Using buffer reference instead of un-sized array

ray_tracing__simple/shaders/raytrace.rchit

@@ -16,12 +16,16 @@
  * SPDX-FileCopyrightText: Copyright (c) 2019-2021 NVIDIA CORPORATION
  * SPDX-License-Identifier: Apache-2.0
  */
- 
+
 #version 460
 #extension GL_EXT_ray_tracing : require
 #extension GL_EXT_nonuniform_qualifier : enable
 #extension GL_EXT_scalar_block_layout : enable
 #extension GL_GOOGLE_include_directive : enable
+
+#extension GL_EXT_shader_explicit_arithmetic_types_int64 : require
+#extension GL_EXT_buffer_reference2 : require
+
 #include "raycommon.glsl"
 #include "wavefront.glsl"
 
@@ -31,14 +35,13 @@ hitAttributeEXT vec2 attribs;
 layout(location = 0) rayPayloadInEXT hitPayload prd;
 layout(location = 1) rayPayloadEXT bool isShadowed;
 
+layout(buffer_reference, scalar) buffer Vertices {Vertex v[]; }; // Positions of an object
+layout(buffer_reference, scalar) buffer Indices {ivec3 i[]; }; // Triangle indices
+layout(buffer_reference, scalar) buffer Materials {WaveFrontMaterial m[]; }; // Array of all materials on an object
+layout(buffer_reference, scalar) buffer MatIndices {int i[]; }; // Material ID for each triangle
 layout(binding = 0, set = 0) uniform accelerationStructureEXT topLevelAS;
-layout(binding = 1, set = 1, scalar) buffer MatColorBufferObject { WaveFrontMaterial m[]; } materials[];
-layout(binding = 2, set = 1, scalar) buffer ScnDesc { sceneDesc i[]; } scnDesc;
-layout(binding = 3, set = 1) uniform sampler2D textureSamplers[];
-layout(binding = 4, set = 1)  buffer MatIndexColorBuffer { int i[]; } matIndex[];
-layout(binding = 5, set = 1, scalar) buffer Vertices { Vertex v[]; } vertices[];
-layout(binding = 6, set = 1) buffer Indices { uint i[]; } indices[];
-
+layout(binding = 1, set = 1, scalar) buffer SceneDesc_ { SceneDesc i[]; } sceneDesc;
+layout(binding = 2, set = 1) uniform sampler2D textureSamplers[];
 // clang-format on
 
 layout(push_constant) uniform Constants
@@ -53,30 +56,33 @@ pushC;
 
 void main()
 {
-  // Object of this instance
-  uint objId = scnDesc.i[gl_InstanceCustomIndexEXT].objId;
+  // Object data
+  SceneDesc  objResource = sceneDesc.i[gl_InstanceCustomIndexEXT];
+  MatIndices matIndices  = MatIndices(objResource.materialIndexAddress);
+  Materials  materials   = Materials(objResource.materialAddress);
+  Indices    indices     = Indices(objResource.indexAddress);
+  Vertices   vertices    = Vertices(objResource.vertexAddress);
 
   // Indices of the triangle
-  ivec3 ind = ivec3(indices[nonuniformEXT(objId)].i[3 * gl_PrimitiveID + 0],   //
-                    indices[nonuniformEXT(objId)].i[3 * gl_PrimitiveID + 1],   //
-                    indices[nonuniformEXT(objId)].i[3 * gl_PrimitiveID + 2]);  //
+  ivec3 ind = indices.i[gl_PrimitiveID];
+
   // Vertex of the triangle
-  Vertex v0 = vertices[nonuniformEXT(objId)].v[ind.x];
-  Vertex v1 = vertices[nonuniformEXT(objId)].v[ind.y];
-  Vertex v2 = vertices[nonuniformEXT(objId)].v[ind.z];
+  Vertex v0 = vertices.v[ind.x];
+  Vertex v1 = vertices.v[ind.y];
+  Vertex v2 = vertices.v[ind.z];
 
   const vec3 barycentrics = vec3(1.0 - attribs.x - attribs.y, attribs.x, attribs.y);
 
   // Computing the normal at hit position
   vec3 normal = v0.nrm * barycentrics.x + v1.nrm * barycentrics.y + v2.nrm * barycentrics.z;
   // Transforming the normal to world space
-  normal = normalize(vec3(scnDesc.i[gl_InstanceCustomIndexEXT].transfoIT * vec4(normal, 0.0)));
+  normal = normalize(vec3(sceneDesc.i[gl_InstanceCustomIndexEXT].transfoIT * vec4(normal, 0.0)));
 
 
   // Computing the coordinates of the hit position
   vec3 worldPos = v0.pos * barycentrics.x + v1.pos * barycentrics.y + v2.pos * barycentrics.z;
   // Transforming the position to world space
-  worldPos = vec3(scnDesc.i[gl_InstanceCustomIndexEXT].transfo * vec4(worldPos, 1.0));
+  worldPos = vec3(sceneDesc.i[gl_InstanceCustomIndexEXT].transfo * vec4(worldPos, 1.0));
 
   // Vector toward the light
   vec3  L;
@@ -96,17 +102,16 @@ void main()
   }
 
   // Material of the object
-  int               matIdx = matIndex[nonuniformEXT(objId)].i[gl_PrimitiveID];
-  WaveFrontMaterial mat    = materials[nonuniformEXT(objId)].m[matIdx];
+  int               matIdx = matIndices.i[gl_PrimitiveID];
+  WaveFrontMaterial mat    = materials.m[matIdx];
 
 
   // Diffuse
   vec3 diffuse = computeDiffuse(mat, L, normal);
   if(mat.textureId >= 0)
   {
-    uint txtId = mat.textureId + scnDesc.i[gl_InstanceCustomIndexEXT].txtOffset;
-    vec2 texCoord =
-        v0.texCoord * barycentrics.x + v1.texCoord * barycentrics.y + v2.texCoord * barycentrics.z;
+    uint txtId    = mat.textureId + sceneDesc.i[gl_InstanceCustomIndexEXT].txtOffset;
+    vec2 texCoord = v0.texCoord * barycentrics.x + v1.texCoord * barycentrics.y + v2.texCoord * barycentrics.z;
     diffuse *= texture(textureSamplers[nonuniformEXT(txtId)], texCoord).xyz;
   }
 
@@ -120,9 +125,8 @@ void main()
     float tMax   = lightDistance;
     vec3  origin = gl_WorldRayOriginEXT + gl_WorldRayDirectionEXT * gl_HitTEXT;
     vec3  rayDir = L;
-    uint  flags  = gl_RayFlagsTerminateOnFirstHitEXT | gl_RayFlagsOpaqueEXT
-                 | gl_RayFlagsSkipClosestHitShaderEXT;
-    isShadowed = true;
+    uint  flags  = gl_RayFlagsTerminateOnFirstHitEXT | gl_RayFlagsOpaqueEXT | gl_RayFlagsSkipClosestHitShaderEXT;
+    isShadowed   = true;
     traceRayEXT(topLevelAS,  // acceleration structure
                 flags,       // rayFlags
                 0xFF,        // cullMask