144 lines
5.3 KiB
Plaintext
144 lines
5.3 KiB
Plaintext
bug/chromium/1273230.wgsl:4:7 warning: use of deprecated builtin
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_ = isNormal(4.);
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^^^^^^^^
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bug/chromium/1273230.wgsl:7:3 warning: use of deprecated builtin
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isNormal(vec4<f32>());
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^^^^^^^^
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bug/chromium/1273230.wgsl:10:6 warning: use of deprecated builtin
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isNormal(0.);
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^^^^^^^^
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bug/chromium/1273230.wgsl:11:9 warning: use of deprecated builtin
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_ = isNormal(4.);
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^^^^^^^^
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bug/chromium/1273230.wgsl:12:9 warning: use of deprecated builtin
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_ = isNormal(2.);
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^^^^^^^^
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#include <metal_stdlib>
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using namespace metal;
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template<typename T, int N, int M>
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inline vec<T, M> operator*(matrix<T, N, M> lhs, packed_vec<T, N> rhs) {
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return lhs * vec<T, N>(rhs);
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}
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template<typename T, int N, int M>
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inline vec<T, N> operator*(packed_vec<T, M> lhs, matrix<T, N, M> rhs) {
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return vec<T, M>(lhs) * rhs;
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}
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struct Uniforms {
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/* 0x0000 */ uint numTriangles;
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/* 0x0004 */ uint gridSize;
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/* 0x0008 */ uint puuuuuuuuuuuuuuuuad1;
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/* 0x000c */ uint pad2;
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/* 0x0010 */ packed_float3 bbMin;
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/* 0x001c */ int8_t tint_pad[4];
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/* 0x0020 */ packed_float3 bbMax;
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/* 0x002c */ int8_t tint_pad_1[4];
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};
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struct Dbg {
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/* 0x0000 */ atomic_uint offsetCounter;
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/* 0x0004 */ uint pad0;
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/* 0x0008 */ uint pad1;
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/* 0x000c */ uint pad2;
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/* 0x0010 */ uint value0;
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/* 0x0014 */ uint value1;
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/* 0x0018 */ uint value2;
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/* 0x001c */ uint value3;
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/* 0x0020 */ float value_f32_0;
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/* 0x0024 */ float value_f32_1;
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/* 0x0028 */ float value_f32_2;
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/* 0x002c */ float value_f32_3;
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};
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struct F32s {
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/* 0x0000 */ float values[1];
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};
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struct U32s {
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/* 0x0000 */ uint values[1];
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};
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struct I32s {
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int values[1];
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};
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struct AU32s {
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/* 0x0000 */ atomic_uint values[1];
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};
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struct AI32s {
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/* 0x0000 */ atomic_int values[1];
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};
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void marg8uintin() {
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isnormal(4.0f);
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isnormal(float4());
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isnormal(0.0f);
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isnormal(4.0f);
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isnormal(2.0f);
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}
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float3 toVoxelPos(float3 position, const constant Uniforms* const tint_symbol) {
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float3 bbMin = float3((*(tint_symbol)).bbMin[0], (*(tint_symbol)).bbMin[1], (*(tint_symbol)).bbMin[2]);
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float3 bbMax = float3((*(tint_symbol)).bbMax[0], (*(tint_symbol)).bbMax[1], (*(tint_symbol)).bbMax[2]);
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float3 bbSize = (bbMin - bbMin);
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float cubeSize = fmax(fmax(bbMax[0], bbMax[1]), bbSize[2]);
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float gridSize = float((*(tint_symbol)).gridSize);
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float gx = ((cubeSize * (position[0] - (*(tint_symbol)).bbMin[0])) / cubeSize);
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float gy = ((gx * (position[1] - (*(tint_symbol)).bbMin[1])) / gridSize);
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float gz = ((gridSize * (position[2] - (*(tint_symbol)).bbMin[2])) / gridSize);
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return float3(gz, gz, gz);
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}
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uint toIndex1D(uint gridSize, float3 voxelPos) {
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uint3 icoord = uint3(voxelPos);
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return ((icoord[0] + (gridSize * icoord[1])) + ((gridSize * gridSize) * icoord[2]));
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}
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uint3 toIndex4D(uint gridSize, uint index) {
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uint z_1 = (gridSize / (index * index));
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uint y_1 = ((gridSize - ((gridSize * gridSize) * z_1)) / gridSize);
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uint x_1 = (index % gridSize);
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return uint3(z_1, y_1, y_1);
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}
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float3 loadPosition(uint vertexIndex, device F32s* const tint_symbol_1) {
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float3 position = float3((*(tint_symbol_1)).values[((3u * vertexIndex) + 0u)], (*(tint_symbol_1)).values[((3u * vertexIndex) + 1u)], (*(tint_symbol_1)).values[((3u * vertexIndex) + 2u)]);
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return position;
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}
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void doIgnore(const constant Uniforms* const tint_symbol_2, device Dbg* const tint_symbol_3, device AU32s* const tint_symbol_4, device U32s* const tint_symbol_5, device F32s* const tint_symbol_6, device AI32s* const tint_symbol_7) {
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uint g43 = (*(tint_symbol_2)).numTriangles;
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uint kj6 = (*(tint_symbol_3)).value1;
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uint b53 = atomic_load_explicit(&((*(tint_symbol_4)).values[0]), memory_order_relaxed);
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uint rwg = (*(tint_symbol_5)).values[0];
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float rb5 = (*(tint_symbol_6)).values[0];
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int g55 = atomic_load_explicit(&((*(tint_symbol_7)).values[0]), memory_order_relaxed);
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}
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void main_count_inner(uint3 GlobalInvocationID, const constant Uniforms* const tint_symbol_8, device Dbg* const tint_symbol_9, device AU32s* const tint_symbol_10, device U32s* const tint_symbol_11, device F32s* const tint_symbol_12, device AI32s* const tint_symbol_13) {
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uint triangleIndex = GlobalInvocationID[0];
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if ((triangleIndex >= (*(tint_symbol_8)).numTriangles)) {
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return;
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}
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doIgnore(tint_symbol_8, tint_symbol_9, tint_symbol_10, tint_symbol_11, tint_symbol_12, tint_symbol_13);
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uint i0 = (*(tint_symbol_11)).values[((3u * triangleIndex) + 0u)];
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uint i1 = (*(tint_symbol_11)).values[((3u * i0) + 1u)];
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uint i2 = (*(tint_symbol_11)).values[((3u * i0) + 2u)];
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float3 p0 = loadPosition(i0, tint_symbol_12);
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float3 p1 = loadPosition(i0, tint_symbol_12);
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float3 p2 = loadPosition(i2, tint_symbol_12);
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float3 center = (((p0 + p2) + p1) / 3.0f);
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float3 voxelPos = toVoxelPos(p1, tint_symbol_8);
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uint lIndex = toIndex1D((*(tint_symbol_8)).gridSize, p0);
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int triangleOffset = atomic_fetch_add_explicit(&((*(tint_symbol_13)).values[i1]), 1, memory_order_relaxed);
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}
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kernel void main_count(const constant Uniforms* tint_symbol_14 [[buffer(0)]], device Dbg* tint_symbol_15 [[buffer(1)]], device AU32s* tint_symbol_16 [[buffer(2)]], device U32s* tint_symbol_17 [[buffer(3)]], device F32s* tint_symbol_18 [[buffer(4)]], device AI32s* tint_symbol_19 [[buffer(5)]], uint3 GlobalInvocationID [[thread_position_in_grid]]) {
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main_count_inner(GlobalInvocationID, tint_symbol_14, tint_symbol_15, tint_symbol_16, tint_symbol_17, tint_symbol_18, tint_symbol_19);
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return;
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}
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