Airboarder is now More Recolorable! (#889)

- Added the ability to recolor the floor and clouds in Airboarder
- also did a few minor visual touchups (clouds look much better, turns out i had them set to the wrong shader whoopsies)
This commit is contained in:
wookywok 2024-04-22 07:22:15 -05:00 committed by GitHub
parent 92c40166e8
commit d9f466c7f8
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51 changed files with 3568 additions and 58 deletions

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using UnityEngine;
using System.Collections;
using System.Collections.Generic;
public class MaterialUpdateExample : MonoBehaviour {
public Material material;
public List<Renderer> renderers = new List<Renderer>();
//If running in the unity editor store the original ColorMask color values so they can be reset when the Game stops running
#if UNITY_EDITOR
private Color redColorReset;
private Color greenColorReset;
private Color blueColorReset;
private Color alphaColorReset;
void Start ()
{
if (material != null)
{
//Store the original ColorMask color values
redColorReset = material.GetColor("_RedColor");
greenColorReset = material.GetColor("_GreenColor");
blueColorReset = material.GetColor("_BlueColor");
alphaColorReset = material.GetColor("_AlphaColor");
}
}
void OnDestroy ()
{
if (material != null)
{
//Reset to the original ColorMask color values
material.SetColor("_RedColor", redColorReset);
material.SetColor("_GreenColor", greenColorReset);
material.SetColor("_BlueColor", blueColorReset);
material.SetColor("_AlphaColor", alphaColorReset);
}
}
#endif
void Update ()
{
//Esc Exit - PC Standalone Build
#if UNITY_STANDALONE_WIN
if (Input.GetKey("escape"))
Application.Quit();
#endif
if (material != null)
{
//Stores a value of time scaled
float value = Time.time * 0.12f;
//Calculates cyclical invert and fade values between zero and one
float invert = Mathf.Pow (Mathf.Min(1f + Mathf.Sin(value * Mathf.PI), 1f), 7.5f);
float fade = Mathf.Max(invert, Mathf.Pow (Mathf.Min(1f + Mathf.Sin(value * 2f * Mathf.PI), 1f), 7.5f) );
//Converts value to a number between 0 and 1 which is converted to a color
//Also applies fade alpha value to red and green
Color redColor = ConvertValueToColor (value % 1f) * new Color(1f, 1f, 1f, fade);
Color greenColor = ConvertValueToColor ( (value + 0.03125f) % 1f) * new Color(0.5f, 0.5f, 0.5f, fade);
Color blueColor = ConvertValueToColor ( (value + 0.75f) % 1f);
Color alphaColor = ConvertValueToColor ( (value + 0.78125f) % 1f) * new Color(0.5f, 0.5f, 0.5f, 1f);
//Invert set red and alpha colors when invert value approaches zero
redColor = Color.Lerp(new Color(1f - redColor.r, 1f - redColor.g, 1f - redColor.b, redColor.a), redColor, invert);
alphaColor = Color.Lerp(new Color(1f - alphaColor.r, 1f - alphaColor.g, 1f - alphaColor.b, alphaColor.a), alphaColor, invert);
//Apply the new colors to the ColorMask material colors
material.SetColor("_RedColor", redColor);
material.SetColor("_GreenColor", greenColor);
material.SetColor("_BlueColor", blueColor);
material.SetColor("_AlphaColor", alphaColor);
}
//If a static gameObject which uses a ColorMask shader affects another static gameObject(s)' Precomputed Realtime GI, then this code is necessary to see the updated GI
for (int i = 0; i < renderers.Count; i++)
{
if (renderers[i] != null)
{
RendererExtensions.UpdateGIMaterials(renderers[i]);
}
}
}
//This converts a value between 0 and 1 to a color between Red, Yellow, Green, Cyan, Blue and Magenta
Color ConvertValueToColor (float value)
{
List<Color> Rainbow = new List<Color>();
Rainbow.Add(Color.red);
Rainbow.Add(Color.yellow);
Rainbow.Add(Color.green);
Rainbow.Add(Color.cyan);
Rainbow.Add(Color.blue);
Rainbow.Add(Color.magenta);
Rainbow.Add(Color.red);
float RainbowCount = Rainbow.Count - 1;
float idfloat = value * RainbowCount;
int id = (int)idfloat;
return Color.Lerp(Rainbow[id], Rainbow[id + 1], (idfloat - (float)id) % 1f);
}
}

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Shader "ColorMask/Standard"
{
Properties
{
_Color("Color", Color) = (1,1,1,1)
_MainTex("Albedo", 2D) = "white" {}
_Cutoff("Alpha Cutoff", Range(0.0, 1.0)) = 0.5
_ColorMaskTex("Color Mask", 2D) = "black" {}
_RedColor("Red Color", Color) = (1,1,1,1)
_GreenColor("Green Color", Color) = (1,1,1,1)
_BlueColor("Blue Color", Color) = (1,1,1,1)
_AlphaColor("Alpha Color", Color) = (1,1,1,1)
_Glossiness("Smoothness", Range(0.0, 1.0)) = 0.5
_GlossMapScale("Smoothness Scale", Range(0.0, 1.0)) = 1.0
[Enum(Metallic Alpha,0,Albedo Alpha,1)] _SmoothnessTextureChannel ("Smoothness texture channel", Float) = 0
[Gamma] _Metallic("Metallic", Range(0.0, 1.0)) = 0.0
_MetallicGlossMap("Metallic", 2D) = "white" {}
[ToggleOff] _SpecularHighlights("Specular Highlights", Float) = 1.0
[ToggleOff] _GlossyReflections("Glossy Reflections", Float) = 1.0
_BumpScale("Scale", Float) = 1.0
_BumpMap("Normal Map", 2D) = "bump" {}
_Parallax ("Height Scale", Range (0.005, 0.08)) = 0.02
_ParallaxMap ("Height Map", 2D) = "black" {}
_OcclusionStrength("Strength", Range(0.0, 1.0)) = 1.0
_OcclusionMap("Occlusion", 2D) = "white" {}
_EmissionColor("Color", Color) = (0,0,0)
_EmissionMap("Emission", 2D) = "white" {}
_DetailMask("Detail Mask", 2D) = "white" {}
_DetailAlbedoMap("Detail Albedo x2", 2D) = "grey" {}
_DetailNormalMapScale("Scale", Float) = 1.0
_DetailNormalMap("Normal Map", 2D) = "bump" {}
[Enum(UV0,0,UV1,1)] _UVSec ("UV Set for secondary textures", Float) = 0
// Blending state
[HideInInspector] _Mode ("__mode", Float) = 0.0
[HideInInspector] _SrcBlend ("__src", Float) = 1.0
[HideInInspector] _DstBlend ("__dst", Float) = 0.0
[HideInInspector] _ZWrite ("__zw", Float) = 1.0
}
CGINCLUDE
#define UNITY_SETUP_BRDF_INPUT MetallicSetup
ENDCG
SubShader
{
Tags { "RenderType"="Opaque" "PerformanceChecks"="False" }
LOD 300
// ------------------------------------------------------------------
// Base forward pass (directional light, emission, lightmaps, ...)
Pass
{
Name "FORWARD"
Tags { "LightMode" = "ForwardBase" }
Blend [_SrcBlend] [_DstBlend]
ZWrite [_ZWrite]
CGPROGRAM
#pragma target 3.0
// -------------------------------------
#pragma shader_feature _NORMALMAP
#pragma shader_feature _ _ALPHATEST_ON _ALPHABLEND_ON _ALPHAPREMULTIPLY_ON
#pragma shader_feature _EMISSION
#pragma shader_feature _METALLICGLOSSMAP
#pragma shader_feature ___ _DETAIL_MULX2
#pragma shader_feature _ _SMOOTHNESS_TEXTURE_ALBEDO_CHANNEL_A
#pragma shader_feature _ _SPECULARHIGHLIGHTS_OFF
#pragma shader_feature _ _GLOSSYREFLECTIONS_OFF
#pragma shader_feature _PARALLAXMAP
#pragma multi_compile_fwdbase
#pragma multi_compile_fog
#pragma vertex vertBase
#pragma fragment fragBase
#include "ColorMaskStandardCoreForward.cginc"
ENDCG
}
// ------------------------------------------------------------------
// Additive forward pass (one light per pass)
Pass
{
Name "FORWARD_DELTA"
Tags { "LightMode" = "ForwardAdd" }
Blend [_SrcBlend] One
Fog { Color (0,0,0,0) } // in additive pass fog should be black
ZWrite Off
ZTest LEqual
CGPROGRAM
#pragma target 3.0
// -------------------------------------
#pragma shader_feature _NORMALMAP
#pragma shader_feature _ _ALPHATEST_ON _ALPHABLEND_ON _ALPHAPREMULTIPLY_ON
#pragma shader_feature _METALLICGLOSSMAP
#pragma shader_feature _ _SMOOTHNESS_TEXTURE_ALBEDO_CHANNEL_A
#pragma shader_feature _ _SPECULARHIGHLIGHTS_OFF
#pragma shader_feature ___ _DETAIL_MULX2
#pragma shader_feature _PARALLAXMAP
#pragma multi_compile_fwdadd_fullshadows
#pragma multi_compile_fog
#pragma vertex vertAdd
#pragma fragment fragAdd
#include "ColorMaskStandardCoreForward.cginc"
ENDCG
}
// ------------------------------------------------------------------
// Shadow rendering pass
Pass {
Name "ShadowCaster"
Tags { "LightMode" = "ShadowCaster" }
ZWrite On ZTest LEqual
CGPROGRAM
#pragma target 3.0
// -------------------------------------
#pragma shader_feature _ _ALPHATEST_ON _ALPHABLEND_ON _ALPHAPREMULTIPLY_ON
#pragma multi_compile_shadowcaster
#pragma vertex vertShadowCaster
#pragma fragment fragShadowCaster
#include "UnityStandardShadow.cginc"
ENDCG
}
// ------------------------------------------------------------------
// Deferred pass
Pass
{
Name "DEFERRED"
Tags { "LightMode" = "Deferred" }
CGPROGRAM
#pragma target 3.0
#pragma exclude_renderers nomrt
// -------------------------------------
#pragma shader_feature _NORMALMAP
#pragma shader_feature _ _ALPHATEST_ON _ALPHABLEND_ON _ALPHAPREMULTIPLY_ON
#pragma shader_feature _EMISSION
#pragma shader_feature _METALLICGLOSSMAP
#pragma shader_feature _ _SMOOTHNESS_TEXTURE_ALBEDO_CHANNEL_A
#pragma shader_feature _ _SPECULARHIGHLIGHTS_OFF
#pragma shader_feature ___ _DETAIL_MULX2
#pragma shader_feature _PARALLAXMAP
#pragma multi_compile ___ UNITY_HDR_ON
#pragma multi_compile LIGHTMAP_OFF LIGHTMAP_ON
#pragma multi_compile ___ DIRLIGHTMAP_COMBINED DIRLIGHTMAP_SEPARATE
#pragma multi_compile DYNAMICLIGHTMAP_OFF DYNAMICLIGHTMAP_ON
#pragma vertex vertDeferred
#pragma fragment fragDeferred
#include "ColorMaskStandardCore.cginc"
ENDCG
}
// ------------------------------------------------------------------
// Extracts information for lightmapping, GI (emission, albedo, ...)
// This pass it not used during regular rendering.
Pass
{
Name "META"
Tags { "LightMode"="Meta" }
Cull Off
CGPROGRAM
#pragma target 2.5
#pragma vertex vert_meta
#pragma fragment frag_meta
#pragma shader_feature _EMISSION
#pragma shader_feature _METALLICGLOSSMAP
#pragma shader_feature _ _SMOOTHNESS_TEXTURE_ALBEDO_CHANNEL_A
#pragma shader_feature ___ _DETAIL_MULX2
#include "ColorMaskStandardMeta.cginc"
ENDCG
}
}
SubShader
{
Tags { "RenderType"="Opaque" "PerformanceChecks"="False" }
LOD 150
// ------------------------------------------------------------------
// Base forward pass (directional light, emission, lightmaps, ...)
Pass
{
Name "FORWARD"
Tags { "LightMode" = "ForwardBase" }
Blend [_SrcBlend] [_DstBlend]
ZWrite [_ZWrite]
CGPROGRAM
#pragma target 2.5
#pragma shader_feature _NORMALMAP
#pragma shader_feature _ _ALPHATEST_ON _ALPHABLEND_ON _ALPHAPREMULTIPLY_ON
#pragma shader_feature _EMISSION
#pragma shader_feature _METALLICGLOSSMAP
#pragma shader_feature _ _SMOOTHNESS_TEXTURE_ALBEDO_CHANNEL_A
#pragma shader_feature _ _SPECULARHIGHLIGHTS_OFF
#pragma shader_feature _ _GLOSSYREFLECTIONS_OFF
// SM2.0: NOT SUPPORTED shader_feature ___ _DETAIL_MULX2
// SM2.0: NOT SUPPORTED shader_feature _PARALLAXMAP
#pragma skip_variants SHADOWS_SOFT DIRLIGHTMAP_COMBINED DIRLIGHTMAP_SEPARATE
#pragma multi_compile_fwdbase
#pragma multi_compile_fog
#pragma vertex vertBase
#pragma fragment fragBase
#include "ColorMaskStandardCoreForward.cginc"
ENDCG
}
// ------------------------------------------------------------------
// Additive forward pass (one light per pass)
Pass
{
Name "FORWARD_DELTA"
Tags { "LightMode" = "ForwardAdd" }
Blend [_SrcBlend] One
Fog { Color (0,0,0,0) } // in additive pass fog should be black
ZWrite Off
ZTest LEqual
CGPROGRAM
#pragma target 2.5
#pragma shader_feature _NORMALMAP
#pragma shader_feature _ _ALPHATEST_ON _ALPHABLEND_ON _ALPHAPREMULTIPLY_ON
#pragma shader_feature _METALLICGLOSSMAP
#pragma shader_feature _ _SMOOTHNESS_TEXTURE_ALBEDO_CHANNEL_A
#pragma shader_feature _ _SPECULARHIGHLIGHTS_OFF
#pragma shader_feature ___ _DETAIL_MULX2
// SM2.0: NOT SUPPORTED shader_feature _PARALLAXMAP
#pragma skip_variants SHADOWS_SOFT
#pragma multi_compile_fwdadd_fullshadows
#pragma multi_compile_fog
#pragma vertex vertAdd
#pragma fragment fragAdd
#include "ColorMaskStandardCoreForward.cginc"
ENDCG
}
// ------------------------------------------------------------------
// Shadow rendering pass
Pass {
Name "ShadowCaster"
Tags { "LightMode" = "ShadowCaster" }
ZWrite On ZTest LEqual
CGPROGRAM
#pragma target 2.0
#pragma shader_feature _ _ALPHATEST_ON _ALPHABLEND_ON _ALPHAPREMULTIPLY_ON
#pragma skip_variants SHADOWS_SOFT
#pragma multi_compile_shadowcaster
#pragma vertex vertShadowCaster
#pragma fragment fragShadowCaster
#include "UnityStandardShadow.cginc"
ENDCG
}
// ------------------------------------------------------------------
// Extracts information for lightmapping, GI (emission, albedo, ...)
// This pass it not used during regular rendering.
Pass
{
Name "META"
Tags { "LightMode"="Meta" }
Cull Off
CGPROGRAM
#pragma target 2.5
#pragma vertex vert_meta
#pragma fragment frag_meta
#pragma shader_feature _EMISSION
#pragma shader_feature _METALLICGLOSSMAP
#pragma shader_feature _ _SMOOTHNESS_TEXTURE_ALBEDO_CHANNEL_A
#pragma shader_feature ___ _DETAIL_MULX2
#include "ColorMaskStandardMeta.cginc"
ENDCG
}
}
FallBack "VertexLit"
CustomEditor "ColorMaskStandardShaderGUI"
}

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#ifndef UNITY_STANDARD_CORE_INCLUDED
#define UNITY_STANDARD_CORE_INCLUDED
#include "UnityCG.cginc"
#include "UnityShaderVariables.cginc"
#include "UnityInstancing.cginc"
#include "UnityStandardConfig.cginc"
#include "ColorMaskStandardInput.cginc"
#include "UnityPBSLighting.cginc"
#include "UnityStandardUtils.cginc"
#include "UnityGBuffer.cginc"
#include "UnityStandardBRDF.cginc"
#include "AutoLight.cginc"
//-------------------------------------------------------------------------------------
// counterpart for NormalizePerPixelNormal
// skips normalization per-vertex and expects normalization to happen per-pixel
half3 NormalizePerVertexNormal (float3 n) // takes float to avoid overflow
{
#if (SHADER_TARGET < 30) || UNITY_STANDARD_SIMPLE
return normalize(n);
#else
return n; // will normalize per-pixel instead
#endif
}
half3 NormalizePerPixelNormal (half3 n)
{
#if (SHADER_TARGET < 30) || UNITY_STANDARD_SIMPLE
return n;
#else
return normalize(n);
#endif
}
//-------------------------------------------------------------------------------------
UnityLight MainLight ()
{
UnityLight l;
#if !defined(LIGHTMAP_ON)
l.color = _LightColor0.rgb;
l.dir = _WorldSpaceLightPos0.xyz;
l.ndotl = 0; // Not used
#else
// no light specified by the engine
// analytical light might be extracted from Lightmap data later on in the shader depending on the Lightmap type
// Should be ResetUnityLight() call but can't move the function to a UnityLightingCommon.cginc header because it break UBER shader on asset store...
l.color = half3(0, 0, 0);
l.dir = half3(0, 1, 0); // Irrelevant direction, just not null
l.ndotl = 0; // Not used
#endif
return l;
}
UnityLight AdditiveLight (half3 lightDir, half atten)
{
UnityLight l;
l.color = _LightColor0.rgb;
l.dir = lightDir;
#ifndef USING_DIRECTIONAL_LIGHT
l.dir = NormalizePerPixelNormal(l.dir);
#endif
// shadow the light
l.color *= atten;
return l;
}
UnityLight DummyLight ()
{
UnityLight l;
l.color = 0;
l.dir = half3 (0,1,0);
return l;
}
UnityIndirect ZeroIndirect ()
{
UnityIndirect ind;
ind.diffuse = 0;
ind.specular = 0;
return ind;
}
//-------------------------------------------------------------------------------------
// Common fragment setup
// deprecated
half3 WorldNormal(half4 tan2world[3])
{
return normalize(tan2world[2].xyz);
}
// deprecated
#ifdef _TANGENT_TO_WORLD
half3x3 ExtractTangentToWorldPerPixel(half4 tan2world[3])
{
half3 t = tan2world[0].xyz;
half3 b = tan2world[1].xyz;
half3 n = tan2world[2].xyz;
#if UNITY_TANGENT_ORTHONORMALIZE
n = NormalizePerPixelNormal(n);
// ortho-normalize Tangent
t = normalize (t - n * dot(t, n));
// recalculate Binormal
half3 newB = cross(n, t);
b = newB * sign (dot (newB, b));
#endif
return half3x3(t, b, n);
}
#else
half3x3 ExtractTangentToWorldPerPixel(half4 tan2world[3])
{
return half3x3(0,0,0,0,0,0,0,0,0);
}
#endif
half3 PerPixelWorldNormal(float4 i_tex, half4 tangentToWorld[3])
{
#ifdef _NORMALMAP
half3 tangent = tangentToWorld[0].xyz;
half3 binormal = tangentToWorld[1].xyz;
half3 normal = tangentToWorld[2].xyz;
#if UNITY_TANGENT_ORTHONORMALIZE
normal = NormalizePerPixelNormal(normal);
// ortho-normalize Tangent
tangent = normalize (tangent - normal * dot(tangent, normal));
// recalculate Binormal
half3 newB = cross(normal, tangent);
binormal = newB * sign (dot (newB, binormal));
#endif
half3 normalTangent = NormalInTangentSpace(i_tex);
half3 normalWorld = NormalizePerPixelNormal(tangent * normalTangent.x + binormal * normalTangent.y + normal * normalTangent.z); // @TODO: see if we can squeeze this normalize on SM2.0 as well
#else
half3 normalWorld = normalize(tangentToWorld[2].xyz);
#endif
return normalWorld;
}
#ifdef _PARALLAXMAP
#define IN_VIEWDIR4PARALLAX(i) NormalizePerPixelNormal(half3(i.tangentToWorldAndParallax[0].w,i.tangentToWorldAndParallax[1].w,i.tangentToWorldAndParallax[2].w))
#define IN_VIEWDIR4PARALLAX_FWDADD(i) NormalizePerPixelNormal(i.viewDirForParallax.xyz)
#else
#define IN_VIEWDIR4PARALLAX(i) half3(0,0,0)
#define IN_VIEWDIR4PARALLAX_FWDADD(i) half3(0,0,0)
#endif
#if UNITY_REQUIRE_FRAG_WORLDPOS
#define IN_WORLDPOS(i) i.posWorld
#else
#define IN_WORLDPOS(i) half3(0,0,0)
#endif
#define IN_LIGHTDIR_FWDADD(i) half3(i.tangentToWorldAndLightDir[0].w, i.tangentToWorldAndLightDir[1].w, i.tangentToWorldAndLightDir[2].w)
#define FRAGMENT_SETUP(x) FragmentCommonData x = \
FragmentSetup(i.tex, i.eyeVec, IN_VIEWDIR4PARALLAX(i), i.tangentToWorldAndParallax, IN_WORLDPOS(i));
#define FRAGMENT_SETUP_FWDADD(x) FragmentCommonData x = \
FragmentSetup(i.tex, i.eyeVec, IN_VIEWDIR4PARALLAX_FWDADD(i), i.tangentToWorldAndLightDir, half3(0,0,0));
struct FragmentCommonData
{
half3 diffColor, specColor;
// Note: smoothness & oneMinusReflectivity for optimization purposes, mostly for DX9 SM2.0 level.
// Most of the math is being done on these (1-x) values, and that saves a few precious ALU slots.
half oneMinusReflectivity, smoothness;
half3 normalWorld, eyeVec, posWorld;
half alpha;
#if UNITY_OPTIMIZE_TEXCUBELOD || UNITY_STANDARD_SIMPLE
half3 reflUVW;
#endif
#if UNITY_STANDARD_SIMPLE
half3 tangentSpaceNormal;
#endif
};
#ifndef UNITY_SETUP_BRDF_INPUT
#define UNITY_SETUP_BRDF_INPUT SpecularSetup
#endif
inline FragmentCommonData SpecularSetup (float4 i_tex)
{
half4 specGloss = SpecularGloss(i_tex.xy);
half3 specColor = specGloss.rgb;
half smoothness = specGloss.a;
half oneMinusReflectivity;
half3 diffColor = EnergyConservationBetweenDiffuseAndSpecular (Albedo(i_tex), specColor, /*out*/ oneMinusReflectivity);
FragmentCommonData o = (FragmentCommonData)0;
o.diffColor = diffColor;
o.specColor = specColor;
o.oneMinusReflectivity = oneMinusReflectivity;
o.smoothness = smoothness;
return o;
}
inline FragmentCommonData MetallicSetup (float4 i_tex)
{
half2 metallicGloss = MetallicGloss(i_tex.xy);
half metallic = metallicGloss.x;
half smoothness = metallicGloss.y; // this is 1 minus the square root of real roughness m.
half oneMinusReflectivity;
half3 specColor;
half3 diffColor = DiffuseAndSpecularFromMetallic (Albedo(i_tex), metallic, /*out*/ specColor, /*out*/ oneMinusReflectivity);
FragmentCommonData o = (FragmentCommonData)0;
o.diffColor = diffColor;
o.specColor = specColor;
o.oneMinusReflectivity = oneMinusReflectivity;
o.smoothness = smoothness;
return o;
}
inline FragmentCommonData FragmentSetup (float4 i_tex, half3 i_eyeVec, half3 i_viewDirForParallax, half4 tangentToWorld[3], half3 i_posWorld)
{
i_tex = Parallax(i_tex, i_viewDirForParallax);
half alpha = Alpha(i_tex.xy);
#if defined(_ALPHATEST_ON)
clip (alpha - _Cutoff);
#endif
FragmentCommonData o = UNITY_SETUP_BRDF_INPUT (i_tex);
o.normalWorld = PerPixelWorldNormal(i_tex, tangentToWorld);
o.eyeVec = NormalizePerPixelNormal(i_eyeVec);
o.posWorld = i_posWorld;
// NOTE: shader relies on pre-multiply alpha-blend (_SrcBlend = One, _DstBlend = OneMinusSrcAlpha)
o.diffColor = PreMultiplyAlpha (o.diffColor, alpha, o.oneMinusReflectivity, /*out*/ o.alpha);
return o;
}
inline UnityGI FragmentGI (FragmentCommonData s, half occlusion, half4 i_ambientOrLightmapUV, half atten, UnityLight light, bool reflections)
{
UnityGIInput d;
d.light = light;
d.worldPos = s.posWorld;
d.worldViewDir = -s.eyeVec;
d.atten = atten;
#if defined(LIGHTMAP_ON) || defined(DYNAMICLIGHTMAP_ON)
d.ambient = 0;
d.lightmapUV = i_ambientOrLightmapUV;
#else
d.ambient = i_ambientOrLightmapUV.rgb;
d.lightmapUV = 0;
#endif
d.probeHDR[0] = unity_SpecCube0_HDR;
d.probeHDR[1] = unity_SpecCube1_HDR;
#if UNITY_SPECCUBE_BLENDING || UNITY_SPECCUBE_BOX_PROJECTION
d.boxMin[0] = unity_SpecCube0_BoxMin; // .w holds lerp value for blending
#endif
#if UNITY_SPECCUBE_BOX_PROJECTION
d.boxMax[0] = unity_SpecCube0_BoxMax;
d.probePosition[0] = unity_SpecCube0_ProbePosition;
d.boxMax[1] = unity_SpecCube1_BoxMax;
d.boxMin[1] = unity_SpecCube1_BoxMin;
d.probePosition[1] = unity_SpecCube1_ProbePosition;
#endif
if(reflections)
{
Unity_GlossyEnvironmentData g = UnityGlossyEnvironmentSetup(s.smoothness, -s.eyeVec, s.normalWorld, s.specColor);
// Replace the reflUVW if it has been compute in Vertex shader. Note: the compiler will optimize the calcul in UnityGlossyEnvironmentSetup itself
#if UNITY_OPTIMIZE_TEXCUBELOD || UNITY_STANDARD_SIMPLE
g.reflUVW = s.reflUVW;
#endif
return UnityGlobalIllumination (d, occlusion, s.normalWorld, g);
}
else
{
return UnityGlobalIllumination (d, occlusion, s.normalWorld);
}
}
inline UnityGI FragmentGI (FragmentCommonData s, half occlusion, half4 i_ambientOrLightmapUV, half atten, UnityLight light)
{
return FragmentGI(s, occlusion, i_ambientOrLightmapUV, atten, light, true);
}
//-------------------------------------------------------------------------------------
half4 OutputForward (half4 output, half alphaFromSurface)
{
#if defined(_ALPHABLEND_ON) || defined(_ALPHAPREMULTIPLY_ON)
output.a = alphaFromSurface;
#else
UNITY_OPAQUE_ALPHA(output.a);
#endif
return output;
}
inline half4 VertexGIForward(VertexInput v, float3 posWorld, half3 normalWorld)
{
half4 ambientOrLightmapUV = 0;
// Static lightmaps
#ifdef LIGHTMAP_ON
ambientOrLightmapUV.xy = v.uv1.xy * unity_LightmapST.xy + unity_LightmapST.zw;
ambientOrLightmapUV.zw = 0;
// Sample light probe for Dynamic objects only (no static or dynamic lightmaps)
#elif UNITY_SHOULD_SAMPLE_SH
#ifdef VERTEXLIGHT_ON
// Approximated illumination from non-important point lights
ambientOrLightmapUV.rgb = Shade4PointLights (
unity_4LightPosX0, unity_4LightPosY0, unity_4LightPosZ0,
unity_LightColor[0].rgb, unity_LightColor[1].rgb, unity_LightColor[2].rgb, unity_LightColor[3].rgb,
unity_4LightAtten0, posWorld, normalWorld);
#endif
ambientOrLightmapUV.rgb = ShadeSHPerVertex (normalWorld, ambientOrLightmapUV.rgb);
#endif
#ifdef DYNAMICLIGHTMAP_ON
ambientOrLightmapUV.zw = v.uv2.xy * unity_DynamicLightmapST.xy + unity_DynamicLightmapST.zw;
#endif
return ambientOrLightmapUV;
}
// ------------------------------------------------------------------
// Base forward pass (directional light, emission, lightmaps, ...)
struct VertexOutputForwardBase
{
float4 pos : SV_POSITION;
float4 tex : TEXCOORD0;
half3 eyeVec : TEXCOORD1;
half4 tangentToWorldAndParallax[3] : TEXCOORD2; // [3x3:tangentToWorld | 1x3:viewDirForParallax]
half4 ambientOrLightmapUV : TEXCOORD5; // SH or Lightmap UV
SHADOW_COORDS(6)
UNITY_FOG_COORDS(7)
// next ones would not fit into SM2.0 limits, but they are always for SM3.0+
#if UNITY_REQUIRE_FRAG_WORLDPOS
float3 posWorld : TEXCOORD8;
#endif
#if UNITY_OPTIMIZE_TEXCUBELOD
#if UNITY_REQUIRE_FRAG_WORLDPOS
half3 reflUVW : TEXCOORD9;
#else
half3 reflUVW : TEXCOORD8;
#endif
#endif
UNITY_VERTEX_OUTPUT_STEREO
};
VertexOutputForwardBase vertForwardBase (VertexInput v)
{
UNITY_SETUP_INSTANCE_ID(v);
VertexOutputForwardBase o;
UNITY_INITIALIZE_OUTPUT(VertexOutputForwardBase, o);
UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(o);
float4 posWorld = mul(unity_ObjectToWorld, v.vertex);
#if UNITY_REQUIRE_FRAG_WORLDPOS
o.posWorld = posWorld.xyz;
#endif
o.pos = UnityObjectToClipPos(v.vertex);
o.tex = TexCoords(v);
o.eyeVec = NormalizePerVertexNormal(posWorld.xyz - _WorldSpaceCameraPos);
float3 normalWorld = UnityObjectToWorldNormal(v.normal);
#ifdef _TANGENT_TO_WORLD
float4 tangentWorld = float4(UnityObjectToWorldDir(v.tangent.xyz), v.tangent.w);
float3x3 tangentToWorld = CreateTangentToWorldPerVertex(normalWorld, tangentWorld.xyz, tangentWorld.w);
o.tangentToWorldAndParallax[0].xyz = tangentToWorld[0];
o.tangentToWorldAndParallax[1].xyz = tangentToWorld[1];
o.tangentToWorldAndParallax[2].xyz = tangentToWorld[2];
#else
o.tangentToWorldAndParallax[0].xyz = 0;
o.tangentToWorldAndParallax[1].xyz = 0;
o.tangentToWorldAndParallax[2].xyz = normalWorld;
#endif
//We need this for shadow receving
TRANSFER_SHADOW(o);
o.ambientOrLightmapUV = VertexGIForward(v, posWorld, normalWorld);
#ifdef _PARALLAXMAP
TANGENT_SPACE_ROTATION;
half3 viewDirForParallax = mul (rotation, ObjSpaceViewDir(v.vertex));
o.tangentToWorldAndParallax[0].w = viewDirForParallax.x;
o.tangentToWorldAndParallax[1].w = viewDirForParallax.y;
o.tangentToWorldAndParallax[2].w = viewDirForParallax.z;
#endif
#if UNITY_OPTIMIZE_TEXCUBELOD
o.reflUVW = reflect(o.eyeVec, normalWorld);
#endif
UNITY_TRANSFER_FOG(o,o.pos);
return o;
}
half4 fragForwardBaseInternal (VertexOutputForwardBase i)
{
FRAGMENT_SETUP(s)
#if UNITY_OPTIMIZE_TEXCUBELOD
s.reflUVW = i.reflUVW;
#endif
UnityLight mainLight = MainLight ();
half atten = SHADOW_ATTENUATION(i);
half occlusion = Occlusion(i.tex.xy);
UnityGI gi = FragmentGI (s, occlusion, i.ambientOrLightmapUV, atten, mainLight);
half4 c = UNITY_BRDF_PBS (s.diffColor, s.specColor, s.oneMinusReflectivity, s.smoothness, s.normalWorld, -s.eyeVec, gi.light, gi.indirect);
c.rgb += UNITY_BRDF_GI (s.diffColor, s.specColor, s.oneMinusReflectivity, s.smoothness, s.normalWorld, -s.eyeVec, occlusion, gi);
c.rgb += Emission(i.tex.xy);
UNITY_APPLY_FOG(i.fogCoord, c.rgb);
return OutputForward (c, s.alpha);
}
half4 fragForwardBase (VertexOutputForwardBase i) : SV_Target // backward compatibility (this used to be the fragment entry function)
{
return fragForwardBaseInternal(i);
}
// ------------------------------------------------------------------
// Additive forward pass (one light per pass)
struct VertexOutputForwardAdd
{
float4 pos : SV_POSITION;
float4 tex : TEXCOORD0;
half3 eyeVec : TEXCOORD1;
half4 tangentToWorldAndLightDir[3] : TEXCOORD2; // [3x3:tangentToWorld | 1x3:lightDir]
LIGHTING_COORDS(5,6)
UNITY_FOG_COORDS(7)
// next ones would not fit into SM2.0 limits, but they are always for SM3.0+
#if defined(_PARALLAXMAP)
half3 viewDirForParallax : TEXCOORD8;
#endif
UNITY_VERTEX_OUTPUT_STEREO
};
VertexOutputForwardAdd vertForwardAdd (VertexInput v)
{
VertexOutputForwardAdd o;
UNITY_INITIALIZE_OUTPUT(VertexOutputForwardAdd, o);
UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(o);
float4 posWorld = mul(unity_ObjectToWorld, v.vertex);
o.pos = UnityObjectToClipPos(v.vertex);
o.tex = TexCoords(v);
o.eyeVec = NormalizePerVertexNormal(posWorld.xyz - _WorldSpaceCameraPos);
float3 normalWorld = UnityObjectToWorldNormal(v.normal);
#ifdef _TANGENT_TO_WORLD
float4 tangentWorld = float4(UnityObjectToWorldDir(v.tangent.xyz), v.tangent.w);
float3x3 tangentToWorld = CreateTangentToWorldPerVertex(normalWorld, tangentWorld.xyz, tangentWorld.w);
o.tangentToWorldAndLightDir[0].xyz = tangentToWorld[0];
o.tangentToWorldAndLightDir[1].xyz = tangentToWorld[1];
o.tangentToWorldAndLightDir[2].xyz = tangentToWorld[2];
#else
o.tangentToWorldAndLightDir[0].xyz = 0;
o.tangentToWorldAndLightDir[1].xyz = 0;
o.tangentToWorldAndLightDir[2].xyz = normalWorld;
#endif
//We need this for shadow receiving
TRANSFER_VERTEX_TO_FRAGMENT(o);
float3 lightDir = _WorldSpaceLightPos0.xyz - posWorld.xyz * _WorldSpaceLightPos0.w;
#ifndef USING_DIRECTIONAL_LIGHT
lightDir = NormalizePerVertexNormal(lightDir);
#endif
o.tangentToWorldAndLightDir[0].w = lightDir.x;
o.tangentToWorldAndLightDir[1].w = lightDir.y;
o.tangentToWorldAndLightDir[2].w = lightDir.z;
#ifdef _PARALLAXMAP
TANGENT_SPACE_ROTATION;
o.viewDirForParallax = mul (rotation, ObjSpaceViewDir(v.vertex));
#endif
UNITY_TRANSFER_FOG(o,o.pos);
return o;
}
half4 fragForwardAddInternal (VertexOutputForwardAdd i)
{
FRAGMENT_SETUP_FWDADD(s)
UnityLight light = AdditiveLight (IN_LIGHTDIR_FWDADD(i), LIGHT_ATTENUATION(i));
UnityIndirect noIndirect = ZeroIndirect ();
half4 c = UNITY_BRDF_PBS (s.diffColor, s.specColor, s.oneMinusReflectivity, s.smoothness, s.normalWorld, -s.eyeVec, light, noIndirect);
UNITY_APPLY_FOG_COLOR(i.fogCoord, c.rgb, half4(0,0,0,0)); // fog towards black in additive pass
return OutputForward (c, s.alpha);
}
half4 fragForwardAdd (VertexOutputForwardAdd i) : SV_Target // backward compatibility (this used to be the fragment entry function)
{
return fragForwardAddInternal(i);
}
// ------------------------------------------------------------------
// Deferred pass
struct VertexOutputDeferred
{
float4 pos : SV_POSITION;
float4 tex : TEXCOORD0;
half3 eyeVec : TEXCOORD1;
half4 tangentToWorldAndParallax[3] : TEXCOORD2; // [3x3:tangentToWorld | 1x3:viewDirForParallax]
half4 ambientOrLightmapUV : TEXCOORD5; // SH or Lightmap UVs
#if UNITY_REQUIRE_FRAG_WORLDPOS
float3 posWorld : TEXCOORD6;
#endif
#if UNITY_OPTIMIZE_TEXCUBELOD
#if UNITY_REQUIRE_FRAG_WORLDPOS
half3 reflUVW : TEXCOORD7;
#else
half3 reflUVW : TEXCOORD6;
#endif
#endif
UNITY_VERTEX_OUTPUT_STEREO
};
VertexOutputDeferred vertDeferred (VertexInput v)
{
UNITY_SETUP_INSTANCE_ID(v);
VertexOutputDeferred o;
UNITY_INITIALIZE_OUTPUT(VertexOutputDeferred, o);
UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(o);
float4 posWorld = mul(unity_ObjectToWorld, v.vertex);
#if UNITY_REQUIRE_FRAG_WORLDPOS
o.posWorld = posWorld;
#endif
o.pos = UnityObjectToClipPos(v.vertex);
o.tex = TexCoords(v);
o.eyeVec = NormalizePerVertexNormal(posWorld.xyz - _WorldSpaceCameraPos);
float3 normalWorld = UnityObjectToWorldNormal(v.normal);
#ifdef _TANGENT_TO_WORLD
float4 tangentWorld = float4(UnityObjectToWorldDir(v.tangent.xyz), v.tangent.w);
float3x3 tangentToWorld = CreateTangentToWorldPerVertex(normalWorld, tangentWorld.xyz, tangentWorld.w);
o.tangentToWorldAndParallax[0].xyz = tangentToWorld[0];
o.tangentToWorldAndParallax[1].xyz = tangentToWorld[1];
o.tangentToWorldAndParallax[2].xyz = tangentToWorld[2];
#else
o.tangentToWorldAndParallax[0].xyz = 0;
o.tangentToWorldAndParallax[1].xyz = 0;
o.tangentToWorldAndParallax[2].xyz = normalWorld;
#endif
o.ambientOrLightmapUV = 0;
#ifdef LIGHTMAP_ON
o.ambientOrLightmapUV.xy = v.uv1.xy * unity_LightmapST.xy + unity_LightmapST.zw;
#elif UNITY_SHOULD_SAMPLE_SH
o.ambientOrLightmapUV.rgb = ShadeSHPerVertex (normalWorld, o.ambientOrLightmapUV.rgb);
#endif
#ifdef DYNAMICLIGHTMAP_ON
o.ambientOrLightmapUV.zw = v.uv2.xy * unity_DynamicLightmapST.xy + unity_DynamicLightmapST.zw;
#endif
#ifdef _PARALLAXMAP
TANGENT_SPACE_ROTATION;
half3 viewDirForParallax = mul (rotation, ObjSpaceViewDir(v.vertex));
o.tangentToWorldAndParallax[0].w = viewDirForParallax.x;
o.tangentToWorldAndParallax[1].w = viewDirForParallax.y;
o.tangentToWorldAndParallax[2].w = viewDirForParallax.z;
#endif
#if UNITY_OPTIMIZE_TEXCUBELOD
o.reflUVW = reflect(o.eyeVec, normalWorld);
#endif
return o;
}
void fragDeferred (
VertexOutputDeferred i,
out half4 outGBuffer0 : SV_Target0,
out half4 outGBuffer1 : SV_Target1,
out half4 outGBuffer2 : SV_Target2,
out half4 outEmission : SV_Target3 // RT3: emission (rgb), --unused-- (a)
)
{
#if (SHADER_TARGET < 30)
outGBuffer0 = 1;
outGBuffer1 = 1;
outGBuffer2 = 0;
outEmission = 0;
return;
#endif
FRAGMENT_SETUP(s)
#if UNITY_OPTIMIZE_TEXCUBELOD
s.reflUVW = i.reflUVW;
#endif
// no analytic lights in this pass
UnityLight dummyLight = DummyLight ();
half atten = 1;
// only GI
half occlusion = Occlusion(i.tex.xy);
#if UNITY_ENABLE_REFLECTION_BUFFERS
bool sampleReflectionsInDeferred = false;
#else
bool sampleReflectionsInDeferred = true;
#endif
UnityGI gi = FragmentGI (s, occlusion, i.ambientOrLightmapUV, atten, dummyLight, sampleReflectionsInDeferred);
half3 emissiveColor = UNITY_BRDF_PBS (s.diffColor, s.specColor, s.oneMinusReflectivity, s.smoothness, s.normalWorld, -s.eyeVec, gi.light, gi.indirect).rgb;
emissiveColor += UNITY_BRDF_GI (s.diffColor, s.specColor, s.oneMinusReflectivity, s.smoothness, s.normalWorld, -s.eyeVec, occlusion, gi);
#ifdef _EMISSION
emissiveColor += Emission (i.tex.xy);
#endif
#ifndef UNITY_HDR_ON
emissiveColor.rgb = exp2(-emissiveColor.rgb);
#endif
UnityStandardData data;
data.diffuseColor = s.diffColor;
data.occlusion = occlusion;
data.specularColor = s.specColor;
data.smoothness = s.smoothness;
data.normalWorld = s.normalWorld;
UnityStandardDataToGbuffer(data, outGBuffer0, outGBuffer1, outGBuffer2);
// Emisive lighting buffer
outEmission = half4(emissiveColor, 1);
}
//
// Old FragmentGI signature. Kept only for backward compatibility and will be removed soon
//
inline UnityGI FragmentGI(
float3 posWorld,
half occlusion, half4 i_ambientOrLightmapUV, half atten, half smoothness, half3 normalWorld, half3 eyeVec,
UnityLight light,
bool reflections)
{
// we init only fields actually used
FragmentCommonData s = (FragmentCommonData)0;
s.smoothness = smoothness;
s.normalWorld = normalWorld;
s.eyeVec = eyeVec;
s.posWorld = posWorld;
#if UNITY_OPTIMIZE_TEXCUBELOD
s.reflUVW = reflect(eyeVec, normalWorld);
#endif
return FragmentGI(s, occlusion, i_ambientOrLightmapUV, atten, light, reflections);
}
inline UnityGI FragmentGI (
float3 posWorld,
half occlusion, half4 i_ambientOrLightmapUV, half atten, half smoothness, half3 normalWorld, half3 eyeVec,
UnityLight light)
{
return FragmentGI (posWorld, occlusion, i_ambientOrLightmapUV, atten, smoothness, normalWorld, eyeVec, light, true);
}
#endif // UNITY_STANDARD_CORE_INCLUDED

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#ifndef UNITY_STANDARD_CORE_FORWARD_INCLUDED
#define UNITY_STANDARD_CORE_FORWARD_INCLUDED
#if defined(UNITY_NO_FULL_STANDARD_SHADER)
# define UNITY_STANDARD_SIMPLE 1
#endif
#include "UnityStandardConfig.cginc"
#if UNITY_STANDARD_SIMPLE
#include "ColorMaskStandardCoreForwardSimple.cginc"
VertexOutputBaseSimple vertBase (VertexInput v) { return vertForwardBaseSimple(v); }
VertexOutputForwardAddSimple vertAdd (VertexInput v) { return vertForwardAddSimple(v); }
half4 fragBase (VertexOutputBaseSimple i) : SV_Target { return fragForwardBaseSimpleInternal(i); }
half4 fragAdd (VertexOutputForwardAddSimple i) : SV_Target { return fragForwardAddSimpleInternal(i); }
#else
#include "ColorMaskStandardCore.cginc"
VertexOutputForwardBase vertBase (VertexInput v) { return vertForwardBase(v); }
VertexOutputForwardAdd vertAdd (VertexInput v) { return vertForwardAdd(v); }
half4 fragBase (VertexOutputForwardBase i) : SV_Target { return fragForwardBaseInternal(i); }
half4 fragAdd (VertexOutputForwardAdd i) : SV_Target { return fragForwardAddInternal(i); }
#endif
#endif // UNITY_STANDARD_CORE_FORWARD_INCLUDED

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#ifndef UNITY_STANDARD_CORE_FORWARD_SIMPLE_INCLUDED
#define UNITY_STANDARD_CORE_FORWARD_SIMPLE_INCLUDED
#include "ColorMaskStandardCore.cginc"
// Does not support: _PARALLAXMAP, DIRLIGHTMAP_COMBINED, DIRLIGHTMAP_SEPARATE
#define GLOSSMAP (defined(_SPECGLOSSMAP) || defined(_METALLICGLOSSMAP))
#ifndef SPECULAR_HIGHLIGHTS
#define SPECULAR_HIGHLIGHTS (!defined(_SPECULAR_HIGHLIGHTS_OFF))
#endif
struct VertexOutputBaseSimple
{
float4 pos : SV_POSITION;
float4 tex : TEXCOORD0;
half4 eyeVec : TEXCOORD1; // w: grazingTerm
half4 ambientOrLightmapUV : TEXCOORD2; // SH or Lightmap UV
SHADOW_COORDS(3)
UNITY_FOG_COORDS_PACKED(4, half4) // x: fogCoord, yzw: reflectVec
half4 normalWorld : TEXCOORD5; // w: fresnelTerm
#ifdef _NORMALMAP
half3 tangentSpaceLightDir : TEXCOORD6;
#if SPECULAR_HIGHLIGHTS
half3 tangentSpaceEyeVec : TEXCOORD7;
#endif
#endif
#if UNITY_REQUIRE_FRAG_WORLDPOS
float3 posWorld : TEXCOORD8;
#endif
};
// UNIFORM_REFLECTIVITY(): workaround to get (uniform) reflecivity based on UNITY_SETUP_BRDF_INPUT
half MetallicSetup_Reflectivity()
{
return 1.0h - OneMinusReflectivityFromMetallic(_Metallic);
}
half SpecularSetup_Reflectivity()
{
return SpecularStrength(_SpecColor.rgb);
}
#define JOIN2(a, b) a##b
#define JOIN(a, b) JOIN2(a,b)
#define UNIFORM_REFLECTIVITY JOIN(UNITY_SETUP_BRDF_INPUT, _Reflectivity)
#ifdef _NORMALMAP
half3 TransformToTangentSpace(half3 tangent, half3 binormal, half3 normal, half3 v)
{
// Mali400 shader compiler prefers explicit dot product over using a half3x3 matrix
return half3(dot(tangent, v), dot(binormal, v), dot(normal, v));
}
void TangentSpaceLightingInput(half3 normalWorld, half4 vTangent, half3 lightDirWorld, half3 eyeVecWorld, out half3 tangentSpaceLightDir, out half3 tangentSpaceEyeVec)
{
half3 tangentWorld = UnityObjectToWorldDir(vTangent.xyz);
half sign = half(vTangent.w) * half(unity_WorldTransformParams.w);
half3 binormalWorld = cross(normalWorld, tangentWorld) * sign;
tangentSpaceLightDir = TransformToTangentSpace(tangentWorld, binormalWorld, normalWorld, lightDirWorld);
#if SPECULAR_HIGHLIGHTS
tangentSpaceEyeVec = normalize(TransformToTangentSpace(tangentWorld, binormalWorld, normalWorld, eyeVecWorld));
#else
tangentSpaceEyeVec = 0;
#endif
}
#endif // _NORMALMAP
VertexOutputBaseSimple vertForwardBaseSimple (VertexInput v)
{
UNITY_SETUP_INSTANCE_ID(v);
VertexOutputBaseSimple o;
UNITY_INITIALIZE_OUTPUT(VertexOutputBaseSimple, o);
float4 posWorld = mul(unity_ObjectToWorld, v.vertex);
#if UNITY_REQUIRE_FRAG_WORLDPOS
o.posWorld = posWorld.xyz;
#endif
o.pos = UnityObjectToClipPos(v.vertex);
o.tex = TexCoords(v);
half3 eyeVec = normalize(posWorld.xyz - _WorldSpaceCameraPos);
half3 normalWorld = UnityObjectToWorldNormal(v.normal);
o.normalWorld.xyz = normalWorld;
o.eyeVec.xyz = eyeVec;
#ifdef _NORMALMAP
half3 tangentSpaceEyeVec;
TangentSpaceLightingInput(normalWorld, v.tangent, _WorldSpaceLightPos0.xyz, eyeVec, o.tangentSpaceLightDir, tangentSpaceEyeVec);
#if SPECULAR_HIGHLIGHTS
o.tangentSpaceEyeVec = tangentSpaceEyeVec;
#endif
#endif
//We need this for shadow receiving
TRANSFER_SHADOW(o);
o.ambientOrLightmapUV = VertexGIForward(v, posWorld, normalWorld);
o.fogCoord.yzw = reflect(eyeVec, normalWorld);
o.normalWorld.w = Pow4(1 - saturate(dot(normalWorld, -eyeVec))); // fresnel term
#if !GLOSSMAP
o.eyeVec.w = saturate(_Glossiness + UNIFORM_REFLECTIVITY()); // grazing term
#endif
UNITY_TRANSFER_FOG(o, o.pos);
return o;
}
FragmentCommonData FragmentSetupSimple(VertexOutputBaseSimple i)
{
half alpha = Alpha(i.tex.xy);
#if defined(_ALPHATEST_ON)
clip (alpha - _Cutoff);
#endif
FragmentCommonData s = UNITY_SETUP_BRDF_INPUT (i.tex);
// NOTE: shader relies on pre-multiply alpha-blend (_SrcBlend = One, _DstBlend = OneMinusSrcAlpha)
s.diffColor = PreMultiplyAlpha (s.diffColor, alpha, s.oneMinusReflectivity, /*out*/ s.alpha);
s.normalWorld = i.normalWorld.xyz;
s.eyeVec = i.eyeVec.xyz;
s.posWorld = IN_WORLDPOS(i);
s.reflUVW = i.fogCoord.yzw;
#ifdef _NORMALMAP
s.tangentSpaceNormal = NormalInTangentSpace(i.tex);
#else
s.tangentSpaceNormal = 0;
#endif
return s;
}
UnityLight MainLightSimple(VertexOutputBaseSimple i, FragmentCommonData s)
{
UnityLight mainLight = MainLight();
return mainLight;
}
half PerVertexGrazingTerm(VertexOutputBaseSimple i, FragmentCommonData s)
{
#if GLOSSMAP
return saturate(s.smoothness + (1-s.oneMinusReflectivity));
#else
return i.eyeVec.w;
#endif
}
half PerVertexFresnelTerm(VertexOutputBaseSimple i)
{
return i.normalWorld.w;
}
#if !SPECULAR_HIGHLIGHTS
# define REFLECTVEC_FOR_SPECULAR(i, s) half3(0, 0, 0)
#elif defined(_NORMALMAP)
# define REFLECTVEC_FOR_SPECULAR(i, s) reflect(i.tangentSpaceEyeVec, s.tangentSpaceNormal)
#else
# define REFLECTVEC_FOR_SPECULAR(i, s) s.reflUVW
#endif
half3 LightDirForSpecular(VertexOutputBaseSimple i, UnityLight mainLight)
{
#if SPECULAR_HIGHLIGHTS && defined(_NORMALMAP)
return i.tangentSpaceLightDir;
#else
return mainLight.dir;
#endif
}
half3 BRDF3DirectSimple(half3 diffColor, half3 specColor, half smoothness, half rl)
{
#if SPECULAR_HIGHLIGHTS
return BRDF3_Direct(diffColor, specColor, Pow4(rl), smoothness);
#else
return diffColor;
#endif
}
half4 fragForwardBaseSimpleInternal (VertexOutputBaseSimple i)
{
FragmentCommonData s = FragmentSetupSimple(i);
UnityLight mainLight = MainLightSimple(i, s);
#if !defined(LIGHTMAP_ON) && defined(_NORMALMAP)
half ndotl = saturate(dot(s.tangentSpaceNormal, i.tangentSpaceLightDir));
#else
half ndotl = saturate(dot(s.normalWorld, mainLight.dir));
#endif
half atten = SHADOW_ATTENUATION(i);
half occlusion = Occlusion(i.tex.xy);
half rl = dot(REFLECTVEC_FOR_SPECULAR(i, s), LightDirForSpecular(i, mainLight));
UnityGI gi = FragmentGI (s, occlusion, i.ambientOrLightmapUV, atten, mainLight);
half3 attenuatedLightColor = gi.light.color * ndotl;
half3 c = BRDF3_Indirect(s.diffColor, s.specColor, gi.indirect, PerVertexGrazingTerm(i, s), PerVertexFresnelTerm(i));
c += BRDF3DirectSimple(s.diffColor, s.specColor, s.smoothness, rl) * attenuatedLightColor;
c += UNITY_BRDF_GI (s.diffColor, s.specColor, s.oneMinusReflectivity, s.smoothness, s.normalWorld, -s.eyeVec, occlusion, gi);
c += Emission(i.tex.xy);
UNITY_APPLY_FOG(i.fogCoord, c);
return OutputForward (half4(c, 1), s.alpha);
}
half4 fragForwardBaseSimple (VertexOutputBaseSimple i) : SV_Target // backward compatibility (this used to be the fragment entry function)
{
return fragForwardBaseSimpleInternal(i);
}
struct VertexOutputForwardAddSimple
{
float4 pos : SV_POSITION;
float4 tex : TEXCOORD0;
LIGHTING_COORDS(1,2)
#if !defined(_NORMALMAP) && SPECULAR_HIGHLIGHTS
UNITY_FOG_COORDS_PACKED(3, half4) // x: fogCoord, yzw: reflectVec
#else
UNITY_FOG_COORDS_PACKED(3, half1)
#endif
half3 lightDir : TEXCOORD4;
#if defined(_NORMALMAP)
#if SPECULAR_HIGHLIGHTS
half3 tangentSpaceEyeVec : TEXCOORD5;
#endif
#else
half3 normalWorld : TEXCOORD5;
#endif
};
VertexOutputForwardAddSimple vertForwardAddSimple (VertexInput v)
{
VertexOutputForwardAddSimple o;
UNITY_INITIALIZE_OUTPUT(VertexOutputForwardAddSimple, o);
float4 posWorld = mul(unity_ObjectToWorld, v.vertex);
o.pos = UnityObjectToClipPos(v.vertex);
o.tex = TexCoords(v);
//We need this for shadow receiving
TRANSFER_VERTEX_TO_FRAGMENT(o);
half3 lightDir = _WorldSpaceLightPos0.xyz - posWorld.xyz * _WorldSpaceLightPos0.w;
#ifndef USING_DIRECTIONAL_LIGHT
lightDir = NormalizePerVertexNormal(lightDir);
#endif
#if SPECULAR_HIGHLIGHTS
half3 eyeVec = normalize(posWorld.xyz - _WorldSpaceCameraPos);
#endif
half3 normalWorld = UnityObjectToWorldNormal(v.normal);
#ifdef _NORMALMAP
#if SPECULAR_HIGHLIGHTS
TangentSpaceLightingInput(normalWorld, v.tangent, lightDir, eyeVec, o.lightDir, o.tangentSpaceEyeVec);
#else
half3 ignore;
TangentSpaceLightingInput(normalWorld, v.tangent, lightDir, 0, o.lightDir, ignore);
#endif
#else
o.lightDir = lightDir;
o.normalWorld = normalWorld;
#if SPECULAR_HIGHLIGHTS
o.fogCoord.yzw = reflect(eyeVec, normalWorld);
#endif
#endif
UNITY_TRANSFER_FOG(o,o.pos);
return o;
}
FragmentCommonData FragmentSetupSimpleAdd(VertexOutputForwardAddSimple i)
{
half alpha = Alpha(i.tex.xy);
#if defined(_ALPHATEST_ON)
clip (alpha - _Cutoff);
#endif
FragmentCommonData s = UNITY_SETUP_BRDF_INPUT (i.tex);
// NOTE: shader relies on pre-multiply alpha-blend (_SrcBlend = One, _DstBlend = OneMinusSrcAlpha)
s.diffColor = PreMultiplyAlpha (s.diffColor, alpha, s.oneMinusReflectivity, /*out*/ s.alpha);
s.eyeVec = 0;
s.posWorld = 0;
#ifdef _NORMALMAP
s.tangentSpaceNormal = NormalInTangentSpace(i.tex);
s.normalWorld = 0;
#else
s.tangentSpaceNormal = 0;
s.normalWorld = i.normalWorld;
#endif
#if SPECULAR_HIGHLIGHTS && !defined(_NORMALMAP)
s.reflUVW = i.fogCoord.yzw;
#else
s.reflUVW = 0;
#endif
return s;
}
half3 LightSpaceNormal(VertexOutputForwardAddSimple i, FragmentCommonData s)
{
#ifdef _NORMALMAP
return s.tangentSpaceNormal;
#else
return i.normalWorld;
#endif
}
half4 fragForwardAddSimpleInternal (VertexOutputForwardAddSimple i)
{
FragmentCommonData s = FragmentSetupSimpleAdd(i);
half3 c = BRDF3DirectSimple(s.diffColor, s.specColor, s.smoothness, dot(REFLECTVEC_FOR_SPECULAR(i, s), i.lightDir));
#if SPECULAR_HIGHLIGHTS // else diffColor has premultiplied light color
c *= _LightColor0.rgb;
#endif
c *= LIGHT_ATTENUATION(i) * saturate(dot(LightSpaceNormal(i, s), i.lightDir));
UNITY_APPLY_FOG_COLOR(i.fogCoord, c.rgb, half4(0,0,0,0)); // fog towards black in additive pass
return OutputForward (half4(c, 1), s.alpha);
}
half4 fragForwardAddSimple (VertexOutputForwardAddSimple i) : SV_Target // backward compatibility (this used to be the fragment entry function)
{
return fragForwardAddSimpleInternal(i);
}
#endif // UNITY_STANDARD_CORE_FORWARD_SIMPLE_INCLUDED

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#ifndef UNITY_STANDARD_INPUT_INCLUDED
#define UNITY_STANDARD_INPUT_INCLUDED
#include "UnityCG.cginc"
#include "UnityShaderVariables.cginc"
#include "UnityInstancing.cginc"
#include "UnityStandardConfig.cginc"
#include "UnityPBSLighting.cginc" // TBD: remove
#include "UnityStandardUtils.cginc"
//---------------------------------------
// Directional lightmaps & Parallax require tangent space too
#if (_NORMALMAP || DIRLIGHTMAP_COMBINED || DIRLIGHTMAP_SEPARATE || _PARALLAXMAP)
#define _TANGENT_TO_WORLD 1
#endif
#if (_DETAIL_MULX2 || _DETAIL_MUL || _DETAIL_ADD || _DETAIL_LERP)
#define _DETAIL 1
#endif
//---------------------------------------
half4 _Color;
half _Cutoff;
sampler2D _MainTex;
float4 _MainTex_ST;
sampler2D _ColorMaskTex;
float4 _ColorMaskTex_ST;
half4 _RedColor;
half4 _GreenColor;
half4 _BlueColor;
half4 _AlphaColor;
sampler2D _DetailAlbedoMap;
float4 _DetailAlbedoMap_ST;
sampler2D _BumpMap;
half _BumpScale;
sampler2D _DetailMask;
sampler2D _DetailNormalMap;
half _DetailNormalMapScale;
sampler2D _SpecGlossMap;
sampler2D _MetallicGlossMap;
half _Metallic;
half _Glossiness;
half _GlossMapScale;
sampler2D _OcclusionMap;
half _OcclusionStrength;
sampler2D _ParallaxMap;
half _Parallax;
half _UVSec;
half4 _EmissionColor;
sampler2D _EmissionMap;
//-------------------------------------------------------------------------------------
// Input functions
struct VertexInput
{
float4 vertex : POSITION;
half3 normal : NORMAL;
float2 uv0 : TEXCOORD0;
float2 uv1 : TEXCOORD1;
#if defined(DYNAMICLIGHTMAP_ON) || defined(UNITY_PASS_META)
float2 uv2 : TEXCOORD2;
#endif
#ifdef _TANGENT_TO_WORLD
half4 tangent : TANGENT;
#endif
UNITY_VERTEX_INPUT_INSTANCE_ID
};
float4 TexCoords(VertexInput v)
{
float4 texcoord;
texcoord.xy = TRANSFORM_TEX(v.uv0, _MainTex); // Always source from uv0
texcoord.zw = TRANSFORM_TEX(((_UVSec == 0) ? v.uv0 : v.uv1), _DetailAlbedoMap);
return texcoord;
}
half DetailMask(float2 uv)
{
return tex2D (_DetailMask, uv).a;
}
half3 Albedo(float4 texcoords)
{
half3 albedo = tex2D (_MainTex, texcoords.xy).rgb;
//4 channel color mask - Blend the albedo texture with the user defined colors using the color mask (rgba), then multiply the default color.
half4 cM = tex2D (_ColorMaskTex, texcoords.xy);
half total = cM.r + cM.g + cM.b + cM.a;
half mT = max(total, 0.002);
half4 blendColor = _RedColor * cM.r / mT + _GreenColor * cM.g / mT + _BlueColor * cM.b / mT + _AlphaColor * cM.a / mT;
//half4 blendColor = _RedColor * cM.r / mT + _GreenColor * cM.g / mT;
//half4 blendColor = cM;
albedo = lerp(albedo, blendColor.rgb, min(total, 1) * blendColor.a ) * _Color.rgb;
//albedo = cM.b + cM.a;
#if _DETAIL
#if (SHADER_TARGET < 30)
// SM20: instruction count limitation
// SM20: no detail mask
half mask = 1;
#else
half mask = DetailMask(texcoords.xy);
#endif
half3 detailAlbedo = tex2D (_DetailAlbedoMap, texcoords.zw).rgb;
#if _DETAIL_MULX2
albedo *= LerpWhiteTo (detailAlbedo * unity_ColorSpaceDouble.rgb, mask);
#elif _DETAIL_MUL
albedo *= LerpWhiteTo (detailAlbedo, mask);
#elif _DETAIL_ADD
albedo += detailAlbedo * mask;
#elif _DETAIL_LERP
albedo = lerp (albedo, detailAlbedo, mask);
#endif
#endif
return albedo;
}
half Alpha(float2 uv)
{
#if defined(_SMOOTHNESS_TEXTURE_ALBEDO_CHANNEL_A)
return _Color.a;
#else
return tex2D(_MainTex, uv).a * _Color.a;
#endif
}
half Occlusion(float2 uv)
{
#if (SHADER_TARGET < 30)
// SM20: instruction count limitation
// SM20: simpler occlusion
return tex2D(_OcclusionMap, uv).g;
#else
half occ = tex2D(_OcclusionMap, uv).g;
return LerpOneTo (occ, _OcclusionStrength);
#endif
}
half4 SpecularGloss(float2 uv)
{
half4 sg;
#ifdef _SPECGLOSSMAP
#if defined(_SMOOTHNESS_TEXTURE_ALBEDO_CHANNEL_A)
sg.rgb = tex2D(_SpecGlossMap, uv).rgb;
sg.a = tex2D(_MainTex, uv).a;
#else
sg = tex2D(_SpecGlossMap, uv);
#endif
sg.a *= _GlossMapScale;
#else
sg.rgb = _SpecColor.rgb;
#ifdef _SMOOTHNESS_TEXTURE_ALBEDO_CHANNEL_A
sg.a = tex2D(_MainTex, uv).a * _GlossMapScale;
#else
sg.a = _Glossiness;
#endif
#endif
return sg;
}
half2 MetallicGloss(float2 uv)
{
half2 mg;
#ifdef _METALLICGLOSSMAP
#ifdef _SMOOTHNESS_TEXTURE_ALBEDO_CHANNEL_A
mg.r = tex2D(_MetallicGlossMap, uv).r;
mg.g = tex2D(_MainTex, uv).a;
#else
mg = tex2D(_MetallicGlossMap, uv).ra;
#endif
mg.g *= _GlossMapScale;
#else
mg.r = _Metallic;
#ifdef _SMOOTHNESS_TEXTURE_ALBEDO_CHANNEL_A
mg.g = tex2D(_MainTex, uv).a * _GlossMapScale;
#else
mg.g = _Glossiness;
#endif
#endif
return mg;
}
half3 Emission(float2 uv)
{
#ifndef _EMISSION
return 0;
#else
return tex2D(_EmissionMap, uv).rgb * _EmissionColor.rgb;
#endif
}
#ifdef _NORMALMAP
half3 NormalInTangentSpace(float4 texcoords)
{
half3 normalTangent = UnpackScaleNormal(tex2D (_BumpMap, texcoords.xy), _BumpScale);
// SM20: instruction count limitation
// SM20: no detail normalmaps
#if _DETAIL && !defined(SHADER_API_MOBILE) && (SHADER_TARGET >= 30)
half mask = DetailMask(texcoords.xy);
half3 detailNormalTangent = UnpackScaleNormal(tex2D (_DetailNormalMap, texcoords.zw), _DetailNormalMapScale);
#if _DETAIL_LERP
normalTangent = lerp(
normalTangent,
detailNormalTangent,
mask);
#else
normalTangent = lerp(
normalTangent,
BlendNormals(normalTangent, detailNormalTangent),
mask);
#endif
#endif
return normalTangent;
}
#endif
float4 Parallax (float4 texcoords, half3 viewDir)
{
// D3D9/SM30 supports up to 16 samplers, skip the parallax map in case we exceed the limit
#define EXCEEDS_D3D9_SM3_MAX_SAMPLER_COUNT (defined(LIGHTMAP_ON) && defined(DIRLIGHTMAP_SEPARATE) && defined(SHADOWS_SCREEN) && defined(_NORMALMAP) && \
defined(_EMISSION) && defined(_DETAIL) && (defined(_METALLICGLOSSMAP) || defined(_SPECGLOSSMAP)))
#if !defined(_PARALLAXMAP) || (SHADER_TARGET < 30) || (defined(SHADER_API_D3D9) && EXCEEDS_D3D9_SM3_MAX_SAMPLER_COUNT)
// SM20: instruction count limitation
// SM20: no parallax
return texcoords;
#else
half h = tex2D (_ParallaxMap, texcoords.xy).g;
float2 offset = ParallaxOffset1Step (h, _Parallax, viewDir);
return float4(texcoords.xy + offset, texcoords.zw + offset);
#endif
#undef EXCEEDS_D3D9_SM3_MAX_SAMPLER_COUNT
}
#endif // UNITY_STANDARD_INPUT_INCLUDED

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#ifndef UNITY_STANDARD_META_INCLUDED
#define UNITY_STANDARD_META_INCLUDED
// Functionality for Standard shader "meta" pass
// (extracts albedo/emission for lightmapper etc.)
// define meta pass before including other files; they have conditions
// on that in some places
#define UNITY_PASS_META 1
#include "UnityCG.cginc"
#include "ColorMaskStandardInput.cginc"
#include "UnityMetaPass.cginc"
#include "ColorMaskStandardCore.cginc"
struct v2f_meta
{
float4 uv : TEXCOORD0;
float4 pos : SV_POSITION;
};
v2f_meta vert_meta (VertexInput v)
{
v2f_meta o;
o.pos = UnityMetaVertexPosition(v.vertex, v.uv1.xy, v.uv2.xy, unity_LightmapST, unity_DynamicLightmapST);
o.uv = TexCoords(v);
return o;
}
// Albedo for lightmapping should basically be diffuse color.
// But rough metals (black diffuse) still scatter quite a lot of light around, so
// we want to take some of that into account too.
half3 UnityLightmappingAlbedo (half3 diffuse, half3 specular, half smoothness)
{
half roughness = SmoothnessToRoughness(smoothness);
half3 res = diffuse;
res += specular * roughness * 0.5;
return res;
}
float4 frag_meta (v2f_meta i) : SV_Target
{
// we're interested in diffuse & specular colors,
// and surface roughness to produce final albedo.
FragmentCommonData data = UNITY_SETUP_BRDF_INPUT (i.uv);
UnityMetaInput o;
UNITY_INITIALIZE_OUTPUT(UnityMetaInput, o);
o.Albedo = UnityLightmappingAlbedo (data.diffColor, data.specColor, data.smoothness);
o.Emission = Emission(i.uv.xy);
return UnityMetaFragment(o);
}
#endif // UNITY_STANDARD_META_INCLUDED

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Shader "ColorMask/Standard (Specular setup)"
{
Properties
{
_Color("Color", Color) = (1,1,1,1)
_MainTex("Albedo", 2D) = "white" {}
_Cutoff("Alpha Cutoff", Range(0.0, 1.0)) = 0.5
_ColorMaskTex("Color Mask", 2D) = "black" {}
_RedColor("Red Color", Color) = (1,1,1,1)
_GreenColor("Green Color", Color) = (1,1,1,1)
_BlueColor("Blue Color", Color) = (1,1,1,1)
_AlphaColor("Alpha Color", Color) = (1,1,1,1)
_Glossiness("Smoothness", Range(0.0, 1.0)) = 0.5
_GlossMapScale("Smoothness Factor", Range(0.0, 1.0)) = 1.0
[Enum(Specular Alpha,0,Albedo Alpha,1)] _SmoothnessTextureChannel ("Smoothness texture channel", Float) = 0
_SpecColor("Specular", Color) = (0.2,0.2,0.2)
_SpecGlossMap("Specular", 2D) = "white" {}
[ToggleOff] _SpecularHighlights("Specular Highlights", Float) = 1.0
[ToggleOff] _GlossyReflections("Glossy Reflections", Float) = 1.0
_BumpScale("Scale", Float) = 1.0
_BumpMap("Normal Map", 2D) = "bump" {}
_Parallax ("Height Scale", Range (0.005, 0.08)) = 0.02
_ParallaxMap ("Height Map", 2D) = "black" {}
_OcclusionStrength("Strength", Range(0.0, 1.0)) = 1.0
_OcclusionMap("Occlusion", 2D) = "white" {}
_EmissionColor("Color", Color) = (0,0,0)
_EmissionMap("Emission", 2D) = "white" {}
_DetailMask("Detail Mask", 2D) = "white" {}
_DetailAlbedoMap("Detail Albedo x2", 2D) = "grey" {}
_DetailNormalMapScale("Scale", Float) = 1.0
_DetailNormalMap("Normal Map", 2D) = "bump" {}
[Enum(UV0,0,UV1,1)] _UVSec ("UV Set for secondary textures", Float) = 0
// Blending state
[HideInInspector] _Mode ("__mode", Float) = 0.0
[HideInInspector] _SrcBlend ("__src", Float) = 1.0
[HideInInspector] _DstBlend ("__dst", Float) = 0.0
[HideInInspector] _ZWrite ("__zw", Float) = 1.0
}
CGINCLUDE
#define UNITY_SETUP_BRDF_INPUT SpecularSetup
ENDCG
SubShader
{
Tags { "RenderType"="Opaque" "PerformanceChecks"="False" }
LOD 300
// ------------------------------------------------------------------
// Base forward pass (directional light, emission, lightmaps, ...)
Pass
{
Name "FORWARD"
Tags { "LightMode" = "ForwardBase" }
Blend [_SrcBlend] [_DstBlend]
ZWrite [_ZWrite]
CGPROGRAM
#pragma target 3.0
// -------------------------------------
#pragma shader_feature _NORMALMAP
#pragma shader_feature _ _ALPHATEST_ON _ALPHABLEND_ON _ALPHAPREMULTIPLY_ON
#pragma shader_feature _EMISSION
#pragma shader_feature _SPECGLOSSMAP
#pragma shader_feature ___ _DETAIL_MULX2
#pragma shader_feature _ _SMOOTHNESS_TEXTURE_ALBEDO_CHANNEL_A
#pragma shader_feature _ _SPECULARHIGHLIGHTS_OFF
#pragma shader_feature _ _GLOSSYREFLECTIONS_OFF
#pragma shader_feature _PARALLAXMAP
#pragma multi_compile_fwdbase
#pragma multi_compile_fog
#pragma vertex vertBase
#pragma fragment fragBase
#include "ColorMaskStandardCoreForward.cginc"
ENDCG
}
// ------------------------------------------------------------------
// Additive forward pass (one light per pass)
Pass
{
Name "FORWARD_DELTA"
Tags { "LightMode" = "ForwardAdd" }
Blend [_SrcBlend] One
Fog { Color (0,0,0,0) } // in additive pass fog should be black
ZWrite Off
ZTest LEqual
CGPROGRAM
#pragma target 3.0
// -------------------------------------
#pragma shader_feature _NORMALMAP
#pragma shader_feature _ _ALPHATEST_ON _ALPHABLEND_ON _ALPHAPREMULTIPLY_ON
#pragma shader_feature _SPECGLOSSMAP
#pragma shader_feature _ _SMOOTHNESS_TEXTURE_ALBEDO_CHANNEL_A
#pragma shader_feature _ _SPECULARHIGHLIGHTS_OFF
#pragma shader_feature ___ _DETAIL_MULX2
#pragma shader_feature _PARALLAXMAP
#pragma multi_compile_fwdadd_fullshadows
#pragma multi_compile_fog
#pragma vertex vertAdd
#pragma fragment fragAdd
#include "ColorMaskStandardCoreForward.cginc"
ENDCG
}
// ------------------------------------------------------------------
// Shadow rendering pass
Pass {
Name "ShadowCaster"
Tags { "LightMode" = "ShadowCaster" }
ZWrite On ZTest LEqual
CGPROGRAM
#pragma target 3.0
// -------------------------------------
#pragma shader_feature _ _ALPHATEST_ON _ALPHABLEND_ON _ALPHAPREMULTIPLY_ON
#pragma shader_feature _SPECGLOSSMAP
#pragma shader_feature _PARALLAXMAP
#pragma multi_compile_shadowcaster
#pragma vertex vertShadowCaster
#pragma fragment fragShadowCaster
#include "UnityStandardShadow.cginc"
ENDCG
}
// ------------------------------------------------------------------
// Deferred pass
Pass
{
Name "DEFERRED"
Tags { "LightMode" = "Deferred" }
CGPROGRAM
#pragma target 3.0
#pragma exclude_renderers nomrt
// -------------------------------------
#pragma shader_feature _NORMALMAP
#pragma shader_feature _ _ALPHATEST_ON _ALPHABLEND_ON _ALPHAPREMULTIPLY_ON
#pragma shader_feature _EMISSION
#pragma shader_feature _SPECGLOSSMAP
#pragma shader_feature _ _SMOOTHNESS_TEXTURE_ALBEDO_CHANNEL_A
#pragma shader_feature _ _SPECULARHIGHLIGHTS_OFF
#pragma shader_feature ___ _DETAIL_MULX2
#pragma shader_feature _PARALLAXMAP
#pragma multi_compile ___ UNITY_HDR_ON
#pragma multi_compile ___ LIGHTMAP_ON
#pragma multi_compile ___ DIRLIGHTMAP_COMBINED DIRLIGHTMAP_SEPARATE
#pragma multi_compile ___ DYNAMICLIGHTMAP_ON
#pragma vertex vertDeferred
#pragma fragment fragDeferred
#include "ColorMaskStandardCore.cginc"
ENDCG
}
// ------------------------------------------------------------------
// Extracts information for lightmapping, GI (emission, albedo, ...)
// This pass it not used during regular rendering.
Pass
{
Name "META"
Tags { "LightMode"="Meta" }
Cull Off
CGPROGRAM
#pragma target 2.5
#pragma vertex vert_meta
#pragma fragment frag_meta
#pragma shader_feature _EMISSION
#pragma shader_feature _SPECGLOSSMAP
#pragma shader_feature _ _SMOOTHNESS_TEXTURE_ALBEDO_CHANNEL_A
#pragma shader_feature ___ _DETAIL_MULX2
#include "ColorMaskStandardMeta.cginc"
ENDCG
}
}
SubShader
{
Tags { "RenderType"="Opaque" "PerformanceChecks"="False" }
LOD 150
// ------------------------------------------------------------------
// Base forward pass (directional light, emission, lightmaps, ...)
Pass
{
Name "FORWARD"
Tags { "LightMode" = "ForwardBase" }
Blend [_SrcBlend] [_DstBlend]
ZWrite [_ZWrite]
CGPROGRAM
#pragma target 2.5
#pragma shader_feature _NORMALMAP
#pragma shader_feature _ _ALPHATEST_ON _ALPHABLEND_ON _ALPHAPREMULTIPLY_ON
#pragma shader_feature _EMISSION
#pragma shader_feature _SPECGLOSSMAP
#pragma shader_feature _ _SMOOTHNESS_TEXTURE_ALBEDO_CHANNEL_A
#pragma shader_feature _ _SPECULARHIGHLIGHTS_OFF
#pragma shader_feature _ _GLOSSYREFLECTIONS_OFF
#pragma shader_feature ___ _DETAIL_MULX2
// SM2.0: NOT SUPPORTED shader_feature _PARALLAXMAP
#pragma skip_variants SHADOWS_SOFT DYNAMICLIGHTMAP_ON DIRLIGHTMAP_COMBINED DIRLIGHTMAP_SEPARATE
#pragma multi_compile_fwdbase
#pragma multi_compile_fog
#pragma vertex vertBase
#pragma fragment fragBase
#include "ColorMaskStandardCoreForward.cginc"
ENDCG
}
// ------------------------------------------------------------------
// Additive forward pass (one light per pass)
Pass
{
Name "FORWARD_DELTA"
Tags { "LightMode" = "ForwardAdd" }
Blend [_SrcBlend] One
Fog { Color (0,0,0,0) } // in additive pass fog should be black
ZWrite Off
ZTest LEqual
CGPROGRAM
#pragma target 2.5
#pragma shader_feature _NORMALMAP
#pragma shader_feature _ _ALPHATEST_ON _ALPHABLEND_ON _ALPHAPREMULTIPLY_ON
#pragma shader_feature _SPECGLOSSMAP
#pragma shader_feature _ _SMOOTHNESS_TEXTURE_ALBEDO_CHANNEL_A
#pragma shader_feature _ _SPECULARHIGHLIGHTS_OFF
#pragma shader_feature ___ _DETAIL_MULX2
// SM2.0: NOT SUPPORTED shader_feature _PARALLAXMAP
#pragma skip_variants SHADOWS_SOFT
#pragma multi_compile_fwdadd_fullshadows
#pragma multi_compile_fog
#pragma vertex vertAdd
#pragma fragment fragAdd
#include "ColorMaskStandardCoreForward.cginc"
ENDCG
}
// ------------------------------------------------------------------
// Shadow rendering pass
Pass {
Name "ShadowCaster"
Tags { "LightMode" = "ShadowCaster" }
ZWrite On ZTest LEqual
CGPROGRAM
#pragma target 2.5
#pragma shader_feature _ _ALPHATEST_ON _ALPHABLEND_ON _ALPHAPREMULTIPLY_ON
#pragma shader_feature _SPECGLOSSMAP
#pragma skip_variants SHADOWS_SOFT
#pragma multi_compile_shadowcaster
#pragma vertex vertShadowCaster
#pragma fragment fragShadowCaster
#include "UnityStandardShadow.cginc"
ENDCG
}
// ------------------------------------------------------------------
// Extracts information for lightmapping, GI (emission, albedo, ...)
// This pass it not used during regular rendering.
Pass
{
Name "META"
Tags { "LightMode"="Meta" }
Cull Off
CGPROGRAM
#pragma target 2.5
#pragma vertex vert_meta
#pragma fragment frag_meta
#pragma shader_feature _EMISSION
#pragma shader_feature _SPECGLOSSMAP
#pragma shader_feature _ _SMOOTHNESS_TEXTURE_ALBEDO_CHANNEL_A
#pragma shader_feature ___ _DETAIL_MULX2
#include "ColorMaskStandardMeta.cginc"
ENDCG
}
}
FallBack "VertexLit"
CustomEditor "ColorMaskStandardShaderGUI"
}

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using System;
using UnityEngine;
namespace UnityEditor
{
internal class ColorMaskStandardShaderGUI : ShaderGUI
{
private enum WorkflowMode
{
Specular,
Metallic,
Dielectric
}
public enum BlendMode
{
Opaque,
Cutout,
Fade, // Old school alpha-blending mode, fresnel does not affect amount of transparency
Transparent // Physically plausible transparency mode, implemented as alpha pre-multiply
}
public enum SmoothnessMapChannel
{
SpecularMetallicAlpha,
AlbedoAlpha,
}
private static class Styles
{
public static GUIStyle optionsButton = "PaneOptions";
public static GUIContent uvSetLabel = new GUIContent("UV Set");
public static GUIContent[] uvSetOptions = new GUIContent[] { new GUIContent("UV channel 0"), new GUIContent("UV channel 1") };
public static string emptyTootip = "";
public static GUIContent albedoText = new GUIContent("Albedo", "Albedo (RGB) and Transparency (A)");
public static GUIContent alphaCutoffText = new GUIContent("Alpha Cutoff", "Threshold for alpha cutoff");
public static GUIContent colorMaskText = new GUIContent("Color Mask", "Color Mask (R)");
public static GUIContent specularMapText = new GUIContent("Specular", "Specular (RGB) and Smoothness (A)");
public static GUIContent metallicMapText = new GUIContent("Metallic", "Metallic (R) and Smoothness (A)");
public static GUIContent smoothnessText = new GUIContent("Smoothness", "Smoothness value");
public static GUIContent smoothnessScaleText = new GUIContent("Smoothness", "Smoothness scale factor");
public static GUIContent smoothnessMapChannelText = new GUIContent("Source", "Smoothness texture and channel");
public static GUIContent highlightsText = new GUIContent("Specular Highlights", "Specular Highlights");
public static GUIContent reflectionsText = new GUIContent("Reflections", "Glossy Reflections");
public static GUIContent normalMapText = new GUIContent("Normal Map", "Normal Map");
public static GUIContent heightMapText = new GUIContent("Height Map", "Height Map (G)");
public static GUIContent occlusionText = new GUIContent("Occlusion", "Occlusion (G)");
public static GUIContent emissionText = new GUIContent("Emission", "Emission (RGB)");
public static GUIContent detailMaskText = new GUIContent("Detail Mask", "Mask for Secondary Maps (A)");
public static GUIContent detailAlbedoText = new GUIContent("Detail Albedo x2", "Albedo (RGB) multiplied by 2");
public static GUIContent detailNormalMapText = new GUIContent("Normal Map", "Normal Map");
public static string whiteSpaceString = " ";
public static string primaryMapsText = "Main Maps";
public static string secondaryMapsText = "Secondary Maps";
public static string forwardText = "Forward Rendering Options";
public static string renderingMode = "Rendering Mode";
public static GUIContent emissiveWarning = new GUIContent ("Emissive value is animated but the material has not been configured to support emissive. Please make sure the material itself has some amount of emissive.");
public static GUIContent emissiveColorWarning = new GUIContent ("Ensure emissive color is non-black for emission to have effect.");
public static readonly string[] blendNames = Enum.GetNames (typeof (BlendMode));
}
MaterialProperty blendMode = null;
MaterialProperty albedoMap = null;
MaterialProperty albedoColor = null;
MaterialProperty alphaCutoff = null;
MaterialProperty colorMaskMap = null;
MaterialProperty redColor = null;
MaterialProperty greenColor = null;
MaterialProperty blueColor = null;
MaterialProperty alphaColor = null;
MaterialProperty specularMap = null;
MaterialProperty specularColor = null;
MaterialProperty metallicMap = null;
MaterialProperty metallic = null;
MaterialProperty smoothness = null;
MaterialProperty smoothnessScale = null;
MaterialProperty smoothnessMapChannel = null;
MaterialProperty highlights = null;
MaterialProperty reflections = null;
MaterialProperty bumpScale = null;
MaterialProperty bumpMap = null;
MaterialProperty occlusionStrength = null;
MaterialProperty occlusionMap = null;
MaterialProperty heigtMapScale = null;
MaterialProperty heightMap = null;
MaterialProperty emissionColorForRendering = null;
MaterialProperty emissionMap = null;
MaterialProperty detailMask = null;
MaterialProperty detailAlbedoMap = null;
MaterialProperty detailNormalMapScale = null;
MaterialProperty detailNormalMap = null;
MaterialProperty uvSetSecondary = null;
MaterialEditor m_MaterialEditor;
WorkflowMode m_WorkflowMode = WorkflowMode.Specular;
ColorPickerHDRConfig m_ColorPickerHDRConfig = new ColorPickerHDRConfig(0f, 99f, 1/99f, 3f);
bool m_FirstTimeApply = true;
public void FindProperties (MaterialProperty[] props)
{
blendMode = FindProperty ("_Mode", props);
albedoMap = FindProperty ("_MainTex", props);
albedoColor = FindProperty ("_Color", props);
alphaCutoff = FindProperty ("_Cutoff", props);
colorMaskMap = FindProperty ("_ColorMaskTex", props);
redColor = FindProperty ("_RedColor", props);
greenColor = FindProperty ("_GreenColor", props);
blueColor = FindProperty ("_BlueColor", props);
alphaColor = FindProperty ("_AlphaColor", props);
specularMap = FindProperty ("_SpecGlossMap", props, false);
specularColor = FindProperty ("_SpecColor", props, false);
metallicMap = FindProperty ("_MetallicGlossMap", props, false);
metallic = FindProperty ("_Metallic", props, false);
if (specularMap != null && specularColor != null)
m_WorkflowMode = WorkflowMode.Specular;
else if (metallicMap != null && metallic != null)
m_WorkflowMode = WorkflowMode.Metallic;
else
m_WorkflowMode = WorkflowMode.Dielectric;
smoothness = FindProperty ("_Glossiness", props);
smoothnessScale = FindProperty ("_GlossMapScale", props, false);
smoothnessMapChannel = FindProperty ("_SmoothnessTextureChannel", props, false);
highlights = FindProperty ("_SpecularHighlights", props, false);
reflections = FindProperty ("_GlossyReflections", props, false);
bumpScale = FindProperty ("_BumpScale", props);
bumpMap = FindProperty ("_BumpMap", props);
heigtMapScale = FindProperty ("_Parallax", props);
heightMap = FindProperty("_ParallaxMap", props);
occlusionStrength = FindProperty ("_OcclusionStrength", props);
occlusionMap = FindProperty ("_OcclusionMap", props);
emissionColorForRendering = FindProperty ("_EmissionColor", props);
emissionMap = FindProperty ("_EmissionMap", props);
detailMask = FindProperty ("_DetailMask", props);
detailAlbedoMap = FindProperty ("_DetailAlbedoMap", props);
detailNormalMapScale = FindProperty ("_DetailNormalMapScale", props);
detailNormalMap = FindProperty ("_DetailNormalMap", props);
uvSetSecondary = FindProperty ("_UVSec", props);
}
public override void OnGUI (MaterialEditor materialEditor, MaterialProperty[] props)
{
FindProperties (props); // MaterialProperties can be animated so we do not cache them but fetch them every event to ensure animated values are updated correctly
m_MaterialEditor = materialEditor;
Material material = materialEditor.target as Material;
// Make sure that needed setup (ie keywords/renderqueue) are set up if we're switching some existing
// material to a standard shader.
// Do this before any GUI code has been issued to prevent layout issues in subsequent GUILayout statements (case 780071)
if (m_FirstTimeApply)
{
MaterialChanged(material, m_WorkflowMode);
m_FirstTimeApply = false;
}
ShaderPropertiesGUI (material);
}
public void ShaderPropertiesGUI (Material material)
{
// Use default labelWidth
EditorGUIUtility.labelWidth = 0f;
// Detect any changes to the material
EditorGUI.BeginChangeCheck();
{
BlendModePopup();
// Primary properties
GUILayout.Label (Styles.primaryMapsText, EditorStyles.boldLabel);
DoAlbedoArea(material);
DoColorMaskArea(material);
DoSpecularMetallicArea();
m_MaterialEditor.TexturePropertySingleLine(Styles.normalMapText, bumpMap, bumpMap.textureValue != null ? bumpScale : null);
m_MaterialEditor.TexturePropertySingleLine(Styles.heightMapText, heightMap, heightMap.textureValue != null ? heigtMapScale : null);
m_MaterialEditor.TexturePropertySingleLine(Styles.occlusionText, occlusionMap, occlusionMap.textureValue != null ? occlusionStrength : null);
DoEmissionArea(material);
m_MaterialEditor.TexturePropertySingleLine(Styles.detailMaskText, detailMask);
EditorGUI.BeginChangeCheck();
m_MaterialEditor.TextureScaleOffsetProperty(albedoMap);
if (EditorGUI.EndChangeCheck())
colorMaskMap.textureScaleAndOffset = albedoMap.textureScaleAndOffset; // Apply the main texture scale and offset to the color mask texture as well
EditorGUI.BeginChangeCheck();
m_MaterialEditor.TextureScaleOffsetProperty(albedoMap);
if (EditorGUI.EndChangeCheck())
emissionMap.textureScaleAndOffset = albedoMap.textureScaleAndOffset; // Apply the main texture scale and offset to the emission texture as well, for Enlighten's sake
EditorGUILayout.Space();
// Secondary properties
GUILayout.Label(Styles.secondaryMapsText, EditorStyles.boldLabel);
m_MaterialEditor.TexturePropertySingleLine(Styles.detailAlbedoText, detailAlbedoMap);
m_MaterialEditor.TexturePropertySingleLine(Styles.detailNormalMapText, detailNormalMap, detailNormalMapScale);
m_MaterialEditor.TextureScaleOffsetProperty(detailAlbedoMap);
m_MaterialEditor.ShaderProperty(uvSetSecondary, Styles.uvSetLabel.text);
// Third properties
GUILayout.Label(Styles.forwardText, EditorStyles.boldLabel);
if (highlights != null)
m_MaterialEditor.ShaderProperty(highlights, Styles.highlightsText);
if (reflections != null)
m_MaterialEditor.ShaderProperty(reflections, Styles.reflectionsText);
}
if (EditorGUI.EndChangeCheck())
{
foreach (var obj in blendMode.targets)
MaterialChanged((Material)obj, m_WorkflowMode);
}
}
internal void DetermineWorkflow(MaterialProperty[] props)
{
if (FindProperty("_SpecGlossMap", props, false) != null && FindProperty("_SpecColor", props, false) != null)
m_WorkflowMode = WorkflowMode.Specular;
else if (FindProperty("_MetallicGlossMap", props, false) != null && FindProperty("_Metallic", props, false) != null)
m_WorkflowMode = WorkflowMode.Metallic;
else
m_WorkflowMode = WorkflowMode.Dielectric;
}
public override void AssignNewShaderToMaterial (Material material, Shader oldShader, Shader newShader)
{
// _Emission property is lost after assigning Standard shader to the material
// thus transfer it before assigning the new shader
if (material.HasProperty("_Emission"))
{
material.SetColor("_EmissionColor", material.GetColor("_Emission"));
}
base.AssignNewShaderToMaterial(material, oldShader, newShader);
if (oldShader == null || !oldShader.name.Contains("Legacy Shaders/"))
{
SetupMaterialWithBlendMode(material, (BlendMode)material.GetFloat("_Mode"));
return;
}
BlendMode blendMode = BlendMode.Opaque;
if (oldShader.name.Contains("/Transparent/Cutout/"))
{
blendMode = BlendMode.Cutout;
}
else if (oldShader.name.Contains("/Transparent/"))
{
// NOTE: legacy shaders did not provide physically based transparency
// therefore Fade mode
blendMode = BlendMode.Fade;
}
material.SetFloat("_Mode", (float)blendMode);
DetermineWorkflow( MaterialEditor.GetMaterialProperties (new Material[] { material }) );
MaterialChanged(material, m_WorkflowMode);
}
void BlendModePopup()
{
EditorGUI.showMixedValue = blendMode.hasMixedValue;
var mode = (BlendMode)blendMode.floatValue;
EditorGUI.BeginChangeCheck();
mode = (BlendMode)EditorGUILayout.Popup(Styles.renderingMode, (int)mode, Styles.blendNames);
if (EditorGUI.EndChangeCheck())
{
m_MaterialEditor.RegisterPropertyChangeUndo("Rendering Mode");
blendMode.floatValue = (float)mode;
}
EditorGUI.showMixedValue = false;
}
void DoAlbedoArea(Material material)
{
m_MaterialEditor.TexturePropertySingleLine(Styles.albedoText, albedoMap, albedoColor);
if (((BlendMode)material.GetFloat("_Mode") == BlendMode.Cutout))
{
m_MaterialEditor.ShaderProperty(alphaCutoff, Styles.alphaCutoffText.text, MaterialEditor.kMiniTextureFieldLabelIndentLevel+1);
}
}
void DoColorMaskArea(Material material)
{
//4 channel color mask - Texture and colors
m_MaterialEditor.TexturePropertySingleLine(Styles.colorMaskText, colorMaskMap);
m_MaterialEditor.ColorProperty(redColor, "Red Color");
m_MaterialEditor.ColorProperty(greenColor, "Green Color");
m_MaterialEditor.ColorProperty(blueColor, "Blue Color");
m_MaterialEditor.ColorProperty(alphaColor, "Alpha Color");
}
void DoEmissionArea(Material material)
{
bool showHelpBox = !HasValidEmissiveKeyword(material);
bool hadEmissionTexture = emissionMap.textureValue != null;
// Texture and HDR color controls
m_MaterialEditor.TexturePropertyWithHDRColor(Styles.emissionText, emissionMap, emissionColorForRendering, m_ColorPickerHDRConfig, false);
// If texture was assigned and color was black set color to white
float brightness = emissionColorForRendering.colorValue.maxColorComponent;
if (emissionMap.textureValue != null && !hadEmissionTexture && brightness <= 0f)
emissionColorForRendering.colorValue = Color.white;
// Emission for GI?
m_MaterialEditor.LightmapEmissionProperty (MaterialEditor.kMiniTextureFieldLabelIndentLevel + 1);
if (showHelpBox)
{
EditorGUILayout.HelpBox(Styles.emissiveWarning.text, MessageType.Warning);
}
}
void DoSpecularMetallicArea()
{
bool hasGlossMap = false;
if (m_WorkflowMode == WorkflowMode.Specular)
{
hasGlossMap = specularMap.textureValue != null;
m_MaterialEditor.TexturePropertySingleLine(Styles.specularMapText, specularMap, hasGlossMap ? null : specularColor);
}
else if (m_WorkflowMode == WorkflowMode.Metallic)
{
hasGlossMap = metallicMap.textureValue != null;
m_MaterialEditor.TexturePropertySingleLine(Styles.metallicMapText, metallicMap, hasGlossMap ? null : metallic);
}
bool showSmoothnessScale = hasGlossMap;
if (smoothnessMapChannel != null)
{
int smoothnessChannel = (int) smoothnessMapChannel.floatValue;
if (smoothnessChannel == (int) SmoothnessMapChannel.AlbedoAlpha)
showSmoothnessScale = true;
}
int indentation = 2; // align with labels of texture properties
m_MaterialEditor.ShaderProperty(showSmoothnessScale ? smoothnessScale : smoothness, showSmoothnessScale ? Styles.smoothnessScaleText : Styles.smoothnessText, indentation);
++indentation;
if (smoothnessMapChannel != null)
m_MaterialEditor.ShaderProperty(smoothnessMapChannel, Styles.smoothnessMapChannelText, indentation);
}
public static void SetupMaterialWithBlendMode(Material material, BlendMode blendMode)
{
switch (blendMode)
{
case BlendMode.Opaque:
material.SetOverrideTag("RenderType", "");
material.SetInt("_SrcBlend", (int)UnityEngine.Rendering.BlendMode.One);
material.SetInt("_DstBlend", (int)UnityEngine.Rendering.BlendMode.Zero);
material.SetInt("_ZWrite", 1);
material.DisableKeyword("_ALPHATEST_ON");
material.DisableKeyword("_ALPHABLEND_ON");
material.DisableKeyword("_ALPHAPREMULTIPLY_ON");
material.renderQueue = -1;
break;
case BlendMode.Cutout:
material.SetOverrideTag("RenderType", "TransparentCutout");
material.SetInt("_SrcBlend", (int)UnityEngine.Rendering.BlendMode.One);
material.SetInt("_DstBlend", (int)UnityEngine.Rendering.BlendMode.Zero);
material.SetInt("_ZWrite", 1);
material.EnableKeyword("_ALPHATEST_ON");
material.DisableKeyword("_ALPHABLEND_ON");
material.DisableKeyword("_ALPHAPREMULTIPLY_ON");
material.renderQueue = (int)UnityEngine.Rendering.RenderQueue.AlphaTest;
break;
case BlendMode.Fade:
material.SetOverrideTag("RenderType", "Transparent");
material.SetInt("_SrcBlend", (int)UnityEngine.Rendering.BlendMode.SrcAlpha);
material.SetInt("_DstBlend", (int)UnityEngine.Rendering.BlendMode.OneMinusSrcAlpha);
material.SetInt("_ZWrite", 0);
material.DisableKeyword("_ALPHATEST_ON");
material.EnableKeyword("_ALPHABLEND_ON");
material.DisableKeyword("_ALPHAPREMULTIPLY_ON");
material.renderQueue = (int)UnityEngine.Rendering.RenderQueue.Transparent;
break;
case BlendMode.Transparent:
material.SetOverrideTag("RenderType", "Transparent");
material.SetInt("_SrcBlend", (int)UnityEngine.Rendering.BlendMode.One);
material.SetInt("_DstBlend", (int)UnityEngine.Rendering.BlendMode.OneMinusSrcAlpha);
material.SetInt("_ZWrite", 0);
material.DisableKeyword("_ALPHATEST_ON");
material.DisableKeyword("_ALPHABLEND_ON");
material.EnableKeyword("_ALPHAPREMULTIPLY_ON");
material.renderQueue = (int)UnityEngine.Rendering.RenderQueue.Transparent;
break;
}
}
static SmoothnessMapChannel GetSmoothnessMapChannel(Material material)
{
int ch = (int) material.GetFloat("_SmoothnessTextureChannel");
if (ch == (int) SmoothnessMapChannel.AlbedoAlpha)
return SmoothnessMapChannel.AlbedoAlpha;
else
return SmoothnessMapChannel.SpecularMetallicAlpha;
}
static bool ShouldEmissionBeEnabled(Material mat, Color color)
{
var realtimeEmission = (mat.globalIlluminationFlags & MaterialGlobalIlluminationFlags.RealtimeEmissive) > 0;
return color.maxColorComponent > 0.1f / 255.0f || realtimeEmission;
}
static void SetMaterialKeywords(Material material, WorkflowMode workflowMode)
{
// Note: keywords must be based on Material value not on MaterialProperty due to multi-edit & material animation
// (MaterialProperty value might come from renderer material property block)
SetKeyword (material, "_NORMALMAP", material.GetTexture ("_BumpMap") || material.GetTexture ("_DetailNormalMap"));
if (workflowMode == WorkflowMode.Specular)
SetKeyword (material, "_SPECGLOSSMAP", material.GetTexture ("_SpecGlossMap"));
else if (workflowMode == WorkflowMode.Metallic)
SetKeyword (material, "_METALLICGLOSSMAP", material.GetTexture ("_MetallicGlossMap"));
SetKeyword (material, "_PARALLAXMAP", material.GetTexture ("_ParallaxMap"));
SetKeyword (material, "_DETAIL_MULX2", material.GetTexture ("_DetailAlbedoMap") || material.GetTexture ("_DetailNormalMap"));
bool shouldEmissionBeEnabled = ShouldEmissionBeEnabled (material, material.GetColor("_EmissionColor"));
SetKeyword (material, "_EMISSION", shouldEmissionBeEnabled);
if (material.HasProperty("_SmoothnessTextureChannel"))
{
SetKeyword (material, "_SMOOTHNESS_TEXTURE_ALBEDO_CHANNEL_A", GetSmoothnessMapChannel(material) == SmoothnessMapChannel.AlbedoAlpha);
}
// Setup lightmap emissive flags
MaterialGlobalIlluminationFlags flags = material.globalIlluminationFlags;
if ((flags & (MaterialGlobalIlluminationFlags.BakedEmissive | MaterialGlobalIlluminationFlags.RealtimeEmissive)) != 0)
{
flags &= ~MaterialGlobalIlluminationFlags.EmissiveIsBlack;
if (!shouldEmissionBeEnabled)
flags |= MaterialGlobalIlluminationFlags.EmissiveIsBlack;
material.globalIlluminationFlags = flags;
}
}
bool HasValidEmissiveKeyword (Material material)
{
// Material animation might be out of sync with the material keyword.
// So if the emission support is disabled on the material, but the property blocks have a value that requires it, then we need to show a warning.
// (note: (Renderer MaterialPropertyBlock applies its values to emissionColorForRendering))
bool hasEmissionKeyword = material.IsKeywordEnabled ("_EMISSION");
if (!hasEmissionKeyword && ShouldEmissionBeEnabled (material, emissionColorForRendering.colorValue))
return false;
else
return true;
}
static void MaterialChanged(Material material, WorkflowMode workflowMode)
{
SetupMaterialWithBlendMode(material, (BlendMode)material.GetFloat("_Mode"));
SetMaterialKeywords(material, workflowMode);
}
static void SetKeyword(Material m, string keyword, bool state)
{
if (state)
m.EnableKeyword (keyword);
else
m.DisableKeyword (keyword);
}
}
} // namespace UnityEditor

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View file

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View file

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- _EmissionColor: {r: 0.78431374, g: 0.6766883, b: 0.6766883, a: 1}
- _GoodColor: {r: 1, g: 1, b: 1, a: 1}
- _OutlineColor: {r: 0, g: 0, b: 0, a: 1}
- _ReflectColor: {r: 1, g: 1, b: 1, a: 0.5}

View file

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View file

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View file

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View file

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View file

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- _Color: {r: 1, g: 1, b: 1, a: 1}
- _Color: {r: 1, g: 1, b: 1, a: 0.78431374}
- _EmissionColor: {r: 0, g: 0, b: 0, a: 1}
m_BuildTextureStacks: []

View file

@ -8,7 +8,7 @@ Material:
m_PrefabInstance: {fileID: 0}
m_PrefabAsset: {fileID: 0}
m_Name: clouds
m_Shader: {fileID: 10751, guid: 0000000000000000f000000000000000, type: 0}
m_Shader: {fileID: 4800000, guid: 6edf21a3fdd28154ab40e23fb0660133, type: 3}
m_ValidKeywords: []
m_InvalidKeywords:
- _ALPHATEST_ON

View file

@ -80,7 +80,7 @@ Material:
- _UVSec: 0
- _ZWrite: 1
m_Colors:
- _Color: {r: 1, g: 1, b: 1, a: 0.5019608}
- _Color: {r: 1, g: 1, b: 1, a: 0.78431374}
- _EmissionColor: {r: 0, g: 0, b: 0, a: 1}
- _SpecColor: {r: 0.2, g: 0.2, b: 0.2, a: 1}
m_BuildTextureStacks: []

View file

@ -8,10 +8,12 @@ Material:
m_PrefabInstance: {fileID: 0}
m_PrefabAsset: {fileID: 0}
m_Name: floorspecular
m_Shader: {fileID: 45, guid: 0000000000000000f000000000000000, type: 0}
m_ValidKeywords: []
m_InvalidKeywords: []
m_LightmapFlags: 4
m_Shader: {fileID: 4800000, guid: bedf46e927dae18459dcdcdef5201a5f, type: 3}
m_ValidKeywords:
- _EMISSION
m_InvalidKeywords:
- _METALLICGLOSSMAP
m_LightmapFlags: 2
m_EnableInstancingVariants: 0
m_DoubleSidedGI: 0
m_CustomRenderQueue: -1
@ -24,10 +26,14 @@ Material:
m_Texture: {fileID: 0}
m_Scale: {x: 1, y: 1}
m_Offset: {x: 0, y: 0}
- _DetailAlbedoMap:
m_Texture: {fileID: 0}
- _ColorMaskTex:
m_Texture: {fileID: 2800000, guid: f181c9819c5bc7b488b3eedee117d8e0, type: 3}
m_Scale: {x: 1, y: 1}
m_Offset: {x: 0, y: 0}
- _DetailAlbedoMap:
m_Texture: {fileID: 0}
m_Scale: {x: 128, y: 1}
m_Offset: {x: 128, y: 0}
- _DetailMask:
m_Texture: {fileID: 0}
m_Scale: {x: 1, y: 1}
@ -37,19 +43,19 @@ Material:
m_Scale: {x: 1, y: 1}
m_Offset: {x: 0, y: 0}
- _EmissionMap:
m_Texture: {fileID: 2800000, guid: e63f82dce03ddec43891c66e2945190b, type: 3}
m_Texture: {fileID: 0}
m_Scale: {x: 128, y: 0}
m_Offset: {x: 0, y: 0}
- _MainTex:
m_Texture: {fileID: 2800000, guid: e63f82dce03ddec43891c66e2945190b, type: 3}
m_Texture: {fileID: 0}
m_Scale: {x: 128, y: 0}
m_Offset: {x: 0, y: 0}
- _MetallicGlossMap:
m_Texture: {fileID: 0}
m_Texture: {fileID: 2800000, guid: 19bee659c965a1f43821279858da805d, type: 3}
m_Scale: {x: 1, y: 1}
m_Offset: {x: 0, y: 0}
- _OcclusionMap:
m_Texture: {fileID: 0}
m_Texture: {fileID: 2800000, guid: f181c9819c5bc7b488b3eedee117d8e0, type: 3}
m_Scale: {x: 1, y: 1}
m_Offset: {x: 0, y: 0}
- _ParallaxMap:
@ -63,15 +69,15 @@ Material:
m_Ints: []
m_Floats:
- _BumpScale: 1
- _Cutoff: 0.5
- _Cutoff: 0
- _DetailNormalMapScale: 1
- _DstBlend: 0
- _GlossMapScale: 1
- _Glossiness: 0.65
- _GlossMapScale: 0.05
- _Glossiness: 0.1
- _GlossyReflections: 1
- _Metallic: 0
- _Metallic: 0.2
- _Mode: 0
- _OcclusionStrength: 1
- _OcclusionStrength: 0
- _Parallax: 0.02
- _SmoothnessTextureChannel: 0
- _SpecularHighlights: 1
@ -79,7 +85,11 @@ Material:
- _UVSec: 0
- _ZWrite: 1
m_Colors:
- _Color: {r: 1, g: 1, b: 1, a: 1}
- _EmissionColor: {r: 0.5, g: 0.5, b: 0.5, a: 1}
- _SpecColor: {r: 0.21960786, g: 0.21960786, b: 0.21960786, a: 1}
- _AlphaColor: {r: 0.3773585, g: 0.3773585, b: 0.3773585, a: 1}
- _BlueColor: {r: 1, g: 1, b: 1, a: 1}
- _Color: {r: 1, g: 0.97547174, b: 0.97547174, a: 1}
- _EmissionColor: {r: 0.078431375, g: 0.078431375, b: 0.078431375, a: 1}
- _GreenColor: {r: 1, g: 1, b: 1, a: 0}
- _RedColor: {r: 0.8274511, g: 0.1254902, b: 0.8078432, a: 1}
- _SpecColor: {r: 0.047169805, g: 0.047169805, b: 0.047169805, a: 1}
m_BuildTextureStacks: []

View file

@ -70,7 +70,7 @@ Material:
- _GlossMapScale: 1
- _Glossiness: 0.65
- _GlossyReflections: 1
- _Metallic: 0
- _Metallic: 0.65
- _Mode: 0
- _OcclusionStrength: 1
- _Parallax: 0.02
@ -81,6 +81,6 @@ Material:
- _ZWrite: 1
m_Colors:
- _Color: {r: 1, g: 1, b: 1, a: 1}
- _EmissionColor: {r: 0.6766883, g: 0.6766883, b: 0.6766883, a: 1}
- _EmissionColor: {r: 0.78431374, g: 0.6766883, b: 0.6766883, a: 1}
- _SpecColor: {r: 0.2, g: 0.2, b: 0.2, a: 1}
m_BuildTextureStacks: []

View file

@ -99,7 +99,7 @@ Material:
m_Colors:
- _BlendColor: {r: 1, g: 1, b: 1, a: 1}
- _Color: {r: 1, g: 1, b: 1, a: 1}
- _EmissionColor: {r: 0.6766883, g: 0.6766883, b: 0.6766883, a: 1}
- _EmissionColor: {r: 0.78431374, g: 0.6766883, b: 0.6766883, a: 1}
- _SpecColor: {r: 0.2, g: 0.2, b: 0.2, a: 1}
- _Specular: {r: 0, g: 0, b: 0, a: 0}
m_BuildTextureStacks: []

View file

@ -103,13 +103,30 @@ namespace HeavenStudio.Games.Loaders
new GameAction("fade background", "Background Color")
{
function = delegate {Airboarder.instance.BackgroundColor(eventCaller.currentEntity.beat, eventCaller.currentEntity.length, eventCaller.currentEntity["colorStart"], eventCaller.currentEntity["colorEnd"], eventCaller.currentEntity["ease"]); },
function = delegate {Airboarder.instance.BackgroundColor(eventCaller.currentEntity.beat, eventCaller.currentEntity.length, eventCaller.currentEntity["colorStart"], eventCaller.currentEntity["colorEnd"], eventCaller.currentEntity["cloudStart"], eventCaller.currentEntity["cloudEnd"], eventCaller.currentEntity["ease"]); },
defaultLength = 4f,
resizable = true,
parameters = new List<Param>()
{
new Param("colorStart", Color.white, "Start Color", "Set the color at the start of the event."),
new Param("colorEnd", Airboarder.defaultBGColor, "End Color", "Set the color at the end of the event."),
new Param("colorStart", Airboarder.defaultBGColor, "Sky Start Color", "Set the sky color at the start of the event."),
new Param("colorEnd", Airboarder.defaultBGColor, "Sky End Color", "Set the sky color at the end of the event."),
new Param("cloudStart", Color.white, "Cloud Start Color", "Set the cloud color at the start of the event."),
new Param("cloudEnd", Color.white, "Cloud End Color", "Set the cloud color at the end of the event."),
new Param("ease", Util.EasingFunction.Ease.Linear, "Ease", "Set the easing of the action.")
}
},
new GameAction("fade floor", "Floor Color")
{
function = delegate {Airboarder.instance.FloorColor(eventCaller.currentEntity.beat, eventCaller.currentEntity.length, eventCaller.currentEntity["colorStart"], eventCaller.currentEntity["colorEnd"], eventCaller.currentEntity["stripeStart"], eventCaller.currentEntity["stripeEnd"], eventCaller.currentEntity["ease"]);},
defaultLength = 4f,
resizable = true,
parameters = new List<Param>()
{
new Param("colorStart", Color.white, "Wide Stripe Start Color", "Set the color of the wide stripes at the start of the event."),
new Param("colorEnd", Color.white, "Wide Stripe End Color", "Set the color of the wide stripes at the end of the event."),
new Param("stripeStart", Airboarder.defaultStripeColor, "Thin Stripe Start Color", "Set the color of the thin stripes at the start of the event."),
new Param("stripeEnd", Airboarder.defaultStripeColor, "Thin Stripe End Color", "Set the color of the thin stripes at the end of the event."),
new Param("ease", Util.EasingFunction.Ease.Linear, "Ease", "Set the easing of the action.")
}
},
@ -159,12 +176,20 @@ namespace HeavenStudio.Games
public static Airboarder instance;
public static Color defaultBGColor = new Color(0.9921569f, 0.7686275f, 0.9921569f);
public static Color defaultFloorColor = Color.white;
public static Color defaultStripeColor = new Color(0.8274511f, 0.1254902f, 0.8078432f);
public static Color defaultCloudColor = Color.white;
private ColorEase bgColorEase = new(defaultBGColor);
private ColorEase cloudColorEase = new(defaultCloudColor);
private ColorEase[] colorEases = new ColorEase[2];
public bool wantsCrouch;
[Header("Materials")]
[SerializeField] private Material bgMaterial;
[SerializeField] private Material fadeMaterial;
[SerializeField] private Material[] floorMaterial;
[SerializeField] private Material floorMaterial;
[SerializeField] private Material cloudMaterial;
[Header("Camera")]
[SerializeField] Transform cameraPivot;
@ -204,6 +229,10 @@ namespace HeavenStudio.Games
private void Awake()
{
colorEases = new ColorEase[] {
new(Color.white),
new(new Color (0.8274511F, 0.1254902F, 0.8078432F)),
};
instance = this;
SetupBopRegion("airboarder", "bop", "auto");
wantsCrouch = false;
@ -254,6 +283,8 @@ namespace HeavenStudio.Games
EntityPreCheck(Conductor.instance.songPositionInBeatsAsDouble);
bgMaterial.color = defaultBGColor;
fadeMaterial.color = defaultBGColor;
cloudMaterial.color = defaultCloudColor;
}
void EntityPreCheck(double beat)
@ -305,7 +336,8 @@ namespace HeavenStudio.Games
{
var cond = Conductor.instance;
var currentBeat = cond.songPositionInBeatsAsDouble;
BackgroundColorUpdate();
ColorUpdate();
float normalizedBeat = Conductor.instance.GetPositionFromBeat(startBeat, 5f);
@ -313,9 +345,6 @@ namespace HeavenStudio.Games
Floor.speed = 0;
Dog.Play("run", 0, normalizedBeat*7.5f);
Dog.Play("wag",1,normalizedBeat*2.5f);
CPU1.Play("hover",0,normalizedBeat);
CPU2.Play("hover",0,normalizedBeat);
Player.Play("hover",0,normalizedBeat);
if (cond.isPlaying && !cond.isPaused){
@ -356,20 +385,32 @@ namespace HeavenStudio.Games
}
private ColorEase bgColorEase = new(defaultBGColor);
//call this in update
private void BackgroundColorUpdate()
private void ColorUpdate()
{
bgMaterial.color = bgColorEase.GetColor();
fadeMaterial.color = bgColorEase.GetColor();
cloudMaterial.color = cloudColorEase.GetColor();
floorMaterial.SetColor("_BlueColor", colorEases[0].GetColor());
floorMaterial.SetColor("_RedColor", colorEases[1].GetColor());
}
public void BackgroundColor(double beat, float length, Color startColor, Color endColor, int ease)
public void BackgroundColor(double beat, float length, Color startColor, Color endColor, Color startCloud, Color endCloud, int ease)
{
bgColorEase = new(beat, length, startColor, endColor, ease);
cloudColorEase = new(beat, length, startCloud, endCloud, ease);
}
public void FloorColor(double beat, float length, Color startColor, Color endColor, Color startStripe, Color endStripe, int ease)
{
colorEases = new ColorEase[] {
new(beat, length, startColor, endColor, ease),
new(beat, length, startStripe, endStripe, ease),
};
}
private void PersistColor(double beat)
{
@ -378,7 +419,15 @@ namespace HeavenStudio.Games
{
allEventsBeforeBeat.Sort((x, y) => x.beat.CompareTo(y.beat)); //just in case
var lastEvent = allEventsBeforeBeat[^1];
BackgroundColor(lastEvent.beat, lastEvent.length, lastEvent["colorStart"], lastEvent["colorEnd"], lastEvent["ease"]);
BackgroundColor(lastEvent.beat, lastEvent.length, lastEvent["colorStart"], lastEvent["colorEnd"], lastEvent["cloudStart"], lastEvent["cloudEnd"], lastEvent["ease"]);
}
var allEventsBeforeBeatF = EventCaller.GetAllInGameManagerList("airboarder", new string[] { "fade floor" }).FindAll(x => x.beat < beat);
if (allEventsBeforeBeatF.Count > 0)
{
allEventsBeforeBeatF.Sort((x, y) => x.beat.CompareTo(y.beat)); //just in case
var lastEventF = allEventsBeforeBeatF[^1];
FloorColor(lastEventF.beat, lastEventF.length, lastEventF["colorStart"], lastEventF["colorEnd"], lastEventF["stripeStart"], lastEventF["stripeEnd"], lastEventF["ease"]);
}
}