Firstborn/Library/PackageCache/com.unity.postprocessing@3.2.2/PostProcessing/Shaders/Builtins/Uber.shader

316 lines
12 KiB
Plaintext
Raw Normal View History

2023-03-28 13:24:16 -04:00
Shader "Hidden/PostProcessing/Uber"
{
HLSLINCLUDE
#pragma target 3.0
#pragma multi_compile __ DISTORT
#pragma multi_compile __ CHROMATIC_ABERRATION CHROMATIC_ABERRATION_LOW
#pragma multi_compile __ BLOOM BLOOM_LOW
#pragma multi_compile __ VIGNETTE
#pragma multi_compile __ GRAIN
#pragma multi_compile __ FINALPASS
// the following keywords are handled in API specific SubShaders below
// #pragma multi_compile __ COLOR_GRADING_LDR_2D COLOR_GRADING_HDR_2D COLOR_GRADING_HDR_3D
// #pragma multi_compile __ STEREO_INSTANCING_ENABLED STEREO_DOUBLEWIDE_TARGET
#pragma vertex VertUVTransform
#pragma fragment FragUber
#include "Packages/com.unity.postprocessing/PostProcessing/Shaders/StdLib.hlsl"
#include "Packages/com.unity.postprocessing/PostProcessing/Shaders/Colors.hlsl"
#include "Packages/com.unity.postprocessing/PostProcessing/Shaders/Sampling.hlsl"
#include "Packages/com.unity.postprocessing/PostProcessing/Shaders/Builtins/Distortion.hlsl"
#include "Packages/com.unity.postprocessing/PostProcessing/Shaders/Builtins/Dithering.hlsl"
#define MAX_CHROMATIC_SAMPLES 16
TEXTURE2D_SAMPLER2D(_MainTex, sampler_MainTex);
float4 _MainTex_TexelSize;
// Auto exposure / eye adaptation
TEXTURE2D_SAMPLER2D(_AutoExposureTex, sampler_AutoExposureTex);
// Bloom
TEXTURE2D_SAMPLER2D(_BloomTex, sampler_BloomTex);
TEXTURE2D_SAMPLER2D(_Bloom_DirtTex, sampler_Bloom_DirtTex);
float4 _BloomTex_TexelSize;
float4 _Bloom_DirtTileOffset; // xy: tiling, zw: offset
half3 _Bloom_Settings; // x: sampleScale, y: intensity, z: dirt intensity
half3 _Bloom_Color;
// Chromatic aberration
TEXTURE2D_SAMPLER2D(_ChromaticAberration_SpectralLut, sampler_ChromaticAberration_SpectralLut);
half _ChromaticAberration_Amount;
// Color grading
#if COLOR_GRADING_HDR_3D
TEXTURE3D_SAMPLER3D(_Lut3D, sampler_Lut3D);
float2 _Lut3D_Params;
#else
TEXTURE2D_SAMPLER2D(_Lut2D, sampler_Lut2D);
float3 _Lut2D_Params;
#endif
half _PostExposure; // EV (exp2)
// Vignette
half3 _Vignette_Color;
half2 _Vignette_Center; // UV space
half4 _Vignette_Settings; // x: intensity, y: smoothness, z: roundness, w: rounded
half _Vignette_Opacity;
half _Vignette_Mode; // <0.5: procedural, >=0.5: masked
TEXTURE2D_SAMPLER2D(_Vignette_Mask, sampler_Vignette_Mask);
// Grain
TEXTURE2D_SAMPLER2D(_GrainTex, sampler_GrainTex);
half2 _Grain_Params1; // x: lum_contrib, y: intensity
float4 _Grain_Params2; // x: xscale, h: yscale, z: xoffset, w: yoffset
// Misc
half _LumaInAlpha;
half4 FragUber(VaryingsDefault i) : SV_Target
{
float2 uv = i.texcoord;
//>>> Automatically skipped by the shader optimizer when not used
float2 uvDistorted = Distort(i.texcoord);
float2 uvStereoDistorted = Distort(i.texcoordStereo);
//<<<
half autoExposure = SAMPLE_TEXTURE2D(_AutoExposureTex, sampler_AutoExposureTex, uv).r;
half4 color = (0.0).xxxx;
// Inspired by the method described in "Rendering Inside" [Playdead 2016]
// https://twitter.com/pixelmager/status/717019757766123520
#if CHROMATIC_ABERRATION
{
float2 coords = 2.0 * uv - 1.0;
float2 end = uv - coords * dot(coords, coords) * _ChromaticAberration_Amount;
float2 diff = end - uv;
int samples = clamp(int(length(_MainTex_TexelSize.zw * diff / 2.0)), 3, MAX_CHROMATIC_SAMPLES);
float2 delta = diff / samples;
float2 pos = uv;
half4 sum = (0.0).xxxx, filterSum = (0.0).xxxx;
for (int i = 0; i < samples; i++)
{
half t = (i + 0.5) / samples;
half4 s = SAMPLE_TEXTURE2D_LOD(_MainTex, sampler_MainTex, UnityStereoTransformScreenSpaceTex(Distort(pos)), 0);
half4 filter = half4(SAMPLE_TEXTURE2D_LOD(_ChromaticAberration_SpectralLut, sampler_ChromaticAberration_SpectralLut, float2(t, 0.0), 0).rgb, 1.0);
sum += s * filter;
filterSum += filter;
pos += delta;
}
color = sum / filterSum;
}
#elif CHROMATIC_ABERRATION_LOW
{
float2 coords = 2.0 * uv - 1.0;
float2 end = uv - coords * dot(coords, coords) * _ChromaticAberration_Amount;
float2 delta = (end - uv) / 3;
half4 filterA = half4(SAMPLE_TEXTURE2D_LOD(_ChromaticAberration_SpectralLut, sampler_ChromaticAberration_SpectralLut, float2(0.5 / 3, 0.0), 0).rgb, 1.0);
half4 filterB = half4(SAMPLE_TEXTURE2D_LOD(_ChromaticAberration_SpectralLut, sampler_ChromaticAberration_SpectralLut, float2(1.5 / 3, 0.0), 0).rgb, 1.0);
half4 filterC = half4(SAMPLE_TEXTURE2D_LOD(_ChromaticAberration_SpectralLut, sampler_ChromaticAberration_SpectralLut, float2(2.5 / 3, 0.0), 0).rgb, 1.0);
half4 texelA = SAMPLE_TEXTURE2D_LOD(_MainTex, sampler_MainTex, UnityStereoTransformScreenSpaceTex(Distort(uv)), 0);
half4 texelB = SAMPLE_TEXTURE2D_LOD(_MainTex, sampler_MainTex, UnityStereoTransformScreenSpaceTex(Distort(delta + uv)), 0);
half4 texelC = SAMPLE_TEXTURE2D_LOD(_MainTex, sampler_MainTex, UnityStereoTransformScreenSpaceTex(Distort(delta * 2.0 + uv)), 0);
half4 sum = texelA * filterA + texelB * filterB + texelC * filterC;
half4 filterSum = filterA + filterB + filterC;
color = sum / filterSum;
}
#else
{
color = SAMPLE_TEXTURE2D(_MainTex, sampler_MainTex, uvStereoDistorted);
}
#endif
// Gamma space... Gah.
#if UNITY_COLORSPACE_GAMMA
{
color = SRGBToLinear(color);
}
#endif
color.rgb *= autoExposure;
#if BLOOM || BLOOM_LOW
{
#if BLOOM
half4 bloom = UpsampleTent(TEXTURE2D_PARAM(_BloomTex, sampler_BloomTex), uvDistorted, _BloomTex_TexelSize.xy, _Bloom_Settings.x);
#else
half4 bloom = UpsampleBox(TEXTURE2D_PARAM(_BloomTex, sampler_BloomTex), uvDistorted, _BloomTex_TexelSize.xy, _Bloom_Settings.x);
#endif
// UVs should be Distort(uv * _Bloom_DirtTileOffset.xy + _Bloom_DirtTileOffset.zw)
// but considering we use a cover-style scale on the dirt texture the difference
// isn't massive so we chose to save a few ALUs here instead in case lens distortion
// is active
half4 dirt = half4(SAMPLE_TEXTURE2D(_Bloom_DirtTex, sampler_Bloom_DirtTex, uvDistorted * _Bloom_DirtTileOffset.xy + _Bloom_DirtTileOffset.zw).rgb, 0.0);
// Additive bloom (artist friendly)
bloom *= _Bloom_Settings.y;
dirt *= _Bloom_Settings.z;
color += bloom * half4(_Bloom_Color, 1.0);
color += dirt * bloom;
}
#endif
#if VIGNETTE
{
UNITY_BRANCH
if (_Vignette_Mode < 0.5)
{
half2 d = abs(uvDistorted - _Vignette_Center) * _Vignette_Settings.x;
d.x *= lerp(1.0, _ScreenParams.x / _ScreenParams.y, _Vignette_Settings.w);
d = pow(saturate(d), _Vignette_Settings.z); // Roundness
half vfactor = pow(saturate(1.0 - dot(d, d)), _Vignette_Settings.y);
color.rgb *= lerp(_Vignette_Color, (1.0).xxx, vfactor);
color.a = lerp(1.0, color.a, vfactor);
}
else
{
half vfactor = SAMPLE_TEXTURE2D(_Vignette_Mask, sampler_Vignette_Mask, uvDistorted).a;
#if !UNITY_COLORSPACE_GAMMA
{
vfactor = SRGBToLinear(vfactor);
}
#endif
half3 new_color = color.rgb * lerp(_Vignette_Color, (1.0).xxx, vfactor);
color.rgb = lerp(color.rgb, new_color, _Vignette_Opacity);
color.a = lerp(1.0, color.a, vfactor);
}
}
#endif
#if GRAIN
{
half3 grain = SAMPLE_TEXTURE2D(_GrainTex, sampler_GrainTex, i.texcoordStereo * _Grain_Params2.xy + _Grain_Params2.zw).rgb;
// Noisiness response curve based on scene luminance
float lum = 1.0 - sqrt(Luminance(saturate(color)));
lum = lerp(1.0, lum, _Grain_Params1.x);
color.rgb += color.rgb * grain * _Grain_Params1.y * lum;
}
#endif
#if COLOR_GRADING_HDR_3D
{
color *= _PostExposure;
float3 colorLutSpace = saturate(LUT_SPACE_ENCODE(color.rgb));
color.rgb = ApplyLut3D(TEXTURE3D_PARAM(_Lut3D, sampler_Lut3D), colorLutSpace, _Lut3D_Params);
}
#elif COLOR_GRADING_HDR_2D
{
color *= _PostExposure;
float3 colorLutSpace = saturate(LUT_SPACE_ENCODE(color.rgb));
color.rgb = ApplyLut2D(TEXTURE2D_PARAM(_Lut2D, sampler_Lut2D), colorLutSpace, _Lut2D_Params);
}
#elif COLOR_GRADING_LDR_2D
{
color = saturate(color);
// LDR Lut lookup needs to be in sRGB - for HDR stick to linear
color.rgb = LinearToSRGB(color.rgb);
color.rgb = ApplyLut2D(TEXTURE2D_PARAM(_Lut2D, sampler_Lut2D), color.rgb, _Lut2D_Params);
color.rgb = SRGBToLinear(color.rgb);
}
#endif
half4 output = color;
#if FINALPASS
{
#if UNITY_COLORSPACE_GAMMA
{
output = LinearToSRGB(output);
}
#endif
output.rgb = Dither(output.rgb, i.texcoord);
}
#else
{
UNITY_BRANCH
if (_LumaInAlpha > 0.5)
{
// Put saturated luma in alpha for FXAA - higher quality than "green as luma" and
// necessary as RGB values will potentially still be HDR for the FXAA pass
half luma = Luminance(saturate(output));
output.a = luma;
}
#if UNITY_COLORSPACE_GAMMA
{
output = LinearToSRGB(output);
}
#endif
}
#endif
// Output RGB is still HDR at that point (unless range was crunched by a tonemapper)
return output;
}
ENDHLSL
SubShader
{
Cull Off ZWrite Off ZTest Always
Pass
{
HLSLPROGRAM
#pragma exclude_renderers gles vulkan switch
#pragma multi_compile __ COLOR_GRADING_LDR_2D COLOR_GRADING_HDR_2D COLOR_GRADING_HDR_3D
#pragma multi_compile __ STEREO_INSTANCING_ENABLED STEREO_DOUBLEWIDE_TARGET
ENDHLSL
}
}
SubShader
{
Cull Off ZWrite Off ZTest Always
Pass
{
HLSLPROGRAM
#pragma only_renderers vulkan switch
#pragma multi_compile __ COLOR_GRADING_LDR_2D COLOR_GRADING_HDR_2D COLOR_GRADING_HDR_3D
#pragma multi_compile __ STEREO_DOUBLEWIDE_TARGET // disabled for Vulkan because of shader compiler issues in older Unity versions: STEREO_INSTANCING_ENABLED
ENDHLSL
}
}
SubShader
{
Cull Off ZWrite Off ZTest Always
Pass
{
HLSLPROGRAM
#pragma only_renderers gles
#pragma multi_compile __ COLOR_GRADING_LDR_2D COLOR_GRADING_HDR_2D // not supported by OpenGL ES 2.0: COLOR_GRADING_HDR_3D
#pragma multi_compile __ STEREO_DOUBLEWIDE_TARGET // not supported by OpenGL ES 2.0: STEREO_INSTANCING_ENABLED
ENDHLSL
}
}
}