bgfx/3rdparty/glsl-optimizer/tests/vertex/z-treeleaf-in.txt
2012-10-07 20:41:18 -07:00

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struct appdata_full {
vec4 vertex;
vec4 tangent;
vec3 normal;
vec4 texcoord;
vec4 texcoord1;
vec4 color;
};
struct v2f_surf {
vec4 pos;
vec2 hip_pack0;
vec4 lop_color;
vec3 lightDir;
vec3 viewDir;
vec2 _LightCoord;
};
uniform mat4 _LightMatrix0;
uniform vec4 _MainTex_ST;
uniform mat4 _Object2World;
uniform vec4 _Scale;
uniform float _SquashAmount;
uniform vec4 _SquashPlaneNormal;
uniform vec4 _Time;
uniform vec4 _Wind;
uniform mat4 _World2Object;
uniform vec3 _WorldSpaceCameraPos;
uniform vec4 _WorldSpaceLightPos0;
uniform mat4 glstate_matrix_invtrans_modelview0;
uniform mat4 glstate_matrix_mvp;
uniform vec4 unity_Scale;
vec4 Squash( in vec4 pos );
void ExpandBillboard( in mat4 mat, inout vec4 pos, inout vec3 normal, inout vec4 tangent );
vec4 TriangleWave( in vec4 x );
vec4 SmoothCurve( in vec4 x );
vec4 SmoothTriangleWave( in vec4 x );
vec4 AnimateVertex( in vec4 pos, in vec3 normal, in vec4 animParams );
void TreeVertLeaf( inout appdata_full v );
vec3 ObjSpaceViewDir( in vec4 v );
vec3 ObjSpaceLightDir( in vec4 v );
v2f_surf xlat_main( in appdata_full v );
vec4 Squash( in vec4 pos ) {
vec3 planeNormal;
vec3 projectedVertex;
planeNormal = _SquashPlaneNormal.xyz ;
projectedVertex = (pos.xyz - ((dot( planeNormal, vec3( pos)) + _SquashPlaneNormal.w ) * planeNormal));
pos = vec4( mix( projectedVertex, pos.xyz , vec3( _SquashAmount)), 1.00000);
return pos;
}
void ExpandBillboard( in mat4 mat, inout vec4 pos, inout vec3 normal, inout vec4 tangent ) {
float isBillboard;
vec3 norb;
vec3 tanb;
isBillboard = (1.00000 - abs( tangent.w ));
norb = vec3( normalize( ( vec4( normal, 0.000000) * mat ) ));
tanb = vec3( normalize( ( vec4( tangent.xyz , 0.000000) * mat ) ));
pos += (( vec4( normal.xy , 0.000000, 0.000000) * mat ) * isBillboard);
normal = mix( normal, norb, vec3( isBillboard));
tangent = mix( tangent, vec4( tanb, -1.00000), vec4( isBillboard));
}
vec4 TriangleWave( in vec4 x ) {
return abs( ((fract( (x + 0.500000) ) * 2.00000) - 1.00000) );
}
vec4 SmoothCurve( in vec4 x ) {
return ((x * x) * (3.00000 - (2.00000 * x)));
}
vec4 SmoothTriangleWave( in vec4 x ) {
return SmoothCurve( TriangleWave( x));
}
vec4 AnimateVertex( in vec4 pos, in vec3 normal, in vec4 animParams ) {
float fDetailAmp = 0.100000;
float fBranchAmp = 0.300000;
float fObjPhase;
float fBranchPhase;
float fVtxPhase;
vec2 vWavesIn;
vec4 vWaves;
vec2 vWavesSum;
vec3 bend;
fObjPhase = dot( _Object2World[ 3 ].xyz , vec3( 1.00000));
fBranchPhase = (fObjPhase + animParams.x );
fVtxPhase = dot( pos.xyz , vec3( (animParams.y + fBranchPhase)));
vWavesIn = (_Time.yy + vec2( fVtxPhase, fBranchPhase));
vWaves = ((fract( (vWavesIn.xxyy * vec4( 1.97500, 0.793000, 0.375000, 0.193000)) ) * 2.00000) - 1.00000);
vWaves = SmoothTriangleWave( vWaves);
vWavesSum = (vWaves.xz + vWaves.yw );
bend = ((animParams.y * fDetailAmp) * normal.xyz );
bend.y = (animParams.w * fBranchAmp);
pos.xyz += (((vWavesSum.xyx * bend) + ((_Wind.xyz * vWavesSum.y ) * animParams.w )) * _Wind.w );
pos.xyz += (animParams.z * _Wind.xyz );
return pos;
}
void TreeVertLeaf( inout appdata_full v ) {
ExpandBillboard( glstate_matrix_invtrans_modelview0, v.vertex, v.normal, v.tangent);
v.vertex.xyz *= _Scale.xyz ;
v.vertex = AnimateVertex( v.vertex, v.normal, vec4( v.color.xy , v.texcoord1.xy ));
v.vertex = Squash( v.vertex);
v.color = vec4( 1.00000, 1.00000, 1.00000, v.color.w );
v.normal = normalize( v.normal );
v.tangent.xyz = normalize( v.tangent.xyz );
}
vec3 ObjSpaceViewDir( in vec4 v ) {
vec3 objSpaceCameraPos;
objSpaceCameraPos = (( _World2Object * vec4( _WorldSpaceCameraPos.xyz , 1.00000) ).xyz * unity_Scale.w );
return (objSpaceCameraPos - v.xyz );
}
vec3 ObjSpaceLightDir( in vec4 v ) {
vec3 objSpaceLightPos;
objSpaceLightPos = ( _World2Object * _WorldSpaceLightPos0 ).xyz ;
return objSpaceLightPos.xyz ;
}
v2f_surf xlat_main( in appdata_full v ) {
v2f_surf o;
vec3 binormal;
mat3 rotation;
TreeVertLeaf( v);
o.pos = ( glstate_matrix_mvp * v.vertex );
o.hip_pack0.xy = ((v.texcoord.xy * _MainTex_ST.xy ) + _MainTex_ST.zw );
o.lop_color = v.color;
binormal = (cross( v.normal, v.tangent.xyz ) * v.tangent.w );
rotation = mat3( v.tangent.x , binormal.x , v.normal.x , v.tangent.y , binormal.y , v.normal.y , v.tangent.z , binormal.z , v.normal.z );
o.lightDir = ( rotation * ObjSpaceLightDir( v.vertex) );
o.viewDir = ( rotation * ObjSpaceViewDir( v.vertex) );
o._LightCoord = ( _LightMatrix0 * ( _Object2World * v.vertex ) ).xy ;
return o;
}
attribute vec4 TANGENT;
varying vec2 xlv_TEXCOORD0;
varying vec4 xlv_COLOR0;
varying vec3 xlv_TEXCOORD1;
varying vec3 xlv_TEXCOORD2;
varying vec2 xlv_TEXCOORD3;
void main() {
v2f_surf xl_retval;
appdata_full xlt_v;
xlt_v.vertex = vec4( gl_Vertex);
xlt_v.tangent = vec4( TANGENT);
xlt_v.normal = vec3( gl_Normal);
xlt_v.texcoord = vec4( gl_MultiTexCoord0);
xlt_v.texcoord1 = vec4( gl_MultiTexCoord1);
xlt_v.color = vec4( gl_Color);
xl_retval = xlat_main( xlt_v);
gl_Position = vec4( xl_retval.pos);
xlv_TEXCOORD0 = vec2( xl_retval.hip_pack0);
xlv_COLOR0 = vec4( xl_retval.lop_color);
xlv_TEXCOORD1 = vec3( xl_retval.lightDir);
xlv_TEXCOORD2 = vec3( xl_retval.viewDir);
xlv_TEXCOORD3 = vec2( xl_retval._LightCoord);
}