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Custom Lighting models in Surface Shaders
Surface Shaders with DX11 Tessellation

Surface Shader Lighting Examples

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Here are some examples of custom lighting models in Surface Shaders. General Surface Shader examples are in this page.

Because Deferred Lighting does not play well with some custom per-material lighting models, in most examples below we make the shaders compile to Forward Rendering only.

Diffuse

We’ll start with a shader that uses built-in Lambert lighting model:-

  Shader "Example/Diffuse Texture" {
    Properties {
      _MainTex ("Texture", 2D) = "white" {}
    }
    SubShader {
      Tags { "RenderType" = "Opaque" }
      CGPROGRAM
      #pragma surface surf Lambert
      
      struct Input {
          float2 uv_MainTex;
      };
      
      sampler2D _MainTex;
      
      void surf (Input IN, inout SurfaceOutput o) {
          o.Albedo = tex2D (_MainTex, IN.uv_MainTex).rgb;
      }
      ENDCG
    }
    Fallback "Diffuse"
  }

Here’s how it looks like with a texture and without an actual texture (one directional light is in the scene):

Now, let’s do exactly the same, but write out our own lighting model instead of using built-in Lambert one. Surface Shader Lighting Models are just some functions that we need to write. Here’s a simple Lambert one. Note that only the CGPROGRAM section changes; the surrounding shader code is exactly the same:-

    Shader "Example/Diffuse Texture" {
        Properties {
            _MainTex ("Texture", 2D) = "white" {}
        }
        SubShader {
        Tags { "RenderType" = "Opaque" }
        CGPROGRAM
          #pragma surface surf SimpleLambert
  
          half4 LightingSimpleLambert (SurfaceOutput s, half3 lightDir, half atten) {
              half NdotL = dot (s.Normal, lightDir);
              half4 c;
              c.rgb = s.Albedo * _LightColor0.rgb * (NdotL * atten * 2);
              c.a = s.Alpha;
              return c;
          }
  
        struct Input {
            float2 uv_MainTex;
        };
        
        sampler2D _MainTex;
        
        void surf (Input IN, inout SurfaceOutput o) {
            o.Albedo = tex2D (_MainTex, IN.uv_MainTex).rgb;
        }
        ENDCG
        }
        Fallback "Diffuse"
    }

So our simple Diffuse lighting model is LightingSimpleLambert function. It computes lighting by doing a dot product between surface normal and light direction, and then applies light attenuation and color.

Diffuse Wrap

Here’s Wrapped Diffuse - a modification of Diffuse lighting, where illumination “wraps around” the edges of objects. It’s useful for faking subsurface scattering effect. Since it is only the CGPROGRAM section that changes, once again, the surrounding shader code is omitted:-

    ...ShaderLab code...
    CGPROGRAM
    #pragma surface surf WrapLambert

    half4 LightingWrapLambert (SurfaceOutput s, half3 lightDir, half atten) {
        half NdotL = dot (s.Normal, lightDir);
        half diff = NdotL * 0.5 + 0.5;
        half4 c;
        c.rgb = s.Albedo * _LightColor0.rgb * (diff * atten * 2);
        c.a = s.Alpha;
        return c;
    }

    struct Input {
        float2 uv_MainTex;
    };
    
    sampler2D _MainTex;
        void surf (Input IN, inout SurfaceOutput o) {
        o.Albedo = tex2D (_MainTex, IN.uv_MainTex).rgb;
    }
    ENDCG
    ...ShaderLab code...

Toon Ramp

Here’s a “Ramp” lighting model that uses a texture ramp to define how surface responds to angle between light and the normal. This can be used for variety of effects, including Toon lighting.

    ...ShaderLab code...
    CGPROGRAM
    #pragma surface surf Ramp

    sampler2D _Ramp;

    half4 LightingRamp (SurfaceOutput s, half3 lightDir, half atten) {
        half NdotL = dot (s.Normal, lightDir);
        half diff = NdotL * 0.5 + 0.5;
        half3 ramp = tex2D (_Ramp, float2(diff)).rgb;
        half4 c;
        c.rgb = s.Albedo * _LightColor0.rgb * ramp * (atten * 2);
        c.a = s.Alpha;
        return c;
    }

    struct Input {
        float2 uv_MainTex;
    };
    
    sampler2D _MainTex;
    
    void surf (Input IN, inout SurfaceOutput o) {
        o.Albedo = tex2D (_MainTex, IN.uv_MainTex).rgb;
    }
    ENDCG
    ...ShaderLab code...

Simple Specular

Here’s a simple specular lighting model. It’s quite simple to what built-in BlinnPhong actually does; we just put it here to illustrate how it’s done.

    ...ShaderLab code...
    CGPROGRAM
    #pragma surface surf SimpleSpecular

    half4 LightingSimpleSpecular (SurfaceOutput s, half3 lightDir, half3 viewDir, half atten) {
        half3 h = normalize (lightDir + viewDir);

        half diff = max (0, dot (s.Normal, lightDir));

        float nh = max (0, dot (s.Normal, h));
        float spec = pow (nh, 48.0);

        half4 c;
        c.rgb = (s.Albedo * _LightColor0.rgb * diff + _LightColor0.rgb * spec) * (atten * 2);
        c.a = s.Alpha;
        return c;
    }

    struct Input {
        float2 uv_MainTex;
    };
    
    sampler2D _MainTex;
    
    void surf (Input IN, inout SurfaceOutput o) {
        o.Albedo = tex2D (_MainTex, IN.uv_MainTex).rgb;
    }
    ENDCG
    ...ShaderLab code...

Decoding Lightmaps

We’ll start with a shader that mimics built-in lightmap decoding and uses Unity built-in function DecodeLightmap to decode information from data stored in lightmap textures and built-in UNITY_DIRBASIS macro defining basis vectors for Directional lightmaps:

    Shader "Example/Standard Lightmap Decoding" {
        Properties {
            _MainTex ("Texture", 2D) = "white" {}
        }
        SubShader {
            Tags { "RenderType" = "Opaque" }
            CGPROGRAM

            #pragma surface surf Standard

            half4 LightingStandard (SurfaceOutput s, half3 lightDir, half atten) {
                half NdotL = dot (s.Normal, lightDir);
                half4 c; c.rgb = s.Albedo * _LightColor0.rgb * (NdotL * atten * 2);
                c.a = s.Alpha;
                return c;
            }

            inline fixed4 LightingStandard_SingleLightmap (SurfaceOutput s, fixed4 color) {
                half3 lm = DecodeLightmap (color);
                return fixed4(lm, 0);
            }

            inline fixed4 LightingStandard_DualLightmap (SurfaceOutput s, fixed4 totalColor, fixed4 indirectOnlyColor, half indirectFade) {
                half3 lm = lerp (DecodeLightmap (indirectOnlyColor), DecodeLightmap (totalColor), indirectFade);
                return fixed4(lm, 0);
            }

            inline fixed4 LightingStandard_StandardLightmap (SurfaceOutput s, fixed4 color, fixed4 scale, bool surfFuncWritesNormal) {
                UNITY_DIRBASIS

                half3 lm = DecodeLightmap (color);
                half3 scalePerBasisVector = DecodeLightmap (scale);

                if (surfFuncWritesNormal)
                {
                    half3 normalInRnmBasis = saturate (mul (unity_DirBasis, s.Normal));
                    lm *= dot (normalInRnmBasis, scalePerBasisVector);
                }

                return fixed4(lm, 0);
            }

            struct Input {
                float2 uv_MainTex;
            };
            
            sampler2D _MainTex;
            
            void surf (Input IN, inout SurfaceOutput o) {
                o.Albedo = tex2D (_MainTex, IN.uv_MainTex).rgb;
            }
            ENDCG
            }
        Fallback "Diffuse"
    }

Now, let’s add some tone mapping for light stored in lightmaps:

    Shader "Example/Tonemapped Lightmap Decoding" {
        Properties {
            _MainTex ("Texture", 2D) = "white" {}
            _Gain ("Lightmap tone-mapping Gain", Float) = 1
            _Knee ("Lightmap tone-mapping Knee", Float) = 0.5
            _Compress ("Lightmap tone-mapping Compress", Float) = 0.33
        }
        SubShader {
            Tags { "RenderType" = "Opaque" }
            CGPROGRAM

            #pragma surface surf Tonemapped

            half4 LightingTonemapped (SurfaceOutput s, half3 lightDir, half atten) {
                half NdotL = dot (s.Normal, lightDir);
                half4 c; c.rgb = s.Albedo * _LightColor0.rgb * (NdotL * atten * 2); c.a = s.Alpha;
                return c;
            }

            half _Gain;
            half _Knee;
            half _Compress;
            
            inline half3 TonemapLight (half3 i) {
                i *= _Gain;
                return (i > _Knee)? (((i - _Knee)*_Compress)+_Knee): i;
            }

            inline fixed4 LightingTonemapped_SingleLightmap (SurfaceOutput s, fixed4 color) {
                half3 lm = TonemapLight(DecodeLightmap (color));
                return fixed4(lm, 0);
            }

            inline fixed4 LightingTonemapped_DualLightmap (SurfaceOutput s, fixed4 totalColor, fixed4 indirectOnlyColor, half indirectFade) {
                half3 lm = TonemapLight(lerp (DecodeLightmap (indirectOnlyColor), DecodeLightmap (totalColor), indirectFade));
                return fixed4(lm, 0);
            }

            inline fixed4 LightingTonemapped_StandardLightmap (SurfaceOutput s, fixed4 color, fixed4 scale, bool surfFuncWritesNormal) {
                UNITY_DIRBASIS

                half3 lm = TonemapLight(DecodeLightmap (color));
                half3 scalePerBasisVector = DecodeLightmap (scale);

                if (surfFuncWritesNormal)
                {
                    half3 normalInRnmBasis = saturate (mul (unity_DirBasis, s.Normal));
                    lm *= dot (normalInRnmBasis, scalePerBasisVector);
                }

                return fixed4(lm, 0);
            }

            struct Input {
                float2 uv_MainTex;
            };
            
            sampler2D _MainTex;
            
            void surf (Input IN, inout SurfaceOutput o) {
                o.Albedo = tex2D (_MainTex, IN.uv_MainTex).rgb;
            }
            ENDCG
        }
        Fallback "Diffuse"
    }
Custom Lighting models in Surface Shaders
Surface Shaders with DX11 Tessellation