bgfx/3rdparty/glsl-optimizer/tests/fragment/unity-Hidden_Tree_Optimized_Bark_Shader-in.txt

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2012-04-03 23:30:07 -04:00
struct v2f_vertex_lit {
vec2 uv;
vec4 diff;
vec4 spec;
};
struct v2f_img {
vec4 pos;
vec2 uv;
};
struct appdata_img {
vec4 vertex;
vec2 texcoord;
};
struct SurfaceOutput {
vec3 Albedo;
vec3 Normal;
vec3 Emission;
float Specular;
float Gloss;
float Alpha;
};
struct appdata_full {
vec4 vertex;
vec4 tangent;
vec3 normal;
vec4 texcoord;
vec4 texcoord1;
vec4 color;
};
struct LeafSurfaceOutput {
vec3 Albedo;
vec3 Normal;
vec3 Emission;
vec3 Translucency;
float Specular;
float Gloss;
float Alpha;
};
struct Input {
vec2 uv_MainTex;
vec4 color;
};
struct v2f_surf {
vec4 pos;
float fog;
vec2 hip_pack0;
vec4 lop_color;
vec3 lightDir;
vec3 viewDir;
vec3 _LightCoord;
};
uniform sampler2D _BumpSpecMap;
uniform vec4 _LightColor0;
uniform samplerCube _LightTexture0;
uniform sampler2D _LightTextureB0;
uniform sampler2D _MainTex;
uniform sampler2D _TranslucencyMap;
vec4 UnpackNormal( in vec4 packednormal );
void surf( in Input IN, inout SurfaceOutput o );
vec4 LightingTreeBark( in SurfaceOutput s, in vec3 lightDir, in vec3 viewDir, in float atten );
vec4 frag_surf( in v2f_surf IN );
vec4 UnpackNormal( in vec4 packednormal ) {
vec4 normal;
normal.xy = ((packednormal.wy * 2.00000) - 1.00000);
normal.z = sqrt( ((1.00000 - (normal.x * normal.x )) - (normal.y * normal.y )) );
return normal;
}
void surf( in Input IN, inout SurfaceOutput o ) {
vec4 c;
vec4 trngls;
vec4 norspc;
c = texture2D( _MainTex, IN.uv_MainTex);
o.Albedo = (c.xyz * IN.color.xyz );
trngls = texture2D( _TranslucencyMap, IN.uv_MainTex);
o.Gloss = trngls.w ;
o.Alpha = IN.color.w ;
norspc = texture2D( _BumpSpecMap, IN.uv_MainTex);
o.Specular = norspc.x ;
o.Normal = vec3( UnpackNormal( norspc));
}
vec4 LightingTreeBark( in SurfaceOutput s, in vec3 lightDir, in vec3 viewDir, in float atten ) {
vec3 h;
float diff;
float nh;
float spec;
vec4 c;
h = normalize( (lightDir + viewDir) );
diff = max( 0.000000, dot( s.Normal, lightDir));
nh = max( 0.000000, dot( s.Normal, h));
spec = (pow( nh, (s.Specular * 128.000)) * s.Gloss);
c.xyz = ((((s.Albedo * _LightColor0.xyz ) * diff) + (_LightColor0.xyz * spec)) * (atten * 2.00000));
c.w = (((_LightColor0.w * spec) * atten) * s.Alpha);
return c;
}
vec4 frag_surf( in v2f_surf IN ) {
Input surfIN;
SurfaceOutput o;
vec3 lightDir;
vec4 c;
surfIN.uv_MainTex = IN.hip_pack0.xy ;
surfIN.color = IN.lop_color;
o.Albedo = vec3( 0.000000);
o.Emission = vec3( 0.000000);
o.Specular = 0.000000;
o.Alpha = 0.000000;
o.Gloss = 0.000000;
surf( surfIN, o);
lightDir = IN.lightDir;
lightDir = normalize( lightDir );
c = LightingTreeBark( o, lightDir, normalize( vec3( IN.viewDir) ), (texture2D( _LightTextureB0, vec2( vec2( dot( IN._LightCoord, IN._LightCoord)))).w * textureCube( _LightTexture0, IN._LightCoord).w ));
c.w = 0.000000;
return c;
}
varying vec4 xlv_FOG;
void main() {
vec4 xl_retval;
v2f_surf xlt_IN;
xlt_IN.pos = vec4(0.0);
xlt_IN.fog = float( xlv_FOG);
xlt_IN.hip_pack0 = vec2( gl_TexCoord[0]);
xlt_IN.lop_color = vec4( gl_Color);
xlt_IN.lightDir = vec3( gl_TexCoord[1]);
xlt_IN.viewDir = vec3( gl_TexCoord[2]);
xlt_IN._LightCoord = vec3( gl_TexCoord[3]);
xl_retval = frag_surf( xlt_IN);
gl_FragData[0] = vec4( xl_retval);
}