DaNike
/
BeatSaber-IPA-Reloaded
mirror of https://github.com/bsmg/BeatSaber-IPA-Reloaded.git


								float2 UnpackUV(float uv)

								{

									float2 output;

									output.x = floor(uv / 4096);

									output.y = uv - 4096 * output.x;


									return output * 0.001953125;

								}


								fixed4 GetColor(half d, fixed4 faceColor, fixed4 outlineColor, half outline, half softness)

								{

									half faceAlpha = 1-saturate((d - outline * 0.5 + softness * 0.5) / (1.0 + softness));

									half outlineAlpha = saturate((d + outline * 0.5)) * sqrt(min(1.0, outline));


									faceColor.rgb *= faceColor.a;

									outlineColor.rgb *= outlineColor.a;


									faceColor = lerp(faceColor, outlineColor, outlineAlpha);


									faceColor *= faceAlpha;


									return faceColor;

								}


								float3 GetSurfaceNormal(float4 h, float bias)

								{

									bool raisedBevel = step(1, fmod(_ShaderFlags, 2));


									h += bias+_BevelOffset;


									float bevelWidth = max(.01, _OutlineWidth+_BevelWidth);


								  // Track outline

									h -= .5;

									h /= bevelWidth;

									h = saturate(h+.5);


									if(raisedBevel) h = 1 - abs(h*2.0 - 1.0);

									h = lerp(h, sin(h*3.141592/2.0), _BevelRoundness);

									h = min(h, 1.0-_BevelClamp);

									h *= _Bevel * bevelWidth * _GradientScale * -2.0;


									float3 va = normalize(float3(1.0, 0.0, h.y - h.x));

									float3 vb = normalize(float3(0.0, -1.0, h.w - h.z));


									return cross(va, vb);

								}


								float3 GetSurfaceNormal(float2 uv, float bias, float3 delta)

								{

									// Read "height field"

								  float4 h = {tex2D(_MainTex, uv - delta.xz).a,

												tex2D(_MainTex, uv + delta.xz).a,

												tex2D(_MainTex, uv - delta.zy).a,

												tex2D(_MainTex, uv + delta.zy).a};


									return GetSurfaceNormal(h, bias);

								}


								float3 GetSpecular(float3 n, float3 l)

								{

									float spec = pow(max(0.0, dot(n, l)), _Reflectivity);

									return _SpecularColor.rgb * spec * _SpecularPower;

								}


								float4 GetGlowColor(float d, float scale)

								{

									float glow = d - (_GlowOffset*_ScaleRatioB) * 0.5 * scale;

									float t = lerp(_GlowInner, (_GlowOuter * _ScaleRatioB), step(0.0, glow)) * 0.5 * scale;

									glow = saturate(abs(glow/(1.0 + t)));

									glow = 1.0-pow(glow, _GlowPower);

									glow *= sqrt(min(1.0, t)); // Fade off glow thinner than 1 screen pixel

									return float4(_GlowColor.rgb, saturate(_GlowColor.a * glow * 2));

								}


								float4 BlendARGB(float4 overlying, float4 underlying)

								{

									overlying.rgb *= overlying.a;

									underlying.rgb *= underlying.a;

									float3 blended = overlying.rgb + ((1-overlying.a)*underlying.rgb);

									float alpha = underlying.a + (1-underlying.a)*overlying.a;

									return float4(blended, alpha);

								}