blob: f916afcff8b86fd595cf666c4446a28a37ab5c67 [file] [log] [blame]
cbuffer _UniformBuffer : register(b0, space0)
{
float4 _7_colorGreen : packoffset(c0);
float4 _7_colorRed : packoffset(c1);
float4 _7_testInputs : packoffset(c2);
};
static float4 sk_FragColor;
struct SPIRV_Cross_Output
{
float4 sk_FragColor : SV_Target0;
};
uint spvPackSnorm2x16(float2 value)
{
int2 Packed = int2(round(clamp(value, -1.0, 1.0) * 32767.0)) & 0xffff;
return uint(Packed.x | (Packed.y << 16));
}
float2 spvUnpackSnorm2x16(uint value)
{
int SignedValue = int(value);
int2 Packed = int2(SignedValue << 16, SignedValue) >> 16;
return clamp(float2(Packed) / 32767.0, -1.0, 1.0);
}
float4 main(float2 _21)
{
uint _26 = spvPackSnorm2x16(_7_testInputs.xy);
uint xy = _26;
uint _34 = spvPackSnorm2x16(_7_testInputs.zw);
uint zw = _34;
float2 _42 = abs(spvUnpackSnorm2x16(_26) - float2(-1.0f, 0.0f));
bool _60 = false;
if (all(bool2(_42.x < 0.015625f.xx.x, _42.y < 0.015625f.xx.y)))
{
float2 _54 = abs(spvUnpackSnorm2x16(_34) - float2(0.75f, 1.0f));
_60 = all(bool2(_54.x < 0.015625f.xx.x, _54.y < 0.015625f.xx.y));
}
else
{
_60 = false;
}
float4 _61 = 0.0f.xxxx;
if (_60)
{
_61 = _7_colorGreen;
}
else
{
_61 = _7_colorRed;
}
return _61;
}
void frag_main()
{
float2 _17 = 0.0f.xx;
sk_FragColor = main(_17);
}
SPIRV_Cross_Output main()
{
frag_main();
SPIRV_Cross_Output stage_output;
stage_output.sk_FragColor = sk_FragColor;
return stage_output;
}