146 lines
6.1 KiB
Plaintext
146 lines
6.1 KiB
Plaintext
Shader "Hidden/Roystan/Outline Post Process"
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{
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SubShader
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{
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Cull Off ZWrite Off ZTest Always
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Pass
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{
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// Custom post processing effects are written in HLSL blocks,
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// with lots of macros to aid with platform differences.
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// https://github.com/Unity-Technologies/PostProcessing/wiki/Writing-Custom-Effects#shader
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HLSLPROGRAM
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#pragma vertex Vert
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#pragma fragment Frag
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#include "Packages/com.unity.postprocessing/PostProcessing/Shaders/StdLib.hlsl"
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TEXTURE2D_SAMPLER2D(_MainTex, sampler_MainTex);
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// _CameraNormalsTexture contains the view space normals transformed
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// to be in the 0...1 range.
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TEXTURE2D_SAMPLER2D(_CameraNormalsTexture, sampler_CameraNormalsTexture);
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TEXTURE2D_SAMPLER2D(_CameraDepthTexture, sampler_CameraDepthTexture);
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// Data pertaining to _MainTex's dimensions.
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// https://docs.unity3d.com/Manual/SL-PropertiesInPrograms.html
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float4 _MainTex_TexelSize;
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float _Scale;
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float4 _Color;
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float _DepthThreshold;
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float _DepthNormalThreshold;
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float _DepthNormalThresholdScale;
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float _NormalThreshold;
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// This matrix is populated in PostProcessOutline.cs.
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float4x4 _ClipToView;
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// Combines the top and bottom colors using normal blending.
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// https://en.wikipedia.org/wiki/Blend_modes#Normal_blend_mode
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// This performs the same operation as Blend SrcAlpha OneMinusSrcAlpha.
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float4 alphaBlend(float4 top, float4 bottom)
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{
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float3 color = (top.rgb * top.a) + (bottom.rgb * (1 - top.a));
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float alpha = top.a + bottom.a * (1 - top.a);
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return float4(color, alpha);
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}
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// Both the Varyings struct and the Vert shader are copied
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// from StdLib.hlsl included above, with some modifications.
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struct Varyings
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{
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float4 vertex : SV_POSITION;
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float2 texcoord : TEXCOORD0;
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float2 texcoordStereo : TEXCOORD1;
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float3 viewSpaceDir : TEXCOORD2;
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#if STEREO_INSTANCING_ENABLED
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uint stereoTargetEyeIndex : SV_RenderTargetArrayIndex;
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#endif
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};
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Varyings Vert(AttributesDefault v)
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{
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Varyings o;
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o.vertex = float4(v.vertex.xy, 0.0, 1.0);
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o.texcoord = TransformTriangleVertexToUV(v.vertex.xy);
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// Transform our point first from clip to view space,
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// taking the xyz to interpret it as a direction.
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o.viewSpaceDir = mul(_ClipToView, o.vertex).xyz;
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#if UNITY_UV_STARTS_AT_TOP
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o.texcoord = o.texcoord * float2(1.0, -1.0) + float2(0.0, 1.0);
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#endif
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o.texcoordStereo = TransformStereoScreenSpaceTex(o.texcoord, 1.0);
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return o;
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}
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float4 Frag(Varyings i) : SV_Target
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{
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float halfScaleFloor = floor(_Scale * 0.5);
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float halfScaleCeil = ceil(_Scale * 0.5);
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// Sample the pixels in an X shape, roughly centered around i.texcoord.
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// As the _CameraDepthTexture and _CameraNormalsTexture default samplers
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// use point filtering, we use the above variables to ensure we offset
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// exactly one pixel at a time.
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float2 bottomLeftUV = i.texcoord - float2(_MainTex_TexelSize.x, _MainTex_TexelSize.y) * halfScaleFloor;
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float2 topRightUV = i.texcoord + float2(_MainTex_TexelSize.x, _MainTex_TexelSize.y) * halfScaleCeil;
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float2 bottomRightUV = i.texcoord + float2(_MainTex_TexelSize.x * halfScaleCeil, -_MainTex_TexelSize.y * halfScaleFloor);
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float2 topLeftUV = i.texcoord + float2(-_MainTex_TexelSize.x * halfScaleFloor, _MainTex_TexelSize.y * halfScaleCeil);
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float3 normal0 = SAMPLE_TEXTURE2D(_CameraNormalsTexture, sampler_CameraNormalsTexture, bottomLeftUV).rgb;
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float3 normal1 = SAMPLE_TEXTURE2D(_CameraNormalsTexture, sampler_CameraNormalsTexture, topRightUV).rgb;
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float3 normal2 = SAMPLE_TEXTURE2D(_CameraNormalsTexture, sampler_CameraNormalsTexture, bottomRightUV).rgb;
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float3 normal3 = SAMPLE_TEXTURE2D(_CameraNormalsTexture, sampler_CameraNormalsTexture, topLeftUV).rgb;
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float depth0 = SAMPLE_DEPTH_TEXTURE(_CameraDepthTexture, sampler_CameraDepthTexture, bottomLeftUV).r;
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float depth1 = SAMPLE_DEPTH_TEXTURE(_CameraDepthTexture, sampler_CameraDepthTexture, topRightUV).r;
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float depth2 = SAMPLE_DEPTH_TEXTURE(_CameraDepthTexture, sampler_CameraDepthTexture, bottomRightUV).r;
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float depth3 = SAMPLE_DEPTH_TEXTURE(_CameraDepthTexture, sampler_CameraDepthTexture, topLeftUV).r;
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// Transform the view normal from the 0...1 range to the -1...1 range.
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float3 viewNormal = normal0 * 2 - 1;
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float NdotV = 1 - dot(viewNormal, -i.viewSpaceDir);
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// Return a value in the 0...1 range depending on where NdotV lies
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// between _DepthNormalThreshold and 1.
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float normalThreshold01 = saturate((NdotV - _DepthNormalThreshold) / (1 - _DepthNormalThreshold));
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// Scale the threshold, and add 1 so that it is in the range of 1..._NormalThresholdScale + 1.
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float normalThreshold = normalThreshold01 * _DepthNormalThresholdScale + 1;
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// Modulate the threshold by the existing depth value;
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// pixels further from the screen will require smaller differences
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// to draw an edge.
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float depthThreshold = _DepthThreshold * depth0 * normalThreshold;
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float depthFiniteDifference0 = depth1 - depth0;
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float depthFiniteDifference1 = depth3 - depth2;
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// edgeDepth is calculated using the Roberts cross operator.
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// The same operation is applied to the normal below.
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// https://en.wikipedia.org/wiki/Roberts_cross
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float edgeDepth = sqrt(pow(depthFiniteDifference0, 2) + pow(depthFiniteDifference1, 2)) * 100;
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edgeDepth = edgeDepth > depthThreshold ? 1 : 0;
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float3 normalFiniteDifference0 = normal1 - normal0;
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float3 normalFiniteDifference1 = normal3 - normal2;
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// Dot the finite differences with themselves to transform the
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// three-dimensional values to scalars.
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float edgeNormal = sqrt(dot(normalFiniteDifference0, normalFiniteDifference0) + dot(normalFiniteDifference1, normalFiniteDifference1));
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edgeNormal = edgeNormal > _NormalThreshold ? 1 : 0;
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float edge = max(edgeDepth, edgeNormal);
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float4 edgeColor = float4(_Color.rgb, _Color.a * edge);
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float4 color = SAMPLE_TEXTURE2D(_MainTex, sampler_MainTex, i.texcoord);
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return alphaBlend(edgeColor, color);
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}
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ENDHLSL
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}
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}
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} |