holopy3/Assets/PlattarExporter/UnityGLTF/Shaders/GLTFStandardInput.cginc

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2021-01-28 12:07:52 +00:00
// Upgrade NOTE: replaced 'UNITY_INSTANCE_ID' with 'UNITY_VERTEX_INPUT_INSTANCE_ID'
#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 _DetailAlbedoMap;
float4 _DetailAlbedoMap_ST;
sampler2D _BumpMap;
half _BumpScale;
sampler2D _DetailMask;
sampler2D _DetailNormalMap;
half _DetailNormalMapScale;
sampler2D _SpecGlossMap;
sampler2D _MetallicGlossMap;
half _Metallic;
half _Glossiness;
half _GlossMapScale;
half _Roughness;
sampler2D _MetallicRoughnessMap;
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 = _Color.rgb * tex2D (_MainTex, texcoords.xy).rgb;
#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 MetallicRough(float2 uv)
{
half2 mr;
fixed4 mrmap = tex2D(_MetallicRoughnessMap, uv);
mr.x = mrmap.b * _Metallic;
mr.y = mrmap.g * _Roughness;
return mr;
}
half2 MetallicGloss(float2 uv)
{
half2 mg;
fixed4 mr = tex2D(_MetallicRoughnessMap, uv);
mg.x = mr.b * _Metallic;
mg.y = 1 - (mr.g * _Roughness);
return mg;
}
half3 Emission(float2 uv)
{
#ifndef _EMISSION
return 0;
#else
return tex2D(_EmissionMap, uv).rgb * _EmissionColor.rgb;
#endif
}
// see this link regarding unpacking instructions:
// https://github.com/KhronosGroup/glTF/blob/2.0/specification/2.0/schema/material.normalTextureInfo.schema.json#L13
half3 UnpackScaleNormalGLTF(half4 packednormal, half bumpScale)
{
float3 normal = normalize(packednormal.xyz);
normal = (normal*2.0 - 1.0);
normal.xy *= bumpScale;
return normalize(normal);
}
#ifdef _NORMALMAP
half3 NormalInTangentSpace(float4 texcoords)
{
half3 normalTangent = UnpackScaleNormalGLTF(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 = UnpackScaleNormalGLTF(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