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Add slang shader for ray tracing reflection sample

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This commit is contained in:
Sascha Willems 2025-04-27 20:37:42 +02:00
parent a4354cdb2e
commit 126231756a
3 changed files with 153 additions and 3 deletions
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6
shaders/slang/_rename.py
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@ -13,5 +13,11 @@ def checkRenameFiles(samplename):
"raytracingbasic.rmiss.spv": "miss.rmiss.spv", "raytracingbasic.rmiss.spv": "miss.rmiss.spv",
"raytracingbasic.rgen.spv": "raygen.rgen.spv", "raytracingbasic.rgen.spv": "raygen.rgen.spv",
} }
case "raytracingreflections":
mappings = {
"raytracingreflections.rchit.spv": "closesthit.rchit.spv",
"raytracingreflections.rmiss.spv": "miss.rmiss.spv",
"raytracingreflections.rgen.spv": "raygen.rgen.spv",
}
for x, y in mappings.items(): for x, y in mappings.items():
move(samplename + "\\" + x, samplename + "\\" + y) move(samplename + "\\" + x, samplename + "\\" + y)

6
shaders/slang/compileshaders.py
View file

@ -70,10 +70,10 @@ if args.sample != None:
dir_path = os.path.dirname(os.path.realpath(__file__)) dir_path = os.path.dirname(os.path.realpath(__file__))
dir_path = dir_path.replace('\\', '/') dir_path = dir_path.replace('\\', '/')
for root, dirs, files in os.walk(dir_path): for root, dirs, files in os.walk(dir_path):
folder_name = os.path.basename(root)
if (compile_single_sample != "" and folder_name != compile_single_sample):
continue
for file in files: for file in files:
folder_name = os.path.basename(root)
if (compile_single_sample != "" and folder_name != compile_single_sample):
continue
if file.endswith(".slang"): if file.endswith(".slang"):
input_file = os.path.join(root, file) input_file = os.path.join(root, file)
# Slang can store multiple shader stages in a single file, we need to split into separate SPIR-V files for the sample framework # Slang can store multiple shader stages in a single file, we need to split into separate SPIR-V files for the sample framework

144
shaders/slang/raytracingreflections/raytracingreflections.slang Normal file
View file

@ -0,0 +1,144 @@
/* Copyright (c) 2025, Sascha Willems
*
* SPDX-License-Identifier: MIT
*
*/
RaytracingAccelerationStructure accelStruct;
RWTexture2D<float4> image;
struct CameraProperties
{
float4x4 viewInverse;
float4x4 projInverse;
float4 lightPos;
int vertexSize;
};
ConstantBuffer<CameraProperties> ubo;
StructuredBuffer<float4> vertices;
StructuredBuffer<uint> indices;
// Max. number of recursion is passed via a specialization constant
[SpecializationConstant] const int MAX_RECURSION = 0;
struct Attributes
{
float2 bary;
};
struct RayPayload
{
float3 color;
float distance;
float3 normal;
float reflector;
};
struct Vertex
{
float3 pos;
float3 normal;
float2 uv;
float4 color;
float4 _pad0;
float4 _pad1;
};
Vertex unpack(uint index)
{
// Unpack the vertices from the SSBO using the glTF vertex structure
// The multiplier is the size of the vertex divided by four float components (=16 bytes)
const int m = ubo.vertexSize / 16;
float4 d0 = vertices[m * index + 0];
float4 d1 = vertices[m * index + 1];
float4 d2 = vertices[m * index + 2];
Vertex v;
v.pos = d0.xyz;
v.normal = float3(d0.w, d1.x, d1.y);
v.color = float4(d2.x, d2.y, d2.z, 1.0);
return v;
}
[shader("raygeneration")]
void raygenerationMain()
{
uint3 LaunchID = DispatchRaysIndex();
uint3 LaunchSize = DispatchRaysDimensions();
const float2 pixelCenter = float2(LaunchID.xy) + float2(0.5, 0.5);
const float2 inUV = pixelCenter / float2(LaunchSize.xy);
float2 d = inUV * 2.0 - 1.0;
float4 target = mul(ubo.projInverse, float4(d.x, d.y, 1, 1));
RayDesc rayDesc;
rayDesc.Origin = mul(ubo.viewInverse, float4(0, 0, 0, 1)).xyz;
rayDesc.Direction = mul(ubo.viewInverse, float4(normalize(target.xyz), 0)).xyz;
rayDesc.TMin = 0.001;
rayDesc.TMax = 10000.0;
float3 color = float3(0.0, 0.0, 0.0);
for (int i = 0; i < MAX_RECURSION; i++) {
RayPayload rayPayload;
TraceRay(accelStruct, RAY_FLAG_FORCE_OPAQUE, 0xff, 0, 0, 0, rayDesc, rayPayload);
float3 hitColor = rayPayload.color;
if (rayPayload.distance < 0.0f) {
color += hitColor;
break;
} else if (rayPayload.reflector == 1.0f) {
const float3 hitPos = rayDesc.Origin + rayDesc.Direction * rayPayload.distance;
rayDesc.Origin = hitPos + rayPayload.normal * 0.001f;
rayDesc.Direction = reflect(rayDesc.Direction, rayPayload.normal);
} else {
color += hitColor;
break;
}
}
image[int2(LaunchID.xy)] = float4(color, 0.0);
}
[shader("closesthit")]
void closesthitMain(inout RayPayload rayPayload, in Attributes attribs)
{
uint PrimitiveID = PrimitiveIndex();
int3 index = int3(indices[3 * PrimitiveID], indices[3 * PrimitiveID + 1], indices[3 * PrimitiveID + 2]);
Vertex v0 = unpack(index.x);
Vertex v1 = unpack(index.y);
Vertex v2 = unpack(index.z);
// Interpolate normal
const float3 barycentricCoords = float3(1.0f - attribs.bary.x - attribs.bary.y, attribs.bary.x, attribs.bary.y);
float3 normal = normalize(v0.normal * barycentricCoords.x + v1.normal * barycentricCoords.y + v2.normal * barycentricCoords.z);
// Basic lighting
float3 lightVector = normalize(ubo.lightPos.xyz);
float dot_product = max(dot(lightVector, normal), 0.6);
rayPayload.color.rgb = v0.color.rgb * dot_product;
rayPayload.distance = RayTCurrent();
rayPayload.normal = normal;
// Objects with full white vertex color are treated as reflectors
rayPayload.reflector = ((v0.color.r == 1.0f) && (v0.color.g == 1.0f) && (v0.color.b == 1.0f)) ? 1.0f : 0.0f;
}
[shader("miss")]
void missMain(inout RayPayload rayPayload)
{
float3 worldRayDirection = WorldRayDirection();
// View-independent background gradient to simulate a basic sky background
const float3 gradientStart = float3(0.5, 0.6, 1.0);
const float3 gradientEnd = float3(1.0, 1.0, 1.0);
float3 unitDir = normalize(worldRayDirection);
float t = 0.5 * (unitDir.y + 1.0);
rayPayload.color = (1.0 - t) * gradientStart + t * gradientEnd;
rayPayload.distance = -1.0f;
rayPayload.normal = float3(0, 0, 0);
rayPayload.reflector = 0.0f;
}