void Set_uint4(inout uint4 vec, int idx, uint val) { switch(idx) { case 0: vec[0] = val; break; case 1: vec[1] = val; break; case 2: vec[2] = val; break; case 3: vec[3] = val; break; } } Texture2D src : register(t0, space0); Texture2D tint_symbol : register(t1, space0); RWByteAddressBuffer output : register(u2, space0); cbuffer cbuffer_uniforms : register(b3, space0) { uint4 uniforms[1]; }; uint ConvertToFp16FloatValue(float fp32) { return 1u; } struct tint_symbol_2 { uint3 GlobalInvocationID : SV_DispatchThreadID; }; [numthreads(1, 1, 1)] void main(tint_symbol_2 tint_symbol_1) { const uint3 GlobalInvocationID = tint_symbol_1.GlobalInvocationID; int2 tint_tmp; src.GetDimensions(tint_tmp.x, tint_tmp.y); int2 size = tint_tmp; int2 dstTexCoord = int2(GlobalInvocationID.xy); int2 srcTexCoord = dstTexCoord; const uint scalar_offset = (0u) / 4; if ((uniforms[scalar_offset / 4][scalar_offset % 4] == 1u)) { srcTexCoord.y = ((size.y - dstTexCoord.y) - 1); } float4 srcColor = src.Load(int3(srcTexCoord, 0)); float4 dstColor = tint_symbol.Load(int3(dstTexCoord, 0)); bool success = true; uint4 srcColorBits = uint4(0u, 0u, 0u, 0u); uint4 dstColorBits = uint4(dstColor); { uint i = 0u; while (true) { const uint scalar_offset_1 = (12u) / 4; if (!((i < uniforms[scalar_offset_1 / 4][scalar_offset_1 % 4]))) { break; } Set_uint4(srcColorBits, i, ConvertToFp16FloatValue(srcColor[i])); bool tint_tmp_1 = success; if (tint_tmp_1) { tint_tmp_1 = (srcColorBits[i] == dstColorBits[i]); } success = (tint_tmp_1); i = (i + 1u); } } uint outputIndex = ((GlobalInvocationID.y * uint(size.x)) + GlobalInvocationID.x); if (success) { output.Store((4u * outputIndex), asuint(uint(1))); } else { output.Store((4u * outputIndex), asuint(uint(0))); } return; }