2024-03-25 19:08:27 +00:00
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#define_import_path bevy_pbr::meshlet_visibility_buffer_resolve
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#import bevy_pbr::{
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meshlet_bindings::{
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meshlet_visibility_buffer,
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meshlet_thread_meshlet_ids,
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meshlets,
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meshlet_vertex_ids,
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meshlet_vertex_data,
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meshlet_thread_instance_ids,
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meshlet_instance_uniforms,
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get_meshlet_index,
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unpack_meshlet_vertex,
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},
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mesh_view_bindings::view,
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mesh_functions::mesh_position_local_to_world,
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mesh_types::MESH_FLAGS_SIGN_DETERMINANT_MODEL_3X3_BIT,
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view_transformations::{position_world_to_clip, frag_coord_to_ndc},
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}
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#import bevy_render::maths::{affine3_to_square, mat2x4_f32_to_mat3x3_unpack}
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#ifdef PREPASS_FRAGMENT
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#ifdef MOTION_VECTOR_PREPASS
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#import bevy_pbr::{
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2024-04-07 18:59:16 +00:00
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prepass_bindings::previous_view_uniforms,
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2024-03-25 19:08:27 +00:00
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pbr_prepass_functions::calculate_motion_vector,
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}
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#endif
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#endif
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/// Functions to be used by materials for reading from a meshlet visibility buffer texture.
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#ifdef MESHLET_MESH_MATERIAL_PASS
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struct PartialDerivatives {
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barycentrics: vec3<f32>,
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ddx: vec3<f32>,
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ddy: vec3<f32>,
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}
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// https://github.com/ConfettiFX/The-Forge/blob/2d453f376ef278f66f97cbaf36c0d12e4361e275/Examples_3/Visibility_Buffer/src/Shaders/FSL/visibilityBuffer_shade.frag.fsl#L83-L139
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fn compute_partial_derivatives(vertex_clip_positions: array<vec4<f32>, 3>, ndc_uv: vec2<f32>, screen_size: vec2<f32>) -> PartialDerivatives {
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var result: PartialDerivatives;
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let inv_w = 1.0 / vec3(vertex_clip_positions[0].w, vertex_clip_positions[1].w, vertex_clip_positions[2].w);
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let ndc_0 = vertex_clip_positions[0].xy * inv_w[0];
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let ndc_1 = vertex_clip_positions[1].xy * inv_w[1];
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let ndc_2 = vertex_clip_positions[2].xy * inv_w[2];
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let inv_det = 1.0 / determinant(mat2x2(ndc_2 - ndc_1, ndc_0 - ndc_1));
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result.ddx = vec3(ndc_1.y - ndc_2.y, ndc_2.y - ndc_0.y, ndc_0.y - ndc_1.y) * inv_det * inv_w;
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result.ddy = vec3(ndc_2.x - ndc_1.x, ndc_0.x - ndc_2.x, ndc_1.x - ndc_0.x) * inv_det * inv_w;
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var ddx_sum = dot(result.ddx, vec3(1.0));
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var ddy_sum = dot(result.ddy, vec3(1.0));
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let delta_v = ndc_uv - ndc_0;
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let interp_inv_w = inv_w.x + delta_v.x * ddx_sum + delta_v.y * ddy_sum;
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let interp_w = 1.0 / interp_inv_w;
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result.barycentrics = vec3(
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interp_w * (delta_v.x * result.ddx.x + delta_v.y * result.ddy.x + inv_w.x),
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interp_w * (delta_v.x * result.ddx.y + delta_v.y * result.ddy.y),
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interp_w * (delta_v.x * result.ddx.z + delta_v.y * result.ddy.z),
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);
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result.ddx *= 2.0 / screen_size.x;
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result.ddy *= 2.0 / screen_size.y;
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ddx_sum *= 2.0 / screen_size.x;
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ddy_sum *= 2.0 / screen_size.y;
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let interp_ddx_w = 1.0 / (interp_inv_w + ddx_sum);
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let interp_ddy_w = 1.0 / (interp_inv_w + ddy_sum);
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result.ddx = interp_ddx_w * (result.barycentrics * interp_inv_w + result.ddx) - result.barycentrics;
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result.ddy = interp_ddy_w * (result.barycentrics * interp_inv_w + result.ddy) - result.barycentrics;
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return result;
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}
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struct VertexOutput {
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position: vec4<f32>,
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world_position: vec4<f32>,
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world_normal: vec3<f32>,
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uv: vec2<f32>,
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ddx_uv: vec2<f32>,
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ddy_uv: vec2<f32>,
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world_tangent: vec4<f32>,
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mesh_flags: u32,
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meshlet_id: u32,
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#ifdef PREPASS_FRAGMENT
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#ifdef MOTION_VECTOR_PREPASS
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motion_vector: vec2<f32>,
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#endif
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#endif
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}
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/// Load the visibility buffer texture and resolve it into a VertexOutput.
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fn resolve_vertex_output(frag_coord: vec4<f32>) -> VertexOutput {
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let vbuffer = textureLoad(meshlet_visibility_buffer, vec2<i32>(frag_coord.xy), 0).r;
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let cluster_id = vbuffer >> 8u;
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let meshlet_id = meshlet_thread_meshlet_ids[cluster_id];
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let meshlet = meshlets[meshlet_id];
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let triangle_id = extractBits(vbuffer, 0u, 8u);
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let index_ids = meshlet.start_index_id + vec3(triangle_id * 3u) + vec3(0u, 1u, 2u);
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let indices = meshlet.start_vertex_id + vec3(get_meshlet_index(index_ids.x), get_meshlet_index(index_ids.y), get_meshlet_index(index_ids.z));
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let vertex_ids = vec3(meshlet_vertex_ids[indices.x], meshlet_vertex_ids[indices.y], meshlet_vertex_ids[indices.z]);
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let vertex_1 = unpack_meshlet_vertex(meshlet_vertex_data[vertex_ids.x]);
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let vertex_2 = unpack_meshlet_vertex(meshlet_vertex_data[vertex_ids.y]);
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let vertex_3 = unpack_meshlet_vertex(meshlet_vertex_data[vertex_ids.z]);
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let instance_id = meshlet_thread_instance_ids[cluster_id];
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let instance_uniform = meshlet_instance_uniforms[instance_id];
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let model = affine3_to_square(instance_uniform.model);
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let world_position_1 = mesh_position_local_to_world(model, vec4(vertex_1.position, 1.0));
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let world_position_2 = mesh_position_local_to_world(model, vec4(vertex_2.position, 1.0));
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let world_position_3 = mesh_position_local_to_world(model, vec4(vertex_3.position, 1.0));
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let clip_position_1 = position_world_to_clip(world_position_1.xyz);
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let clip_position_2 = position_world_to_clip(world_position_2.xyz);
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let clip_position_3 = position_world_to_clip(world_position_3.xyz);
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let frag_coord_ndc = frag_coord_to_ndc(frag_coord).xy;
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let partial_derivatives = compute_partial_derivatives(
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array(clip_position_1, clip_position_2, clip_position_3),
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frag_coord_ndc,
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view.viewport.zw,
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);
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let world_position = mat3x4(world_position_1, world_position_2, world_position_3) * partial_derivatives.barycentrics;
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let vertex_normal = mat3x3(vertex_1.normal, vertex_2.normal, vertex_3.normal) * partial_derivatives.barycentrics;
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let world_normal = normalize(
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mat2x4_f32_to_mat3x3_unpack(
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instance_uniform.inverse_transpose_model_a,
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instance_uniform.inverse_transpose_model_b,
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) * vertex_normal
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);
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let uv = mat3x2(vertex_1.uv, vertex_2.uv, vertex_3.uv) * partial_derivatives.barycentrics;
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let ddx_uv = mat3x2(vertex_1.uv, vertex_2.uv, vertex_3.uv) * partial_derivatives.ddx;
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let ddy_uv = mat3x2(vertex_1.uv, vertex_2.uv, vertex_3.uv) * partial_derivatives.ddy;
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let vertex_tangent = mat3x4(vertex_1.tangent, vertex_2.tangent, vertex_3.tangent) * partial_derivatives.barycentrics;
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let world_tangent = vec4(
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normalize(
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mat3x3(
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model[0].xyz,
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model[1].xyz,
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model[2].xyz
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) * vertex_tangent.xyz
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),
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vertex_tangent.w * (f32(bool(instance_uniform.flags & MESH_FLAGS_SIGN_DETERMINANT_MODEL_3X3_BIT)) * 2.0 - 1.0)
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);
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#ifdef PREPASS_FRAGMENT
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#ifdef MOTION_VECTOR_PREPASS
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let previous_model = affine3_to_square(instance_uniform.previous_model);
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let previous_world_position_1 = mesh_position_local_to_world(previous_model, vec4(vertex_1.position, 1.0));
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let previous_world_position_2 = mesh_position_local_to_world(previous_model, vec4(vertex_2.position, 1.0));
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let previous_world_position_3 = mesh_position_local_to_world(previous_model, vec4(vertex_3.position, 1.0));
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2024-04-07 18:59:16 +00:00
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let previous_clip_position_1 = previous_view_uniforms.view_proj * vec4(previous_world_position_1.xyz, 1.0);
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let previous_clip_position_2 = previous_view_uniforms.view_proj * vec4(previous_world_position_2.xyz, 1.0);
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let previous_clip_position_3 = previous_view_uniforms.view_proj * vec4(previous_world_position_3.xyz, 1.0);
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2024-03-25 19:08:27 +00:00
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let previous_partial_derivatives = compute_partial_derivatives(
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array(previous_clip_position_1, previous_clip_position_2, previous_clip_position_3),
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frag_coord_ndc,
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view.viewport.zw,
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);
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let previous_world_position = mat3x4(previous_world_position_1, previous_world_position_2, previous_world_position_3) * previous_partial_derivatives.barycentrics;
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let motion_vector = calculate_motion_vector(world_position, previous_world_position);
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#endif
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#endif
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return VertexOutput(
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frag_coord,
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world_position,
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world_normal,
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uv,
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ddx_uv,
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ddy_uv,
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world_tangent,
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instance_uniform.flags,
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meshlet_id,
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#ifdef PREPASS_FRAGMENT
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#ifdef MOTION_VECTOR_PREPASS
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motion_vector,
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#endif
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#endif
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);
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}
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#endif
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