Shader "Hidden/CubeBlurOdd" {
	Properties {
		_MainTex ("Main", CUBE) = "" {}
		_Texel ("Texel", Float) = 0.0078125
		_Level ("Level", Float) = 0.
	}

	CGINCLUDE
	#pragma vertex vert
	#pragma fragment frag
	#include "UnityCG.cginc"
	#include "HLSLSupport.cginc"

	struct v2f {
		half4 pos : SV_POSITION;
		half4 uvw : TEXCOORD0;
	};

	v2f vert(appdata_base v)
	{
		v2f o;
		o.pos = UnityObjectToClipPos(v.vertex);
		o.uvw = v.texcoord;
		return o;
	}

	UNITY_DECLARE_TEXCUBE(_MainTex);
	half _Texel;
	half _Level;

	#define zero	half3(0., 0., 0.)
	#define one		half3(1., 1., 1.)
	#define two		half3(2., 2., 2.)

	half3 fold(half3 st, half3 face)
	{
		half3 c = min(max(st, -one), one);
		half3 f = abs(st - c);
		half m = max(max(f.x, f.y), f.z);
		return c - m*face;
	}

	half3 gauss(half d)
	{
		// compute coefficients for positions 0., 1.*d/.5 and 2.*d/.5
		// this assumes a sigma of .5 for a density of 1.
		half3 v = half3(0., 1.*d, 2.*d);
		return exp(-v*v);
	}

	half4 frag(v2f i) : SV_Target
	{
	#if (SHADER_TARGET < 30)
		return UNITY_SAMPLE_TEXCUBE_LOD(_MainTex, i.uvw.xyz, _Level);
	#else

		half3 st;

		half3 face = abs(i.uvw.xyz)==one ? i.uvw.xyz : zero;
		half3 u = face.zxy*_Texel;
		half3 v = face.yzx*_Texel;
		half4 s = float4(i.uvw.xyz*(one - abs(face)), 0.);

		// modulate coefficients based on position (texel density on projected sphere)
		half w = 1. / sqrt(1. + dot(s.xyz, s.xyz));
		half3 C = gauss(w*w*w);

		half4 s1, s2, s3;
		half3 c;

		s = 0.;
		w = 0.;

		// first row

		c = C.xyz*C.zzz;

		st = i.uvw.xyz - 2.*u - 2.*v;
		st = fold(st, face);
		s3 = UNITY_SAMPLE_TEXCUBE_LOD(_MainTex, st, _Level);

		st = i.uvw.xyz - 1.*u - 2.*v;
		st = fold(st, face);
		s2 = UNITY_SAMPLE_TEXCUBE_LOD(_MainTex, st, _Level);

		st = i.uvw.xyz - 2.*v;
		st = fold(st, face);
		s1 = UNITY_SAMPLE_TEXCUBE_LOD(_MainTex, st, _Level);

		st = i.uvw.xyz + 1.*u - 2.*v;
		st = fold(st, face);
		s2 += UNITY_SAMPLE_TEXCUBE_LOD(_MainTex, st, _Level);

		st = i.uvw.xyz + 2.*u - 2.*v;
		st = fold(st, face);
		s3 += UNITY_SAMPLE_TEXCUBE_LOD(_MainTex, st, _Level);

		w += c.x + dot(c.yz, two.yz);
		s1 = c.x*s1 + c.y*s2;
		s += c.z*s3;
		s += s1;

		// second row

		c = C.xyz*C.yyy;

		st = i.uvw.xyz + 2.*u - 1.*v;
		st = fold(st, face);
		s3 = UNITY_SAMPLE_TEXCUBE_LOD(_MainTex, st, _Level);

		st = i.uvw.xyz + 1.*u - 1.*v;
		st = fold(st, face);
		s2 = UNITY_SAMPLE_TEXCUBE_LOD(_MainTex, st, _Level);

		st = i.uvw.xyz - 1.*v;
		st = fold(st, face);
		s1 = UNITY_SAMPLE_TEXCUBE_LOD(_MainTex, st, _Level);

		st = i.uvw.xyz - 1.*u - 1.*v;
		st = fold(st, face);
		s2 += UNITY_SAMPLE_TEXCUBE_LOD(_MainTex, st, _Level);

		st = i.uvw.xyz - 2.*u - 1.*v;
		st = fold(st, face);
		s3 += UNITY_SAMPLE_TEXCUBE_LOD(_MainTex, st, _Level);

		w += c.x + dot(c.yz, two.yz);
		s1 = c.x*s1 + c.y*s2;
		s += c.z*s3;
		s += s1;

		// third row

		c = C.xyz*C.xxx;

		st = i.uvw.xyz - 2.*u;
		st = fold(st, face);
		s3 = UNITY_SAMPLE_TEXCUBE_LOD(_MainTex, st, _Level);

		st = i.uvw.xyz - 1.*u;
		st = fold(st, face);
		s2 = UNITY_SAMPLE_TEXCUBE_LOD(_MainTex, st, _Level);

		st = i.uvw.xyz;
		s1 = UNITY_SAMPLE_TEXCUBE_LOD(_MainTex, st, _Level);

		st = i.uvw.xyz + 1.*u;
		s2 += UNITY_SAMPLE_TEXCUBE_LOD(_MainTex, st, _Level);

		st = i.uvw.xyz + 2.*u;
		st = fold(st, face);
		s3 += UNITY_SAMPLE_TEXCUBE_LOD(_MainTex, st, _Level);

		w += c.x + dot(c.yz, two.yz);
		s1 = c.x*s1 + c.y*s2;
		s += c.z*s3;
		s += s1;

		// fourth row

		c = C.xyz*C.yyy;

		st = i.uvw.xyz + 2.*u + 1.*v;
		st = fold(st, face);
		s3 = UNITY_SAMPLE_TEXCUBE_LOD(_MainTex, st, _Level);

		st = i.uvw.xyz + 1.*u + 1.*v;
		st = fold(st, face);
		s2 = UNITY_SAMPLE_TEXCUBE_LOD(_MainTex, st, _Level);

		st = i.uvw.xyz + 1.*v;
		st = fold(st, face);
		s1 = UNITY_SAMPLE_TEXCUBE_LOD(_MainTex, st, _Level);

		st = i.uvw.xyz - 1.*u + 1.*v;
		st = fold(st, face);
		s2 += UNITY_SAMPLE_TEXCUBE_LOD(_MainTex, st, _Level);

		st = i.uvw.xyz - 2.*u + 1.*v;
		st = fold(st, face);
		s3 += UNITY_SAMPLE_TEXCUBE_LOD(_MainTex, st, _Level);

		w += c.x + dot(c.yz, two.yz);
		s1 = c.x*s1 + c.y*s2;
		s += c.z*s3;
		s += s1;

		// fifth row

		c = C.xyz*C.zzz;

		st = i.uvw.xyz - 2.*u + 2.*v;
		st = fold(st, face);
		s3 = UNITY_SAMPLE_TEXCUBE_LOD(_MainTex, st, _Level);

		st = i.uvw.xyz - 1.*u + 2.*v;
		st = fold(st, face);
		s2 = UNITY_SAMPLE_TEXCUBE_LOD(_MainTex, st, _Level);

		st = i.uvw.xyz + 2.*v;
		st = fold(st, face);
		s1 = UNITY_SAMPLE_TEXCUBE_LOD(_MainTex, st, _Level);

		st = i.uvw.xyz + 1.*u + 2.*v;
		st = fold(st, face);
		s2 += UNITY_SAMPLE_TEXCUBE_LOD(_MainTex, st, _Level);

		st = i.uvw.xyz + 2.*u + 2.*v;
		st = fold(st, face);
		s3 += UNITY_SAMPLE_TEXCUBE_LOD(_MainTex, st, _Level);

		w += c.x + dot(c.yz, two.yz);
		s1 = c.x*s1 + c.y*s2;
		s += c.z*s3;
		s += s1;

		//return half4(C.zzz, 1.);
		return s/w;
	#endif
	}
	ENDCG
	SubShader {
		Tags { "RenderType"="Opaque" }
		LOD 200
		Pass {
			ZTest Always
			Blend Off
			AlphaTest off
			Cull Off
			ZWrite Off
			Fog { Mode off }
			CGPROGRAM
			#pragma target 3.0
			ENDCG
		}
	}

	SubShader {
		Tags { "RenderType"="Opaque" }
		LOD 200
		Pass {
			ZTest Always
			Blend Off
			AlphaTest off
			Cull Off
			ZWrite Off
			Fog { Mode off }
			CGPROGRAM
			#pragma target 2.0
			ENDCG
		}
	}
}