131 lines
2.4 KiB
Plaintext
131 lines
2.4 KiB
Plaintext
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#version 450
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layout(local_size_x = 1) in;
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layout(binding = 0, std430) buffer SSBO
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{
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float res;
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int ires;
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uint ures;
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vec4 f32;
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ivec4 s32;
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uvec4 u32;
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mat2 m2;
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mat3 m3;
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mat4 m4;
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};
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void main()
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{
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float tmp;
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vec2 v2;
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vec3 v3;
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vec4 v4;
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int itmp;
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res = round(f32.x);
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//res = roundEven(f32.x);
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res = trunc(f32.x);
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res = abs(f32.x);
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ires = abs(s32.x);
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res = sign(f32.x);
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ires = sign(s32.x);
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res = floor(f32.x);
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res = ceil(f32.x);
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res = fract(f32.x);
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res = radians(f32.x);
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res = degrees(f32.x);
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res = sin(f32.x);
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res = cos(f32.x);
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res = tan(f32.x);
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res = asin(f32.x);
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res = acos(f32.x);
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res = atan(f32.x);
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res = sinh(f32.x);
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res = cosh(f32.x);
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res = tanh(f32.x);
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//res = asinh(f32.x);
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//res = acosh(f32.x);
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//res = atanh(f32.x);
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res = atan(f32.x, f32.y);
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res = pow(f32.x, f32.y);
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res = exp(f32.x);
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res = log(f32.x);
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res = exp2(f32.x);
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res = log2(f32.x);
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res = sqrt(f32.x);
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res = inversesqrt(f32.x);
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res = length(f32.x);
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res = distance(f32.x, f32.y);
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res = normalize(f32.x);
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res = faceforward(f32.x, f32.y, f32.z);
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res = reflect(f32.x, f32.y);
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res = refract(f32.x, f32.y, f32.z);
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res = length(f32.xy);
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res = distance(f32.xy, f32.zw);
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v2 = normalize(f32.xy);
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v2 = faceforward(f32.xy, f32.yz, f32.zw);
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v2 = reflect(f32.xy, f32.zw);
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v2 = refract(f32.xy, f32.yz, f32.w);
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v3 = cross(f32.xyz, f32.yzw);
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res = determinant(m2);
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res = determinant(m3);
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res = determinant(m4);
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m2 = inverse(m2);
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m3 = inverse(m3);
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m4 = inverse(m4);
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res = modf(f32.x, tmp);
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// ModfStruct
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res = min(f32.x, f32.y);
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ures = min(u32.x, u32.y);
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ires = min(s32.x, s32.y);
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res = max(f32.x, f32.y);
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ures = max(u32.x, u32.y);
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ires = max(s32.x, s32.y);
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res = clamp(f32.x, f32.y, f32.z);
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ures = clamp(u32.x, u32.y, u32.z);
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ires = clamp(s32.x, s32.y, s32.z);
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res = mix(f32.x, f32.y, f32.z);
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res = step(f32.x, f32.y);
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res = smoothstep(f32.x, f32.y, f32.z);
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res = fma(f32.x, f32.y, f32.z);
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res = frexp(f32.x, itmp);
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// FrexpStruct
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res = ldexp(f32.x, itmp);
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ures = packSnorm4x8(f32);
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ures = packUnorm4x8(f32);
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ures = packSnorm2x16(f32.xy);
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ures = packUnorm2x16(f32.xy);
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ures = packHalf2x16(f32.xy);
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// packDouble2x32
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v2 = unpackSnorm2x16(u32.x);
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v2 = unpackUnorm2x16(u32.x);
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v2 = unpackHalf2x16(u32.x);
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v4 = unpackSnorm4x8(u32.x);
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v4 = unpackUnorm4x8(u32.x);
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// unpackDouble2x32
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s32 = findLSB(s32);
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s32 = findLSB(u32);
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s32 = findMSB(s32);
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s32 = findMSB(u32);
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// interpolateAtSample
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// interpolateAtOffset
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// NMin, NMax, NClamp
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}
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