SPIRV-Cross/reference/shaders-msl/asm/tesc/tess-fixed-input-array-builtin-array.invalid.asm.tesc

#pragma clang diagnostic ignored "-Wmissing-prototypes"
#pragma clang diagnostic ignored "-Wmissing-braces"
#pragma clang diagnostic ignored "-Wunused-variable"

#include <metal_stdlib>
#include <simd/simd.h>
	
template <typename T, size_t Num>
struct unsafe_array
{
	T __Elements[Num ? Num : 1];
	
	constexpr size_t size() const thread { return Num; }
	constexpr size_t max_size() const thread { return Num; }
	constexpr bool empty() const thread { return Num == 0; }
	
	constexpr size_t size() const device { return Num; }
	constexpr size_t max_size() const device { return Num; }
	constexpr bool empty() const device { return Num == 0; }
	
	constexpr size_t size() const constant { return Num; }
	constexpr size_t max_size() const constant { return Num; }
	constexpr bool empty() const constant { return Num == 0; }
	
	constexpr size_t size() const threadgroup { return Num; }
	constexpr size_t max_size() const threadgroup { return Num; }
	constexpr bool empty() const threadgroup { return Num == 0; }
	
	thread T &operator[](size_t pos) thread
	{
		return __Elements[pos];
	}
	constexpr const thread T &operator[](size_t pos) const thread
	{
		return __Elements[pos];
	}
	
	device T &operator[](size_t pos) device
	{
		return __Elements[pos];
	}
	constexpr const device T &operator[](size_t pos) const device
	{
		return __Elements[pos];
	}
	
	constexpr const constant T &operator[](size_t pos) const constant
	{
		return __Elements[pos];
	}
	
	threadgroup T &operator[](size_t pos) threadgroup
	{
		return __Elements[pos];
	}
	constexpr const threadgroup T &operator[](size_t pos) const threadgroup
	{
		return __Elements[pos];
	}
};

using namespace metal;

struct VertexOutput
{
    float4 pos;
    float2 uv;
};

struct HSOut
{
    float4 pos;
    float2 uv;
};

struct HSConstantOut
{
    unsafe_array<float,3> EdgeTess;
    float InsideTess;
};

struct VertexOutput_1
{
    float2 uv;
};

struct HSOut_1
{
    float2 uv;
};

struct main0_out
{
    HSOut_1 _entryPointOutput;
    float4 gl_Position;
};

struct main0_in
{
    float2 VertexOutput_uv [[attribute(0)]];
    float4 gl_Position [[attribute(1)]];
};

static inline __attribute__((always_inline))
HSOut _hs_main(thread const unsafe_array<VertexOutput,3> (&p), thread const uint& i)
{
    HSOut _output;
    _output.pos = p[i].pos;
    _output.uv = p[i].uv;
    return _output;
}

static inline __attribute__((always_inline))
HSConstantOut PatchHS(thread const unsafe_array<VertexOutput,3> (&_patch))
{
    HSConstantOut _output;
    _output.EdgeTess[0] = (float2(1.0) + _patch[0].uv).x;
    _output.EdgeTess[1] = (float2(1.0) + _patch[0].uv).x;
    _output.EdgeTess[2] = (float2(1.0) + _patch[0].uv).x;
    _output.InsideTess = (float2(1.0) + _patch[0].uv).x;
    return _output;
}

kernel void main0(main0_in in [[stage_in]], uint gl_InvocationID [[thread_index_in_threadgroup]], uint gl_PrimitiveID [[threadgroup_position_in_grid]], device main0_out* spvOut [[buffer(28)]], constant uint* spvIndirectParams [[buffer(29)]], device MTLTriangleTessellationFactorsHalf* spvTessLevel [[buffer(26)]], threadgroup main0_in* gl_in [[threadgroup(0)]])
{
    device main0_out* gl_out = &spvOut[gl_PrimitiveID * 3];
    if (gl_InvocationID < spvIndirectParams[0])
        gl_in[gl_InvocationID] = in;
    threadgroup_barrier(mem_flags::mem_threadgroup);
    if (gl_InvocationID >= 3)
        return;
    unsafe_array<VertexOutput,3> p;
    p[0].pos = gl_in[0].gl_Position;
    p[0].uv = gl_in[0].VertexOutput_uv;
    p[1].pos = gl_in[1].gl_Position;
    p[1].uv = gl_in[1].VertexOutput_uv;
    p[2].pos = gl_in[2].gl_Position;
    p[2].uv = gl_in[2].VertexOutput_uv;
    uint i = gl_InvocationID;
    unsafe_array<VertexOutput,3> param;
    param = p;
    uint param_1 = i;
    HSOut flattenTemp = _hs_main(param, param_1);
    gl_out[gl_InvocationID].gl_Position = flattenTemp.pos;
    gl_out[gl_InvocationID]._entryPointOutput.uv = flattenTemp.uv;
    threadgroup_barrier(mem_flags::mem_device | mem_flags::mem_threadgroup);
    if (int(gl_InvocationID) == 0)
    {
        unsafe_array<VertexOutput,3> param_2;
        param_2 = p;
        HSConstantOut _patchConstantResult = PatchHS(param_2);
        spvTessLevel[gl_PrimitiveID].edgeTessellationFactor[0] = half(_patchConstantResult.EdgeTess[0]);
        spvTessLevel[gl_PrimitiveID].edgeTessellationFactor[1] = half(_patchConstantResult.EdgeTess[1]);
        spvTessLevel[gl_PrimitiveID].edgeTessellationFactor[2] = half(_patchConstantResult.EdgeTess[2]);
        spvTessLevel[gl_PrimitiveID].insideTessellationFactor = half(_patchConstantResult.InsideTess);
    }
}