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307b6507b3
HLSL allows several variables to be declared. There are packing rules involved: e.g, a float3 and a float1 can be packed into a single array[4], while for a float3 and another float3, the second one will skip the third array entry to avoid straddling This is implements that ability. Because there can be multiple variables involved, and the final output array will often be a different type altogether (to fuse the values into a single destination), a new variable is synthesized, unlike the prior clip/cull support which used the declared variable. The new variable name is taken from one of the declared ones, so the old tests are unchanged. Several new tests are added to test various packing scenarios. Only two semantic IDs are supported: 0, and 1, per HLSL rules. This is encapsulated in static const int maxClipCullRegs = 2; and the algorithm (probably :) ) generalizes to larger values, although there are a few issues around how HLSL would pack (e.g, would 4 scalars be packed into a single HLSL float4 out reg? Probably, and this algorithm assumes so).
24 lines
534 B
GLSL
24 lines
534 B
GLSL
struct VS_OUTPUT {
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float4 Position : SV_Position;
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float3 clip0 : SV_ClipDistance0; // multiple semantic IDs, vec3+vec4 (skip)
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float4 clip1 : SV_ClipDistance1; // ...
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};
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VS_OUTPUT main()
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{
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VS_OUTPUT Output;
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Output.Position = 0;
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Output.clip0.x = 0;
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Output.clip0.y = 1;
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Output.clip0.z = 2;
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// Position 3 is skipped
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Output.clip1.x = 4;
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Output.clip1.y = 5;
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Output.clip1.z = 6;
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Output.clip1.w = 7;
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return Output;
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}
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