MeshPipelineKey::from_primitive_topology(mesh.primitive_topology) | view_key;
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if mesh.morph_targets.is_some() {
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mesh_key |= MeshPipelineKey::MORPH_TARGETS;
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}
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let mut mesh_key = view_key | MeshPipelineKey::from_bits_retain(mesh.key_bits.bits());
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let alpha_mode = material.properties.alpha_mode;
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match alpha_mode {
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AlphaMode::Opaque => {}
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@ -1644,6 +1644,10 @@ pub fn queue_shadows<M: Material>(
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};
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// NOTE: Lights with shadow mapping disabled will have no visible entities
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// so no meshes will be queued
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let mut light_key = MeshPipelineKey::DEPTH_PREPASS;
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light_key.set(MeshPipelineKey::DEPTH_CLAMP_ORTHO, is_directional_light);
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for entity in visible_entities.iter().copied() {
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let Some(mesh_instance) = render_mesh_instances.get(&entity) else {
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continue;
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@ -1662,14 +1666,7 @@ pub fn queue_shadows<M: Material>(
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};
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let mut mesh_key =
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MeshPipelineKey::from_primitive_topology(mesh.primitive_topology)
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| MeshPipelineKey::DEPTH_PREPASS;
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if mesh.morph_targets.is_some() {
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mesh_key |= MeshPipelineKey::MORPH_TARGETS;
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}
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if is_directional_light {
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mesh_key |= MeshPipelineKey::DEPTH_CLAMP_ORTHO;
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}
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light_key | MeshPipelineKey::from_bits_retain(mesh.key_bits.bits());
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// Even though we don't use the lightmap in the shadow map, the
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// `SetMeshBindGroup` render command will bind the data for it. So
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@ -31,6 +31,7 @@ use bevy_utils::{tracing::error, Entry, HashMap, Parallel};
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#[cfg(debug_assertions)]
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use bevy_utils::warn_once;
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use static_assertions::const_assert_eq;
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use crate::render::{
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morph::{
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@ -508,7 +509,13 @@ bitflags::bitflags! {
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// NOTE: Apparently quadro drivers support up to 64x MSAA.
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/// MSAA uses the highest 3 bits for the MSAA log2(sample count) to support up to 128x MSAA.
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pub struct MeshPipelineKey: u32 {
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// Nothing
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const NONE = 0;
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// Inherited bits
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const MORPH_TARGETS = BaseMeshPipelineKey::MORPH_TARGETS.bits();
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// Flag bits
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const HDR = 1 << 0;
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const TONEMAP_IN_SHADER = 1 << 1;
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const DEBAND_DITHER = 1 << 2;
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@ -522,17 +529,18 @@ bitflags::bitflags! {
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const SCREEN_SPACE_AMBIENT_OCCLUSION = 1 << 9;
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const DEPTH_CLAMP_ORTHO = 1 << 10;
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const TEMPORAL_JITTER = 1 << 11;
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const MORPH_TARGETS = 1 << 12;
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const READS_VIEW_TRANSMISSION_TEXTURE = 1 << 13;
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const LIGHTMAPPED = 1 << 14;
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const IRRADIANCE_VOLUME = 1 << 15;
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const READS_VIEW_TRANSMISSION_TEXTURE = 1 << 12;
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const LIGHTMAPPED = 1 << 13;
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const IRRADIANCE_VOLUME = 1 << 14;
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const LAST_FLAG = Self::IRRADIANCE_VOLUME.bits();
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// Bitfields
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const BLEND_RESERVED_BITS = Self::BLEND_MASK_BITS << Self::BLEND_SHIFT_BITS; // ← Bitmask reserving bits for the blend state
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const BLEND_OPAQUE = 0 << Self::BLEND_SHIFT_BITS; // ← Values are just sequential within the mask, and can range from 0 to 3
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const BLEND_PREMULTIPLIED_ALPHA = 1 << Self::BLEND_SHIFT_BITS; //
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const BLEND_MULTIPLY = 2 << Self::BLEND_SHIFT_BITS; // ← We still have room for one more value without adding more bits
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const BLEND_ALPHA = 3 << Self::BLEND_SHIFT_BITS;
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const MSAA_RESERVED_BITS = Self::MSAA_MASK_BITS << Self::MSAA_SHIFT_BITS;
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const PRIMITIVE_TOPOLOGY_RESERVED_BITS = Self::PRIMITIVE_TOPOLOGY_MASK_BITS << Self::PRIMITIVE_TOPOLOGY_SHIFT_BITS;
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const TONEMAP_METHOD_RESERVED_BITS = Self::TONEMAP_METHOD_MASK_BITS << Self::TONEMAP_METHOD_SHIFT_BITS;
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const TONEMAP_METHOD_NONE = 0 << Self::TONEMAP_METHOD_SHIFT_BITS;
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const TONEMAP_METHOD_REINHARD = 1 << Self::TONEMAP_METHOD_SHIFT_BITS;
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const SCREEN_SPACE_SPECULAR_TRANSMISSION_MEDIUM = 1 << Self::SCREEN_SPACE_SPECULAR_TRANSMISSION_SHIFT_BITS;
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const SCREEN_SPACE_SPECULAR_TRANSMISSION_HIGH = 2 << Self::SCREEN_SPACE_SPECULAR_TRANSMISSION_SHIFT_BITS;
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const SCREEN_SPACE_SPECULAR_TRANSMISSION_ULTRA = 3 << Self::SCREEN_SPACE_SPECULAR_TRANSMISSION_SHIFT_BITS;
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const ALL_RESERVED_BITS =
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Self::BLEND_RESERVED_BITS.bits() |
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Self::MSAA_RESERVED_BITS.bits() |
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Self::TONEMAP_METHOD_RESERVED_BITS.bits() |
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Self::SHADOW_FILTER_METHOD_RESERVED_BITS.bits() |
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Self::VIEW_PROJECTION_RESERVED_BITS.bits() |
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Self::SCREEN_SPACE_SPECULAR_TRANSMISSION_RESERVED_BITS.bits();
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}
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}
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impl MeshPipelineKey {
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const MSAA_MASK_BITS: u32 = 0b111;
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const MSAA_SHIFT_BITS: u32 = 32 - Self::MSAA_MASK_BITS.count_ones();
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const PRIMITIVE_TOPOLOGY_MASK_BITS: u32 = 0b111;
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const PRIMITIVE_TOPOLOGY_SHIFT_BITS: u32 =
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Self::MSAA_SHIFT_BITS - Self::PRIMITIVE_TOPOLOGY_MASK_BITS.count_ones();
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const MSAA_SHIFT_BITS: u32 = Self::LAST_FLAG.bits().trailing_zeros();
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const BLEND_MASK_BITS: u32 = 0b11;
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const BLEND_SHIFT_BITS: u32 =
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Self::PRIMITIVE_TOPOLOGY_SHIFT_BITS - Self::BLEND_MASK_BITS.count_ones();
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const BLEND_SHIFT_BITS: u32 = Self::MSAA_MASK_BITS.count_ones() + Self::MSAA_SHIFT_BITS;
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const TONEMAP_METHOD_MASK_BITS: u32 = 0b111;
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const TONEMAP_METHOD_SHIFT_BITS: u32 =
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Self::BLEND_SHIFT_BITS - Self::TONEMAP_METHOD_MASK_BITS.count_ones();
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Self::BLEND_MASK_BITS.count_ones() + Self::BLEND_SHIFT_BITS;
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const SHADOW_FILTER_METHOD_MASK_BITS: u32 = 0b11;
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const SHADOW_FILTER_METHOD_SHIFT_BITS: u32 =
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Self::TONEMAP_METHOD_SHIFT_BITS - Self::SHADOW_FILTER_METHOD_MASK_BITS.count_ones();
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Self::TONEMAP_METHOD_MASK_BITS.count_ones() + Self::TONEMAP_METHOD_SHIFT_BITS;
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const VIEW_PROJECTION_MASK_BITS: u32 = 0b11;
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const VIEW_PROJECTION_SHIFT_BITS: u32 =
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Self::SHADOW_FILTER_METHOD_SHIFT_BITS - Self::VIEW_PROJECTION_MASK_BITS.count_ones();
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Self::SHADOW_FILTER_METHOD_MASK_BITS.count_ones() + Self::SHADOW_FILTER_METHOD_SHIFT_BITS;
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const SCREEN_SPACE_SPECULAR_TRANSMISSION_MASK_BITS: u32 = 0b11;
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const SCREEN_SPACE_SPECULAR_TRANSMISSION_SHIFT_BITS: u32 = Self::VIEW_PROJECTION_SHIFT_BITS
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- Self::SCREEN_SPACE_SPECULAR_TRANSMISSION_MASK_BITS.count_ones();
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const SCREEN_SPACE_SPECULAR_TRANSMISSION_SHIFT_BITS: u32 =
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Self::VIEW_PROJECTION_MASK_BITS.count_ones() + Self::VIEW_PROJECTION_SHIFT_BITS;
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pub fn from_msaa_samples(msaa_samples: u32) -> Self {
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let msaa_bits =
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@ -607,14 +617,15 @@ impl MeshPipelineKey {
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pub fn from_primitive_topology(primitive_topology: PrimitiveTopology) -> Self {
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let primitive_topology_bits = ((primitive_topology as u32)
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& Self::PRIMITIVE_TOPOLOGY_MASK_BITS)
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<< Self::PRIMITIVE_TOPOLOGY_SHIFT_BITS;
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& BaseMeshPipelineKey::PRIMITIVE_TOPOLOGY_MASK_BITS)
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<< BaseMeshPipelineKey::PRIMITIVE_TOPOLOGY_SHIFT_BITS;
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Self::from_bits_retain(primitive_topology_bits)
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}
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pub fn primitive_topology(&self) -> PrimitiveTopology {
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let primitive_topology_bits = (self.bits() >> Self::PRIMITIVE_TOPOLOGY_SHIFT_BITS)
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& Self::PRIMITIVE_TOPOLOGY_MASK_BITS;
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let primitive_topology_bits = (self.bits()
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>> BaseMeshPipelineKey::PRIMITIVE_TOPOLOGY_SHIFT_BITS)
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& BaseMeshPipelineKey::PRIMITIVE_TOPOLOGY_MASK_BITS;
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match primitive_topology_bits {
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x if x == PrimitiveTopology::PointList as u32 => PrimitiveTopology::PointList,
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x if x == PrimitiveTopology::LineList as u32 => PrimitiveTopology::LineList,
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@ -626,6 +637,13 @@ impl MeshPipelineKey {
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}
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}
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// Ensure that we didn't overflow the number of bits available in `MeshPipelineKey`.
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const_assert_eq!(
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(((MeshPipelineKey::LAST_FLAG.bits() << 1) - 1) | MeshPipelineKey::ALL_RESERVED_BITS.bits())
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& BaseMeshPipelineKey::all().bits(),
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0
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);
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fn is_skinned(layout: &MeshVertexBufferLayoutRef) -> bool {
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layout.0.contains(Mesh::ATTRIBUTE_JOINT_INDEX)
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&& layout.0.contains(Mesh::ATTRIBUTE_JOINT_WEIGHT)
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@ -1,6 +1,7 @@
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mod conversions;
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pub mod skinning;
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use bevy_transform::components::Transform;
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use bitflags::bitflags;
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pub use wgpu::PrimitiveTopology;
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use crate::{
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@ -1393,6 +1394,43 @@ impl From<&Indices> for IndexFormat {
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}
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}
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bitflags! {
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/// Our base mesh pipeline key bits start from the highest bit and go
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/// downward. The PBR mesh pipeline key bits start from the lowest bit and
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/// go upward. This allows the PBR bits in the downstream crate `bevy_pbr`
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/// to coexist in the same field without any shifts.
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#[derive(Clone, Debug)]
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pub struct BaseMeshPipelineKey: u32 {
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const MORPH_TARGETS = 1 << 31;
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}
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}
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impl BaseMeshPipelineKey {
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pub const PRIMITIVE_TOPOLOGY_MASK_BITS: u32 = 0b111;
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pub const PRIMITIVE_TOPOLOGY_SHIFT_BITS: u32 =
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31 - Self::PRIMITIVE_TOPOLOGY_MASK_BITS.count_ones();
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pub fn from_primitive_topology(primitive_topology: PrimitiveTopology) -> Self {
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let primitive_topology_bits = ((primitive_topology as u32)
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& Self::PRIMITIVE_TOPOLOGY_MASK_BITS)
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<< Self::PRIMITIVE_TOPOLOGY_SHIFT_BITS;
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Self::from_bits_retain(primitive_topology_bits)
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}
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pub fn primitive_topology(&self) -> PrimitiveTopology {
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let primitive_topology_bits = (self.bits() >> Self::PRIMITIVE_TOPOLOGY_SHIFT_BITS)
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& Self::PRIMITIVE_TOPOLOGY_MASK_BITS;
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match primitive_topology_bits {
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x if x == PrimitiveTopology::PointList as u32 => PrimitiveTopology::PointList,
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x if x == PrimitiveTopology::LineList as u32 => PrimitiveTopology::LineList,
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x if x == PrimitiveTopology::LineStrip as u32 => PrimitiveTopology::LineStrip,
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x if x == PrimitiveTopology::TriangleList as u32 => PrimitiveTopology::TriangleList,
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x if x == PrimitiveTopology::TriangleStrip as u32 => PrimitiveTopology::TriangleStrip,
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_ => PrimitiveTopology::default(),
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}
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}
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}
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/// The GPU-representation of a [`Mesh`].
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/// Consists of a vertex data buffer and an optional index data buffer.
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#[derive(Debug, Clone)]
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@ -1402,10 +1440,17 @@ pub struct GpuMesh {
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pub vertex_count: u32,
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pub morph_targets: Option<TextureView>,
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pub buffer_info: GpuBufferInfo,
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pub primitive_topology: PrimitiveTopology,
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pub key_bits: BaseMeshPipelineKey,
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pub layout: MeshVertexBufferLayoutRef,
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}
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impl GpuMesh {
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#[inline]
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pub fn primitive_topology(&self) -> PrimitiveTopology {
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self.key_bits.primitive_topology()
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}
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}
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/// The index/vertex buffer info of a [`GpuMesh`].
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#[derive(Debug, Clone)]
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pub enum GpuBufferInfo {
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|
@ -1461,11 +1506,17 @@ impl RenderAsset for Mesh {
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let mesh_vertex_buffer_layout =
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self.get_mesh_vertex_buffer_layout(mesh_vertex_buffer_layouts);
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let mut key_bits = BaseMeshPipelineKey::from_primitive_topology(self.primitive_topology());
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key_bits.set(
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BaseMeshPipelineKey::MORPH_TARGETS,
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self.morph_targets.is_some(),
|
||||
);
|
||||
|
||||
Ok(GpuMesh {
|
||||
vertex_buffer,
|
||||
vertex_count: self.count_vertices() as u32,
|
||||
buffer_info,
|
||||
primitive_topology: self.primitive_topology(),
|
||||
key_bits,
|
||||
layout: mesh_vertex_buffer_layout,
|
||||
morph_targets: self
|
||||
.morph_targets
|
||||
|
|
|
@ -8,6 +8,7 @@ use crate::{
|
|||
},
|
||||
};
|
||||
use bevy_ecs::system::Resource;
|
||||
use bevy_utils::hashbrown::hash_map::VacantEntry;
|
||||
use bevy_utils::{default, hashbrown::hash_map::RawEntryMut, tracing::error, Entry, HashMap};
|
||||
use std::{fmt::Debug, hash::Hash};
|
||||
use thiserror::Error;
|
||||
|
@ -84,9 +85,14 @@ pub trait SpecializedMeshPipeline {
|
|||
#[derive(Resource)]
|
||||
pub struct SpecializedMeshPipelines<S: SpecializedMeshPipeline> {
|
||||
mesh_layout_cache: HashMap<(MeshVertexBufferLayoutRef, S::Key), CachedRenderPipelineId>,
|
||||
vertex_layout_cache: HashMap<VertexBufferLayout, HashMap<S::Key, CachedRenderPipelineId>>,
|
||||
vertex_layout_cache: VertexLayoutCache<S>,
|
||||
}
|
||||
|
||||
pub type VertexLayoutCache<S> = HashMap<
|
||||
VertexBufferLayout,
|
||||
HashMap<<S as SpecializedMeshPipeline>::Key, CachedRenderPipelineId>,
|
||||
>;
|
||||
|
||||
impl<S: SpecializedMeshPipeline> Default for SpecializedMeshPipelines<S> {
|
||||
fn default() -> Self {
|
||||
Self {
|
||||
|
@ -105,23 +111,42 @@ impl<S: SpecializedMeshPipeline> SpecializedMeshPipelines<S> {
|
|||
key: S::Key,
|
||||
layout: &MeshVertexBufferLayoutRef,
|
||||
) -> Result<CachedRenderPipelineId, SpecializedMeshPipelineError> {
|
||||
match self.mesh_layout_cache.entry((layout.clone(), key.clone())) {
|
||||
return match self.mesh_layout_cache.entry((layout.clone(), key.clone())) {
|
||||
Entry::Occupied(entry) => Ok(*entry.into_mut()),
|
||||
Entry::Vacant(entry) => {
|
||||
Entry::Vacant(entry) => specialize_slow(
|
||||
&mut self.vertex_layout_cache,
|
||||
cache,
|
||||
specialize_pipeline,
|
||||
key,
|
||||
layout,
|
||||
entry,
|
||||
),
|
||||
};
|
||||
|
||||
#[cold]
|
||||
fn specialize_slow<S>(
|
||||
vertex_layout_cache: &mut VertexLayoutCache<S>,
|
||||
cache: &PipelineCache,
|
||||
specialize_pipeline: &S,
|
||||
key: S::Key,
|
||||
layout: &MeshVertexBufferLayoutRef,
|
||||
entry: VacantEntry<(MeshVertexBufferLayoutRef, S::Key), CachedRenderPipelineId>,
|
||||
) -> Result<CachedRenderPipelineId, SpecializedMeshPipelineError>
|
||||
where
|
||||
S: SpecializedMeshPipeline,
|
||||
{
|
||||
let descriptor = specialize_pipeline
|
||||
.specialize(key.clone(), layout)
|
||||
.map_err(|mut err| {
|
||||
{
|
||||
let SpecializedMeshPipelineError::MissingVertexAttribute(err) =
|
||||
&mut err;
|
||||
let SpecializedMeshPipelineError::MissingVertexAttribute(err) = &mut err;
|
||||
err.pipeline_type = Some(std::any::type_name::<S>());
|
||||
}
|
||||
err
|
||||
})?;
|
||||
// Different MeshVertexBufferLayouts can produce the same final VertexBufferLayout
|
||||
// We want compatible vertex buffer layouts to use the same pipelines, so we must "deduplicate" them
|
||||
let layout_map = match self
|
||||
.vertex_layout_cache
|
||||
let layout_map = match vertex_layout_cache
|
||||
.raw_entry_mut()
|
||||
.from_key(&descriptor.vertex.buffers[0])
|
||||
{
|
||||
|
@ -135,8 +160,7 @@ impl<S: SpecializedMeshPipeline> SpecializedMeshPipelines<S> {
|
|||
Ok(*entry.insert(match layout_map.entry(key) {
|
||||
Entry::Occupied(entry) => {
|
||||
if cfg!(debug_assertions) {
|
||||
let stored_descriptor =
|
||||
cache.get_render_pipeline_descriptor(*entry.get());
|
||||
let stored_descriptor = cache.get_render_pipeline_descriptor(*entry.get());
|
||||
if stored_descriptor != &descriptor {
|
||||
error!(
|
||||
"The cached pipeline descriptor for {} is not \
|
||||
|
@ -155,7 +179,6 @@ impl<S: SpecializedMeshPipeline> SpecializedMeshPipelines<S> {
|
|||
}))
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
#[derive(Error, Debug)]
|
||||
|
|
|
@ -426,7 +426,7 @@ pub fn queue_material2d_meshes<M: Material2d>(
|
|||
continue;
|
||||
};
|
||||
let mesh_key =
|
||||
view_key | Mesh2dPipelineKey::from_primitive_topology(mesh.primitive_topology);
|
||||
view_key | Mesh2dPipelineKey::from_primitive_topology(mesh.primitive_topology());
|
||||
|
||||
let pipeline_id = pipelines.specialize(
|
||||
&pipeline_cache,
|
||||
|
|
|
@ -383,7 +383,7 @@ pub fn queue_colored_mesh2d(
|
|||
let mut mesh2d_key = mesh_key;
|
||||
if let Some(mesh) = render_meshes.get(mesh2d_handle) {
|
||||
mesh2d_key |=
|
||||
Mesh2dPipelineKey::from_primitive_topology(mesh.primitive_topology);
|
||||
Mesh2dPipelineKey::from_primitive_topology(mesh.primitive_topology());
|
||||
}
|
||||
|
||||
let pipeline_id =
|
||||
|
|
|
@ -133,7 +133,8 @@ fn queue_custom(
|
|||
let Some(mesh) = meshes.get(mesh_instance.mesh_asset_id) else {
|
||||
continue;
|
||||
};
|
||||
let key = view_key | MeshPipelineKey::from_primitive_topology(mesh.primitive_topology);
|
||||
let key =
|
||||
view_key | MeshPipelineKey::from_primitive_topology(mesh.primitive_topology());
|
||||
let pipeline = pipelines
|
||||
.specialize(&pipeline_cache, &custom_pipeline, key, &mesh.layout)
|
||||
.unwrap();
|
||||
|
|
Loading…
Reference in a new issue