SPIRV-Cross/reference/opt/shaders-msl/masking/write-outputs.mask-location-1.multi-patch.tesc

#include <metal_stdlib>
#include <simd/simd.h>

using namespace metal;

struct main0_out
{
    float4 v0;
    float4 gl_Position;
    float gl_PointSize;
};

struct main0_patchOut
{
    float4 v3;
};

kernel void main0(uint3 gl_GlobalInvocationID [[thread_position_in_grid]], device main0_out* spvOut [[buffer(28)]], constant uint* spvIndirectParams [[buffer(29)]], device main0_patchOut* spvPatchOut [[buffer(27)]], device MTLQuadTessellationFactorsHalf* spvTessLevel [[buffer(26)]])
{
    device main0_out* gl_out = &spvOut[gl_GlobalInvocationID.x - gl_GlobalInvocationID.x % 4];
    device main0_patchOut& patchOut = spvPatchOut[gl_GlobalInvocationID.x / 4];
    threadgroup float4 spvStoragev1[8][2];
    threadgroup float4 (&v1)[2] = spvStoragev1[(gl_GlobalInvocationID.x / 4) % 8];
    uint gl_InvocationID = gl_GlobalInvocationID.x % 4;
    uint gl_PrimitiveID = min(gl_GlobalInvocationID.x / 4, spvIndirectParams[1] - 1);
    gl_out[gl_InvocationID].v0 = float4(1.0);
    gl_out[gl_InvocationID].v0.z = 3.0;
    if (gl_InvocationID == 0)
    {
        v1[0] = float4(2.0);
        ((threadgroup float*)&v1[0])[0u] = 3.0;
        v1[1] = float4(2.0);
        ((threadgroup float*)&v1[1])[0u] = 5.0;
    }
    patchOut.v3 = float4(5.0);
    gl_out[gl_InvocationID].gl_Position = float4(10.0);
    gl_out[gl_InvocationID].gl_Position.z = 20.0;
    gl_out[gl_InvocationID].gl_PointSize = 40.0;
}
MSL: Emit multiple threadgroup slices for multi-patch. Multiple patches can run in the same workgroup when using multi-patch mode, so we need to allocate enough storage to avoid false sharing. 2021-04-14 11:13:13 +00:00			`#include <metal_stdlib>`
			`#include <simd/simd.h>`

			`using namespace metal;`

			`struct main0_out`
			`{`
			`float4 v0;`
			`float4 gl_Position;`
			`float gl_PointSize;`
			`};`

			`struct main0_patchOut`
			`{`
			`float4 v3;`
			`};`

			`kernel void main0(uint3 gl_GlobalInvocationID [[thread_position_in_grid]], device main0_out* spvOut [[buffer(28)]], constant uint* spvIndirectParams [[buffer(29)]], device main0_patchOut* spvPatchOut [[buffer(27)]], device MTLQuadTessellationFactorsHalf* spvTessLevel [[buffer(26)]])`
			`{`
			`device main0_out* gl_out = &spvOut[gl_GlobalInvocationID.x - gl_GlobalInvocationID.x % 4];`
			`device main0_patchOut& patchOut = spvPatchOut[gl_GlobalInvocationID.x / 4];`
			`threadgroup float4 spvStoragev1[8][2];`
			`threadgroup float4 (&v1)[2] = spvStoragev1[(gl_GlobalInvocationID.x / 4) % 8];`
			`uint gl_InvocationID = gl_GlobalInvocationID.x % 4;`
MSL: Fix '--msl-multi-patch-workgroup' out of bounds reads when dispatching more threads than control points (#1662) * Fix '--msl-multi-patch-workgroup' cases where thread count exceeds data bounds Fix gl_PrimitiveID off by one error when computing last valid index Point gl_out to the last patch's data when threads exceed input data bounds Point patchOut to the last patch's data when threads exceed input data bounds Update MSL test expectations. * Undo change to MSL multi-patch hull output bound checks * Update MSL multi-patch test expectations. 2021-04-29 18:01:26 +00:00			`uint gl_PrimitiveID = min(gl_GlobalInvocationID.x / 4, spvIndirectParams[1] - 1);`
MSL: Emit multiple threadgroup slices for multi-patch. Multiple patches can run in the same workgroup when using multi-patch mode, so we need to allocate enough storage to avoid false sharing. 2021-04-14 11:13:13 +00:00			`gl_out[gl_InvocationID].v0 = float4(1.0);`
			`gl_out[gl_InvocationID].v0.z = 3.0;`
			`if (gl_InvocationID == 0)`
			`{`
			`v1[0] = float4(2.0);`
			`((threadgroup float*)&v1[0])[0u] = 3.0;`
			`v1[1] = float4(2.0);`
			`((threadgroup float*)&v1[1])[0u] = 5.0;`
			`}`
			`patchOut.v3 = float4(5.0);`
			`gl_out[gl_InvocationID].gl_Position = float4(10.0);`
			`gl_out[gl_InvocationID].gl_Position.z = 20.0;`
			`gl_out[gl_InvocationID].gl_PointSize = 40.0;`
			`}`