CodeWalker/CodeWalker.Shaders/DirLightPS_MS.hlsl
2023-10-27 21:31:09 +02:00

69 lines
1.7 KiB
HLSL

#include "LightPS.hlsli"
Texture2DMS<float> DepthTex : register(t0);
Texture2DMS<float4> DiffuseTex : register(t2);
Texture2DMS<float4> NormalTex : register(t3);
Texture2DMS<float4> SpecularTex : register(t4);
Texture2DMS<float4> IrradianceTex : register(t5);
struct VS_Output
{
float4 Pos : SV_POSITION;
float4 Screen : TEXCOORD0;
};
PS_OUTPUT main(VS_Output input)
{
//switch (RenderMode)
//{
// case 5: c += diffuse.rgb; break;
// case 6: c += normal.rgb; break;
// case 7: c += specular.rgb; break;
//}
uint2 ssloc = uint2(input.Pos.xy); //pixel location
float2 spos = float2(input.Screen.xy / input.Screen.w);
float3 c = 0;
float d = 0;
float a = 0;
int sc = min(SampleCount, 8);
[unroll]
for (int i = 0; i < sc; i++)
{
float depth = DepthTex.Load(ssloc, i);
if (depth == 0)
continue; //no existing subpixel rendered here
float4 diffuse = DiffuseTex.Load(ssloc, i);
float4 normal = NormalTex.Load(ssloc, i);
float4 specular = SpecularTex.Load(ssloc, i);
float4 irradiance = IrradianceTex.Load(ssloc, i);
float4 cpos = mul(float4(spos, depth, 1), ViewProjInv);
float3 camRel = cpos.xyz * (1 / cpos.w);
float3 norm = normal.xyz * 2 - 1;
float3 colour = DeferredDirectionalLight(camRel, norm, diffuse, specular, irradiance);
c += colour;
d += depth;
a += 1;
}
c *= SampleMult;
d *= SampleMult;
a *= SampleMult;
if (d <= 0)
discard;
PS_OUTPUT output;
output.Colour = float4(c, a);
output.Depth = d;
return output;
}