float xll_mod( float x, float y ) { float d = x / y; float f = fract (abs(d)) * y; return d >= 0.0 ? f : -f; } vec2 xll_mod( vec2 x, vec2 y ) { vec2 d = x / y; vec2 f = fract (abs(d)) * y; return vec2 (d.x >= 0.0 ? f.x : -f.x, d.y >= 0.0 ? f.y : -f.y); } vec3 xll_mod( vec3 x, vec3 y ) { vec3 d = x / y; vec3 f = fract (abs(d)) * y; return vec3 (d.x >= 0.0 ? f.x : -f.x, d.y >= 0.0 ? f.y : -f.y, d.z >= 0.0 ? f.z : -f.z); } vec4 xll_mod( vec4 x, vec4 y ) { vec4 d = x / y; vec4 f = fract (abs(d)) * y; return vec4 (d.x >= 0.0 ? f.x : -f.x, d.y >= 0.0 ? f.y : -f.y, d.z >= 0.0 ? f.z : -f.z, d.w >= 0.0 ? f.w : -f.w); } float xll_saturate( float x) { return clamp( x, 0.0, 1.0); } vec2 xll_saturate( vec2 x) { return clamp( x, 0.0, 1.0); } vec3 xll_saturate( vec3 x) { return clamp( x, 0.0, 1.0); } vec4 xll_saturate( vec4 x) { return clamp( x, 0.0, 1.0); } mat2 xll_saturate(mat2 m) { return mat2( clamp(m[0], 0.0, 1.0), clamp(m[1], 0.0, 1.0)); } mat3 xll_saturate(mat3 m) { return mat3( clamp(m[0], 0.0, 1.0), clamp(m[1], 0.0, 1.0), clamp(m[2], 0.0, 1.0)); } mat4 xll_saturate(mat4 m) { return mat4( clamp(m[0], 0.0, 1.0), clamp(m[1], 0.0, 1.0), clamp(m[2], 0.0, 1.0), clamp(m[3], 0.0, 1.0)); } struct v2f { highp vec4 pos; highp vec2 uv; lowp vec4 color; }; struct appdata_full { highp vec4 vertex; highp vec4 tangent; highp vec3 normal; highp vec4 texcoord; highp vec4 texcoord1; highp vec4 color; }; uniform highp float _Bias; uniform highp float _BlinkingTimeOffsScale; uniform highp vec4 _Color; uniform highp float _FadeOutDistFar; uniform highp float _FadeOutDistNear; uniform highp float _MaxGrowSize; uniform highp float _Multiplier; uniform highp float _NoiseAmount; uniform highp float _SizeGrowEndDist; uniform highp float _SizeGrowStartDist; uniform highp vec4 _Time; uniform highp float _TimeOffDuration; uniform highp float _TimeOnDuration; uniform highp float _VerticalBillboarding; uniform highp mat4 _World2Object; uniform highp vec3 _WorldSpaceCameraPos; uniform highp mat4 glstate_matrix_mvp; void CalcOrthonormalBasis( in highp vec3 dir, out highp vec3 right, out highp vec3 up ); highp float CalcFadeOutFactor( in highp float dist ); highp float CalcDistScale( in highp float dist ); v2f xlat_main( in appdata_full v ); void CalcOrthonormalBasis( in highp vec3 dir, out highp vec3 right, out highp vec3 up ) { up = (( (abs( dir.y ) > 0.999000) ) ? ( highp vec3( 0.00000, 0.00000, 1.00000) ) : ( highp vec3( 0.00000, 1.00000, 0.00000) )); right = normalize( cross( up, dir) ); up = cross( dir, right); } highp float CalcFadeOutFactor( in highp float dist ) { highp float nfadeout; highp float ffadeout; nfadeout = xll_saturate( (dist / _FadeOutDistNear) ); ffadeout = (1.00000 - xll_saturate( (max( (dist - _FadeOutDistFar), 0.00000) * 0.200000) )); ffadeout *= ffadeout; nfadeout *= nfadeout; nfadeout *= nfadeout; nfadeout *= ffadeout; return nfadeout; } highp float CalcDistScale( in highp float dist ) { highp float distScale; distScale = min( (max( (dist - _SizeGrowStartDist), 0.00000) / _SizeGrowEndDist), 1.00000); return ((distScale * distScale) * _MaxGrowSize); } v2f xlat_main( in appdata_full v ) { highp vec3 centerOffs; highp vec3 centerLocal; highp vec3 viewerLocal; highp vec3 localDir; highp float localDirLength; highp vec3 rightLocal; highp vec3 upLocal; highp float distScale; highp vec3 BBNormal; highp vec3 BBLocalPos; highp float time; highp float fracTime; highp float wave; highp float noiseTime; highp float noise; highp float noiseWave; v2f o; centerOffs = (vec3( (vec2( 0.500000) - v.color.xy ), 0.00000) * v.texcoord1.xyy ); centerLocal = (v.vertex.xyz + centerOffs.xyz ); viewerLocal = vec3( ( _World2Object * vec4( _WorldSpaceCameraPos, 1.00000) )); localDir = (viewerLocal - centerLocal); localDir.y = mix( 0.00000, localDir.y , _VerticalBillboarding); localDirLength = length( localDir ); CalcOrthonormalBasis( (localDir / localDirLength), rightLocal, upLocal); distScale = (CalcDistScale( localDirLength) * v.color.w ); BBNormal = ((rightLocal * v.normal.x ) + (upLocal * v.normal.y )); BBLocalPos = ((centerLocal - ((rightLocal * centerOffs.x ) + (upLocal * centerOffs.y ))) + (BBNormal * distScale)); time = (_Time.y + (_BlinkingTimeOffsScale * v.color.z )); fracTime = xll_mod( time, (_TimeOnDuration + _TimeOffDuration)); wave = (smoothstep( 0.00000, (_TimeOnDuration * 0.250000), fracTime) * (1.00000 - smoothstep( (_TimeOnDuration * 0.750000), _TimeOnDuration, fracTime))); noiseTime = (time * (6.28319 / _TimeOnDuration)); noise = (sin( noiseTime ) * ((0.500000 * cos( ((noiseTime * 0.636600) + 56.7272) )) + 0.500000)); noiseWave = ((_NoiseAmount * noise) + (1.00000 - _NoiseAmount)); wave = (( (_NoiseAmount < 0.0100000) ) ? ( wave ) : ( noiseWave )); wave += _Bias; o.uv = v.texcoord.xy ; o.pos = ( glstate_matrix_mvp * vec4( BBLocalPos, 1.00000) ); o.color = (((CalcFadeOutFactor( localDirLength) * _Color) * _Multiplier) * wave); return o; } attribute vec4 TANGENT; varying highp vec4 xlv_SV_POSITION; varying highp vec2 xlv_TEXCOORD0; varying lowp vec4 xlv_TEXCOORD1; void main() { v2f 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); xlv_SV_POSITION = vec4( xl_retval.pos); xlv_TEXCOORD0 = vec2( xl_retval.uv); xlv_TEXCOORD1 = vec4( xl_retval.color); }