4e42d663a6
Replace the megakernel @compute entry with five wavefront kernels sharing one module, connected by GPU ray/hit/payload buffers and a GPU-driven indirect bounce loop: GENERATE -> (PREP -> TRACE -> SHADE) x maxDepth -> RESOLVE - TRACE contains zero user code (pure _rtwTraverseTlas/Blas, opaque-only). - PREP publishes dispatchWorkgroupsIndirect args from the live ray count; the indirect-args buffer lives in its own bind group so it is never bound read-write in the same dispatch that consumes it as INDIRECT. - New emit/accumulate API: rtEmitPrimaryRay / rtEmitRay / rtAccumulate, plus an optional user Resolve stage (tonemap hook; identity by default). - Per-pass WfParams via a dynamic-offset uniform ring (curIsA/bounce vary between passes within one submit). - Payload-typed wfPayload binding emitted in the codegen region after the user's struct Payload; payload travels with each ray (2*W*H slots). - Request maxBufferSize / maxStorageBufferBindingSize / maxComputeWorkgroups PerDimension so the W*H-sized work buffers fit past the 128MB baseline. VulkanTriangle ported to the new API and renders bit-identical to the megakernel baseline at maxDepth=1. Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
6 lines
214 B
WebGPU Shading Language
6 lines
214 B
WebGPU Shading Language
// Wavefront miss: runs in SHADE for rays that hit nothing. Accumulate the
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// white background directly.
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fn miss_main(ray: RayDesc, payload: ptr<function, Payload>) {
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rtAccumulate(vec3<f32>(1.0, 1.0, 1.0));
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}
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