//Shader "Hidden/Amazing Assets/Curved World/Nature/Terrain/#BEND_NAME_SMALL# #ID#/Details/Vertexlit" 
Shader "Hidden/TerrainEngine/Details/Vertexlit" 

{
Properties 
{
 _MainTex ("Main Texture", 2D) = "white" { }
}


SubShader 
{
    Tags { "RenderType"="CurvedWorld_Opaque" }
    LOD 200

CGPROGRAM
#pragma surface surf Lambert vertex:vert addshadow


#define CURVEDWORLD_BEND_TYPE_#BEND_NAME_BIG#
#define CURVEDWORLD_BEND_ID_#ID#
#pragma shader_feature_local CURVEDWORLD_DISABLED_ON
//#define CURVEDWORLD_NORMAL_TRANSFORMATION_ON
#include "../../../../Core/CurvedWorldTransform.cginc" 


sampler2D _MainTex;

struct Input 
{
    float2 uv_MainTex;
    fixed4 color : COLOR;
};


void vert (inout appdata_full v, out Input o) 
{
    UNITY_INITIALIZE_OUTPUT(Input,o);

    #if defined(CURVEDWORLD_IS_INSTALLED) && !defined(CURVEDWORLD_DISABLED_ON)
	    #ifdef CURVEDWORLD_NORMAL_TRANSFORMATION_ON
            CURVEDWORLD_TRANSFORM_VERTEX_AND_NORMAL(v.vertex, v.normal, v.tangent)
        #else
            CURVEDWORLD_TRANSFORM_VERTEX(v.vertex)
        #endif
    #endif

}

void surf (Input IN, inout SurfaceOutput o) 
{
    fixed4 c = tex2D(_MainTex, IN.uv_MainTex) * IN.color;
    o.Albedo = c.rgb;
    o.Alpha = c.a;
}

ENDCG
}


SubShader { 
 Tags { "RenderType"="Opaque" }
 Pass {
  Tags { "LIGHTMODE"="Vertex" "RenderType"="CurvedWorld_Opaque" }
CGPROGRAM
#pragma vertex vert
#pragma fragment frag
#pragma target 2.0
#include "UnityCG.cginc"
#pragma multi_compile_fog
#define USING_FOG (defined(FOG_LINEAR) || defined(FOG_EXP) || defined(FOG_EXP2))

// ES2.0/WebGL can not do loops with non-constant-expression iteration counts :(
#if defined(SHADER_API_GLES)
  #define LIGHT_LOOP_LIMIT 8
#else
  #define LIGHT_LOOP_LIMIT unity_VertexLightParams.x
#endif

// Some ES3 drivers (e.g. older Adreno) have problems with the light loop
#if defined(SHADER_API_GLES3) && !defined(SHADER_API_DESKTOP) && (defined(SPOT) || defined(POINT))
  #define LIGHT_LOOP_ATTRIBUTE UNITY_UNROLL
#else
  #define LIGHT_LOOP_ATTRIBUTE
#endif
#define ENABLE_SPECULAR 1

// Compile specialized variants for when positional (point/spot) and spot lights are present
#pragma multi_compile __ POINT SPOT


#define CURVEDWORLD_BEND_TYPE_#BEND_NAME_BIG#
#define CURVEDWORLD_BEND_ID_#ID#
#include "../../../../Core/CurvedWorldTransform.cginc" 


// Compute illumination from one light, given attenuation
half3 computeLighting (int idx, half3 dirToLight, half3 eyeNormal, half3 viewDir, half4 diffuseColor, half shininess, half atten, inout half3 specColor) {
  half NdotL = max(dot(eyeNormal, dirToLight), 0.0);
  // diffuse
  half3 color = NdotL * diffuseColor.rgb * unity_LightColor[idx].rgb;
  return color * atten;
}

// Compute attenuation & illumination from one light
half3 computeOneLight(int idx, float3 eyePosition, half3 eyeNormal, half3 viewDir, half4 diffuseColor, half shininess, inout half3 specColor) {
  float3 dirToLight = unity_LightPosition[idx].xyz;
  half att = 1.0;
  #if defined(POINT) || defined(SPOT)
    dirToLight -= eyePosition * unity_LightPosition[idx].w;
    // distance attenuation
    float distSqr = dot(dirToLight, dirToLight);
    att /= (1.0 + unity_LightAtten[idx].z * distSqr);
    if (unity_LightPosition[idx].w != 0 && distSqr > unity_LightAtten[idx].w) att = 0.0; // set to 0 if outside of range
    distSqr = max(distSqr, 0.000001); // don't produce NaNs if some vertex position overlaps with the light
    dirToLight *= rsqrt(distSqr);
    #if defined(SPOT)
      // spot angle attenuation
      half rho = max(dot(dirToLight, unity_SpotDirection[idx].xyz), 0.0);
      half spotAtt = (rho - unity_LightAtten[idx].x) * unity_LightAtten[idx].y;
      att *= saturate(spotAtt);
    #endif
  #endif
  att *= 0.5; // passed in light colors are 2x brighter than what used to be in FFP
  return min (computeLighting (idx, dirToLight, eyeNormal, viewDir, diffuseColor, shininess, att, specColor), 1.0);
}

// uniforms
int4 unity_VertexLightParams; // x: light count, y: zero, z: one (y/z needed by d3d9 vs loop instruction)
float4 _MainTex_ST;

// vertex shader input data
struct appdata {
  float3 pos : POSITION;
  float3 normal : NORMAL;
  half4 color : COLOR;
  float3 uv0 : TEXCOORD0;
  UNITY_VERTEX_INPUT_INSTANCE_ID
};

// vertex-to-fragment interpolators
struct v2f {
  fixed4 color : COLOR0;
  float2 uv0 : TEXCOORD0;
  #if USING_FOG
    fixed fog : TEXCOORD1;
  #endif
  float4 pos : SV_POSITION;
  UNITY_VERTEX_OUTPUT_STEREO
};

// vertex shader
v2f vert (appdata IN) {
  v2f o;
  UNITY_SETUP_INSTANCE_ID(IN);
  UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(o);


float4 vPosition = float4(IN.pos, 1);
CURVEDWORLD_TRANSFORM_VERTEX(vPosition);
IN.pos = vPosition.xyz;


  half4 color = IN.color;
  float3 eyePos = mul (UNITY_MATRIX_MV, float4(IN.pos,1)).xyz;
  half3 eyeNormal = normalize (mul ((float3x3)UNITY_MATRIX_IT_MV, IN.normal).xyz);
  half3 viewDir = 0.0;
  // lighting
  half3 lcolor = half4(0,0,0,1).rgb + color.rgb * glstate_lightmodel_ambient.rgb;
  half3 specColor = 0.0;
  half shininess = 0 * 128.0;
  LIGHT_LOOP_ATTRIBUTE for (int il = 0; il < LIGHT_LOOP_LIMIT; ++il) {
    lcolor += computeOneLight(il, eyePos, eyeNormal, viewDir, color, shininess, specColor);
  }
  color.rgb = lcolor.rgb;
  color.a = color.a;
  o.color = saturate(color);
  // compute texture coordinates
  o.uv0 = IN.uv0.xy * _MainTex_ST.xy + _MainTex_ST.zw;
  // fog
  #if USING_FOG
    float fogCoord = length(eyePos.xyz); // radial fog distance
    UNITY_CALC_FOG_FACTOR_RAW(fogCoord);
    o.fog = saturate(unityFogFactor);
  #endif
  // transform position
  o.pos = UnityObjectToClipPos(IN.pos);
  return o;
}

// textures
sampler2D _MainTex;

// fragment shader
fixed4 frag (v2f IN) : SV_Target {
  fixed4 col;
  fixed4 tex, tmp0, tmp1, tmp2;
  // SetTexture #0
  tex = tex2D (_MainTex, IN.uv0.xy);
  col.rgb = tex * IN.color;
  col *= 2;
  col.a = fixed4(1,1,1,1).a;
  // fog
  #if USING_FOG
    col.rgb = lerp (unity_FogColor.rgb, col.rgb, IN.fog);
  #endif
  return col;
}

// texenvs
//! TexEnv0: 02010103 01060004 [_MainTex] [ffffffff]
ENDCG
 }
 Pass {
  Tags { "LIGHTMODE"="VertexLM" "RenderType"="CurvedWorld_Opaque" }
CGPROGRAM
#define FOG_LINEAR_KEYWORD_DECLARED 1
#define FOG_EXP_KEYWORD_DECLARED 1
#define FOG_EXP2_KEYWORD_DECLARED 1

#include "HLSLSupport.cginc"
#define UNITY_INSTANCED_LOD_FADE
#define UNITY_INSTANCED_SH
#define UNITY_INSTANCED_LIGHTMAPSTS
#define UNITY_INSTANCED_RENDERER_BOUNDS
#include "UnityShaderVariables.cginc"
#include "UnityShaderUtilities.cginc"

        #pragma vertex vert
        #pragma fragment frag
        #pragma target 2.0
        #include "UnityCG.cginc"
        #pragma multi_compile_fog
        #define USING_FOG (defined(FOG_LINEAR) || defined(FOG_EXP) || defined(FOG_EXP2))



#define CURVEDWORLD_BEND_TYPE_#BEND_NAME_BIG#
#define CURVEDWORLD_BEND_ID_#ID#
#include "../../../../Core/CurvedWorldTransform.cginc" 



        float4 _MainTex_ST;

        struct appdata
        {
            float3 pos : POSITION;
            float3 uv1 : TEXCOORD1;
            float3 uv0 : TEXCOORD0;
            UNITY_VERTEX_INPUT_INSTANCE_ID
        };

        struct v2f
        {
            float2 uv0 : TEXCOORD0;
            float2 uv1 : TEXCOORD1;
        #if USING_FOG
            fixed fog : TEXCOORD2;
        #endif
            float4 pos : SV_POSITION;

            UNITY_VERTEX_OUTPUT_STEREO
        };

        v2f vert(appdata IN)
        {
            v2f o;
            UNITY_SETUP_INSTANCE_ID(IN);
            UNITY_INITIALIZE_VERTEX_OUTPUT_STEREO(o);


            float4 vPosition = float4(IN.pos, 1);
            CURVEDWORLD_TRANSFORM_VERTEX(vPosition);
            IN.pos = vPosition.xyz;


            o.uv0 = IN.uv1.xy * unity_LightmapST.xy + unity_LightmapST.zw;
            o.uv1 = IN.uv0.xy * _MainTex_ST.xy + _MainTex_ST.zw;

        #if USING_FOG
            float3 eyePos = UnityObjectToViewPos(IN.pos);
            float fogCoord = length(eyePos.xyz);
            UNITY_CALC_FOG_FACTOR_RAW(fogCoord);
            o.fog = saturate(unityFogFactor);
        #endif

            o.pos = UnityObjectToClipPos(IN.pos);
            return o;
        }

        sampler2D _MainTex;

        fixed4 frag(v2f IN) : SV_Target
        {
            fixed4 col;
            fixed4 tex = UNITY_SAMPLE_TEX2D(unity_Lightmap, IN.uv0.xy);
            half3 bakedColor = DecodeLightmap(tex);

            tex = tex2D(_MainTex, IN.uv1.xy);
            col.rgb = tex.rgb * bakedColor;
            col.a = 1.0f;

            #if USING_FOG
                col.rgb = lerp(unity_FogColor.rgb, col.rgb, IN.fog);
            #endif

        return col;

        }

    ENDCG
 }
}

Fallback Off
}