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115 lines
3.8 KiB
115 lines
3.8 KiB
// Upgrade NOTE: replaced '_Object2World' with 'unity_ObjectToWorld' |
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// Upgrade NOTE: replaced 'mul(UNITY_MATRIX_MVP,*)' with 'UnityObjectToClipPos(*)' |
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Shader "Unity Shaders Book/Chapter 10/Glass Refraction" { |
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Properties { |
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_MainTex ("Main Tex", 2D) = "white" {} |
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_BumpMap ("Normal Map", 2D) = "bump" {} |
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_Cubemap ("Environment Cubemap", Cube) = "_Skybox" {} |
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_Distortion ("Distortion", Range(0, 100)) = 10 |
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_RefractAmount ("Refract Amount", Range(0.0, 1.0)) = 1.0 |
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_FresnelScale ("Fresnel Scale", Range(0, 1)) = 1 |
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_FresnelBias ("Bias", Range(0, 1)) = 0 |
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_FresnelPower ("Power", Range(0, 5)) = 3 |
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} |
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SubShader { |
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// We must be transparent, so other objects are drawn before this one. |
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Tags { "Queue"="Transparent" "RenderType"="Opaque" } |
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// This pass grabs the screen behind the object into a texture. |
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// We can access the result in the next pass as _RefractionTex |
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GrabPass { "_RefractionTex" } |
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Pass { |
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CGPROGRAM |
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#pragma vertex vert |
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#pragma fragment frag |
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#include "UnityCG.cginc" |
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sampler2D _MainTex; |
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float4 _MainTex_ST; |
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sampler2D _BumpMap; |
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float4 _BumpMap_ST; |
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samplerCUBE _Cubemap; |
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float _Distortion; |
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fixed _RefractAmount; |
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sampler2D _RefractionTex; |
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float4 _RefractionTex_TexelSize; |
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fixed _FresnelScale; |
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float _FresnelBias; |
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int _FresnelPower; |
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struct a2v { |
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float4 vertex : POSITION; |
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float3 normal : NORMAL; |
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float4 tangent : TANGENT; |
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float2 texcoord: TEXCOORD0; |
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}; |
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struct v2f { |
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float4 pos : SV_POSITION; |
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float4 scrPos : TEXCOORD0; |
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float4 uv : TEXCOORD1; |
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float4 TtoW0 : TEXCOORD2; |
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float4 TtoW1 : TEXCOORD3; |
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float4 TtoW2 : TEXCOORD4; |
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fixed3 worldNormal : TEXCOORD5; |
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}; |
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v2f vert (a2v v) { |
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v2f o; |
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o.pos = UnityObjectToClipPos(v.vertex); |
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//o.scrPos = ComputeGrabScreenPos(o.pos); |
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o.scrPos = ComputeGrabScreenPos(o.pos); |
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o.uv.xy = TRANSFORM_TEX(v.texcoord, _MainTex); |
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o.uv.zw = TRANSFORM_TEX(v.texcoord, _BumpMap); |
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float3 worldPos = mul(unity_ObjectToWorld, v.vertex).xyz; |
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fixed3 worldNormal = UnityObjectToWorldNormal(v.normal); |
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o.worldNormal = worldNormal; |
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fixed3 worldTangent = UnityObjectToWorldDir(v.tangent.xyz); |
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fixed3 worldBinormal = cross(worldNormal, worldTangent) * v.tangent.w; |
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o.TtoW0 = float4(worldTangent.x, worldBinormal.x, worldNormal.x, worldPos.x); |
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o.TtoW1 = float4(worldTangent.y, worldBinormal.y, worldNormal.y, worldPos.y); |
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o.TtoW2 = float4(worldTangent.z, worldBinormal.z, worldNormal.z, worldPos.z); |
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return o; |
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} |
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fixed4 frag (v2f i) : SV_Target { |
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float3 worldPos = float3(i.TtoW0.w, i.TtoW1.w, i.TtoW2.w); |
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fixed3 worldViewDir = normalize(UnityWorldSpaceViewDir(worldPos)); |
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fixed3 worldNormal = normalize(i.worldNormal); |
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fixed fresnel = max(0,min(1,_FresnelBias+_FresnelScale * pow(1 - dot(worldViewDir, worldNormal),_FresnelPower))); |
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// Get the normal in tangent space |
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fixed3 bump = UnpackNormal(tex2D(_BumpMap, i.uv.zw)); |
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// Compute the offset in tangent space |
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float2 offset = bump.xy * _Distortion * _RefractionTex_TexelSize.xy; |
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i.scrPos.xy = offset * i.scrPos.z + i.scrPos.xy; |
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fixed3 refrCol = tex2D(_RefractionTex, i.scrPos.xy/i.scrPos.w).rgb; |
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// Convert the normal to world space |
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bump = normalize(half3(dot(i.TtoW0.xyz, bump), dot(i.TtoW1.xyz, bump), dot(i.TtoW2.xyz, bump))); |
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fixed3 reflDir = reflect(-worldViewDir, bump); |
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fixed4 texColor = tex2D(_MainTex, i.uv.xy); |
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fixed3 reflCol = texCUBE(_Cubemap, reflDir).rgb * texColor.rgb; |
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//fixed3 finalColor = reflCol * (1 - _RefractAmount) + refrCol * _RefractAmount; |
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fixed3 finalColor = lerp(refrCol, reflCol, saturate(fresnel)); |
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return fixed4(finalColor, 1); |
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} |
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ENDCG |
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} |
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} |
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FallBack "Diffuse" |
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}
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