gimm270-audioenvironment/Assets/StarterAssets/Environment/Shaders/Built-in_RP/Triplanar.shader

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2022-10-30 23:03:52 -06:00
Shader "Starter Assets/Triplanar" {
Properties{
_MainTex("Albedo (RGB)", 2D) = "white" {}
[NoScaleOffset] _BumpMap("Normal Map", 2D) = "bump" {}
_Glossiness("Smoothness", Range(0, 1)) = 0.5
[Gamma] _Metallic("Metallic", Range(0, 1)) = 0
[NoScaleOffset] _OcclusionMap("Occlusion", 2D) = "white" {}
_OcclusionStrength("Strength", Range(0.0, 1.0)) = 1.0
}
SubShader{
Tags { "RenderType" = "Opaque" }
LOD 200
CGPROGRAM
// Physically based Standard lighting model, and enable shadows on all light types
#pragma surface surf Standard fullforwardshadows
// Use shader model 3.0 target, to get nicer looking lighting
#pragma target 3.0
#include "UnityStandardUtils.cginc"
// flip UVs horizontally to correct for back side projection
#define TRIPLANAR_CORRECT_PROJECTED_U
// offset UVs to prevent obvious mirroring
// #define TRIPLANAR_UV_OFFSET
// Reoriented Normal Mapping
// Altered to take normals (-1 to 1 ranges) rather than unsigned normal maps (0 to 1 ranges)
half3 blend_rnm(half3 n1, half3 n2)
{
n1.z += 1;
n2.xy = -n2.xy;
return n1 * dot(n1, n2) / n1.z - n2;
}
sampler2D _MainTex;
float4 _MainTex_ST;
sampler2D _BumpMap;
sampler2D _OcclusionMap;
half _Glossiness;
half _Metallic;
half _OcclusionStrength;
struct Input {
float3 worldPos;
float3 worldNormal;
INTERNAL_DATA
};
float3 WorldToTangentNormalVector(Input IN, float3 normal) {
float3 t2w0 = WorldNormalVector(IN, float3(1,0,0));
float3 t2w1 = WorldNormalVector(IN, float3(0,1,0));
float3 t2w2 = WorldNormalVector(IN, float3(0,0,1));
float3x3 t2w = float3x3(t2w0, t2w1, t2w2);
return normalize(mul(t2w, normal));
}
void surf(Input IN, inout SurfaceOutputStandard o) {
// work around bug where IN.worldNormal is always (0,0,0)!
IN.worldNormal = WorldNormalVector(IN, float3(0,0,1));
// calculate triplanar blend
half3 triblend = saturate(pow(IN.worldNormal, 4));
triblend /= max(dot(triblend, half3(1,1,1)), 0.0001);
// calculate triplanar uvs
// applying texture scale and offset values ala TRANSFORM_TEX macro
float2 uvX = IN.worldPos.zy * _MainTex_ST.xy + _MainTex_ST.zy;
float2 uvY = IN.worldPos.xz * _MainTex_ST.xy + _MainTex_ST.zy;
float2 uvZ = IN.worldPos.xy * _MainTex_ST.xy + _MainTex_ST.zy;
// offset UVs to prevent obvious mirroring
#if defined(TRIPLANAR_UV_OFFSET)
uvY += 0.33;
uvZ += 0.67;
#endif
// minor optimization of sign(). prevents return value of 0
half3 axisSign = IN.worldNormal < 0 ? -1 : 1;
// flip UVs horizontally to correct for back side projection
#if defined(TRIPLANAR_CORRECT_PROJECTED_U)
uvX.x *= axisSign.x;
uvY.x *= axisSign.y;
uvZ.x *= -axisSign.z;
#endif
// albedo textures
fixed4 colX = tex2D(_MainTex, uvX);
fixed4 colY = tex2D(_MainTex, uvY);
fixed4 colZ = tex2D(_MainTex, uvZ);
fixed4 col = colX * triblend.x + colY * triblend.y + colZ * triblend.z;
// occlusion textures
half occX = tex2D(_OcclusionMap, uvX).g;
half occY = tex2D(_OcclusionMap, uvY).g;
half occZ = tex2D(_OcclusionMap, uvZ).g;
half occ = LerpOneTo(occX * triblend.x + occY * triblend.y + occZ * triblend.z, _OcclusionStrength);
// tangent space normal maps
half3 tnormalX = UnpackNormal(tex2D(_BumpMap, uvX));
half3 tnormalY = UnpackNormal(tex2D(_BumpMap, uvY));
half3 tnormalZ = UnpackNormal(tex2D(_BumpMap, uvZ));
// flip normal maps' x axis to account for flipped UVs
#if defined(TRIPLANAR_CORRECT_PROJECTED_U)
tnormalX.x *= axisSign.x;
tnormalY.x *= axisSign.y;
tnormalZ.x *= -axisSign.z;
#endif
half3 absVertNormal = abs(IN.worldNormal);
// swizzle world normals to match tangent space and apply reoriented normal mapping blend
tnormalX = blend_rnm(half3(IN.worldNormal.zy, absVertNormal.x), tnormalX);
tnormalY = blend_rnm(half3(IN.worldNormal.xz, absVertNormal.y), tnormalY);
tnormalZ = blend_rnm(half3(IN.worldNormal.xy, absVertNormal.z), tnormalZ);
// apply world space sign to tangent space Z
tnormalX.z *= axisSign.x;
tnormalY.z *= axisSign.y;
tnormalZ.z *= axisSign.z;
// sizzle tangent normals to match world normal and blend together
half3 worldNormal = normalize(
tnormalX.zyx * triblend.x +
tnormalY.xzy * triblend.y +
tnormalZ.xyz * triblend.z
);
// set surface ouput properties
o.Albedo = col.rgb;
o.Metallic = _Metallic;
o.Smoothness = _Glossiness;
o.Occlusion = occ;
// convert world space normals into tangent normals
o.Normal = WorldToTangentNormalVector(IN, worldNormal);
}
ENDCG
}
FallBack "Diffuse"
}