{"baseVals":{"rating":5,"gammaadj":1.980001,"decay":0.5,"echo_zoom":0.999998,"echo_alpha":0.5,"echo_orient":3,"wave_mode":5,"wave_dots":1,"wave_thick":1,"wave_brighten":0,"darken":1,"wave_a":0.001,"wave_scale":5.552,"wave_smoothing":0.504,"wave_mystery":-1,"modwavealphastart":0.71,"modwavealphaend":1.3,"warpanimspeed":1.4595,"warpscale":2.0067,"zoom":0.9999,"warp":0.01,"sx":0.9999,"wave_g":0,"wave_b":0,"ob_r":1,"ob_g":1,"ob_b":1,"ib_size":0.26,"mv_x":64,"mv_y":48,"mv_l":0.85,"mv_r":0.5,"mv_g":0.5,"mv_b":0.5,"mv_a":0,"b1ed":0},"shapes":[{"baseVals":{"enabled":0}},{"baseVals":{"enabled":0}},{"baseVals":{"enabled":0}},{"baseVals":{"enabled":0}}],"waves":[{"baseVals":{"enabled":0}},{"baseVals":{"enabled":0}},{"baseVals":{"enabled":0}},{"baseVals":{"enabled":0}}],"init_eqs_str":"a.index2=0;a.sw=0;a.index=0;a.q22=0;a.q21=0;a.q29=0;a.q6=0;a.q1=0;a.dec_med=0;a.q5=0;a.index3=0;a.rott=0;a.is_beat=0;a.q31=0;a.q23=0;a.k1=0;a.q24=0;a.dec_slow=0;a.q4=0;a.k2=0;a.q26=0;a.p2=0;a.avg=0;a.rota=0;a.movez=0;a.beat=0;a.vol=0;a.p1=0;a.peak=0;a.q2=0;a.q27=0;a.q3=0;a.t0=0;a.q32=0;a.q7=0;a.q28=0;a.q30=0;a.v2=0;a.q20=0;a.q8=0;a.vol=0;a.p1=0;a.vx=.2;a.vy=-.1;a.kx=0;a.ky=0;","frame_eqs_str":"a.dec_med=pow(.96,div(30,a.fps));a.dec_slow=pow(.98,div(30,a.fps));a.beat=Math.max(Math.max(a.bass,a.mid),a.treb);a.avg=a.avg*a.dec_slow+a.beat*(1-a.dec_slow);a.is_beat=above(a.beat,.5+a.avg+a.peak)*above(a.time,a.t0+.2);a.t0=a.is_beat*a.time+(1-a.is_beat)*a.t0;a.peak=a.is_beat*a.beat+(1-a.is_beat)*a.peak*a.dec_med;a.index=mod(a.index+a.is_beat,8);a.index2=mod(a.index2+a.is_beat*bnot(a.index),2);a.index3=mod(a.index3+a.is_beat*bnot(a.index)*bnot(a.index2),2);a.q20=a.avg;a.q21=\na.beat;a.q22=a.peak;a.q23=a.index;a.q24=a.is_beat;a.vol=a.bass_att+a.treb_att;a.v2=a.v2*a.dec_slow+a.vol*(1-a.dec_slow);a.q26=Math.max(Math.atan(a.vol-.8*a.v2),.3);a.q27=a.index+1;a.sw=a.sw*a.dec_med+(1-a.dec_med)*mod(a.index2,2);a.q28=a.sw;a.k1=a.is_beat*bnot(a.index);a.k2=a.is_beat*bnot(a.index);a.p1=a.k1*(a.p1+1)+(1-a.k1)*a.p1;a.p2=a.dec_slow*a.p2+(1-a.dec_slow)*a.p1;a.rott=div(3.1416*a.p2,2);a.monitor=a.k1;a.q1=Math.cos(a.rott);a.q2=Math.sin(a.rott);a.q3=-a.q2;a.q4=a.q1;a.q5=Math.cos(div(a.time,\n6));a.q6=-Math.sin(div(a.time,6));a.q7=-a.q6;a.q8=a.q5;a.zoom=1;a.rot=-0;a.movez+=div(.18*(a.q1+1.1),a.fps);a.q29=a.movez;a.rota+=div(.09*(2-a.q1),a.fps);a.q30=a.rota;a.q31=2+16*Math.abs(Math.cos(div(a.time,18)));a.q32=div(Math.cos(div(a.time,23)),4);","pixel_eqs_str":"","pixel_eqs":"","warp":"vec2 xlat_mutablers;\nvec2 xlat_mutableuv1;\nvec2 xlat_mutableuv6;\n shader_body { \n  vec2 uv_1;\n  vec3 xlat_varmod_2;\n  vec2 uv2_3;\n  float ang2_4;\n  float dist_5;\n  float z_6;\n  vec3 ret_7;\n  uv_1 = uv_orig;\n  xlat_mutableuv1 = ((uv_orig - 0.5) * aspect.xy);\n  float tmpvar_8;\n  tmpvar_8 = ((16.0 * sqrt(\n    dot (xlat_mutableuv1, xlat_mutableuv1)\n  )) + time);\n  z_6 = tmpvar_8;\n  xlat_mutablers = (clamp ((\n    (sin(tmpvar_8) / cos(tmpvar_8))\n   * \n    normalize(xlat_mutableuv1)\n  ), vec2(-5.0, -5.0), vec2(5.0, 5.0)) / 2.0);\n  vec2 tmpvar_9;\n  tmpvar_9 = sin((xlat_mutableuv1 * q31));\n  dist_5 = (sqrt(dot (tmpvar_9, tmpvar_9)) * ((\n    abs(xlat_mutableuv1.x)\n   + \n    abs(xlat_mutableuv1.y)\n  ) + q32));\n  float tmpvar_10;\n  float tmpvar_11;\n  tmpvar_11 = (min (abs(\n    (tmpvar_9.y / tmpvar_9.x)\n  ), 1.0) / max (abs(\n    (tmpvar_9.y / tmpvar_9.x)\n  ), 1.0));\n  float tmpvar_12;\n  tmpvar_12 = (tmpvar_11 * tmpvar_11);\n  tmpvar_12 = (((\n    ((((\n      ((((-0.01213232 * tmpvar_12) + 0.05368138) * tmpvar_12) - 0.1173503)\n     * tmpvar_12) + 0.1938925) * tmpvar_12) - 0.3326756)\n   * tmpvar_12) + 0.9999793) * tmpvar_11);\n  tmpvar_12 = (tmpvar_12 + (float(\n    (abs((tmpvar_9.y / tmpvar_9.x)) > 1.0)\n  ) * (\n    (tmpvar_12 * -2.0)\n   + 1.570796)));\n  tmpvar_10 = (tmpvar_12 * sign((tmpvar_9.y / tmpvar_9.x)));\n  if ((abs(tmpvar_9.x) > (1e-08 * abs(tmpvar_9.y)))) {\n    if ((tmpvar_9.x < 0.0)) {\n      if ((tmpvar_9.y >= 0.0)) {\n        tmpvar_10 += 3.141593;\n      } else {\n        tmpvar_10 = (tmpvar_10 - 3.141593);\n      };\n    };\n  } else {\n    tmpvar_10 = (sign(tmpvar_9.y) * 1.570796);\n  };\n  ang2_4 = (0.1 * floor((16.0 * tmpvar_10)));\n  vec2 tmpvar_13;\n  tmpvar_13.x = cos(ang2_4);\n  tmpvar_13.y = sin(ang2_4);\n  z_6 = (1.0 - cos((8.0 * dist_5)));\n  float tmpvar_14;\n  tmpvar_14 = clamp (z_6, 0.0, 1.0);\n  z_6 = tmpvar_14;\n  float tmpvar_15;\n  tmpvar_15 = float((tmpvar_14 >= 0.5));\n  xlat_mutablers = ((q28 * xlat_mutablers) + ((1.0 - q28) * xlat_mutablers.yx));\n  uv_1 = (uv_orig + ((\n    ((1.0 - tmpvar_15) * 0.03)\n   * xlat_mutablers.yx) + (\n    ((0.5 * tmpvar_15) * tmpvar_14)\n   * \n    normalize(((0.5 * tmpvar_9) + tmpvar_13))\n  )));\n  mat2 tmpvar_16;\n  tmpvar_16[uint(0)] = _qb.xy;\n  tmpvar_16[1u] = _qb.zw;\n  xlat_mutableuv6 = (xlat_mutableuv1 * tmpvar_16);\n  vec2 tmpvar_17;\n  tmpvar_17.x = q5;\n  tmpvar_17.y = q6;\n  uv2_3 = (((0.7 * xlat_mutableuv1) + (0.3 * \n    sin(((xlat_mutableuv1 * 16.0) + (4.0 * tmpvar_17)))\n  )) * 0.2);\n  vec4 tmpvar_18;\n  tmpvar_18 = texture (sampler_main, uv_1);\n  vec3 tmpvar_19;\n  tmpvar_19 = ((tmpvar_18.xyz + vec3((\n    abs((0.01 / (sqrt(xlat_mutableuv6.x) + 0.001)))\n   * \n    (rad + 0.2)\n  ))) + vec3((q26 * clamp (\n    (0.001 / sqrt(dot (uv2_3, uv2_3)))\n  , 0.0, 1.0))));\n  xlat_varmod_2 = (1.0 - ((texture (sampler_noise_lq, \n    ((0.5 * uv_1) + (time * 0.01))\n  ) - 0.2).xyz * (tmpvar_18.xyz - \n    (0.5 * ((texture (sampler_blur1, fract(uv_1)).xyz * scale1) + bias1))\n  )));\n  ret_7 = (((\n    (1.0 - tmpvar_15)\n   * tmpvar_19) * xlat_varmod_2) + ((tmpvar_15 * tmpvar_19) * xlat_varmod_2));\n  ret_7 = ((ret_7 * 0.98) - 0.03);\n  vec4 tmpvar_20;\n  tmpvar_20.w = 1.0;\n  tmpvar_20.xyz = ret_7;\n  ret = tmpvar_20.xyz;\n }","comp":"vec3 xlat_mutableblur;\nvec3 xlat_mutableret1;\nvec2 xlat_mutableuv2;\nvec2 xlat_mutableuv3;\n shader_body { \n  vec2 uv_1;\n  float inten_2;\n  float dist_3;\n  float ang2_4;\n  uv_1 = (uv - 0.5);\n  uv_1 = (uv_1 * aspect.xy);\n  float tmpvar_5;\n  tmpvar_5 = cos(q30);\n  float tmpvar_6;\n  tmpvar_6 = sin(q30);\n  xlat_mutableuv2.x = ((uv_1.x * tmpvar_5) - (uv_1.y * tmpvar_6));\n  xlat_mutableuv2.y = ((uv_1.x * tmpvar_6) + (uv_1.y * tmpvar_5));\n  xlat_mutableuv2 = (xlat_mutableuv2 * aspect.yx);\n  dist_3 = (1.0 - fract(q29));\n  inten_2 = ((4.0 * dist_3) * (1.0 - (dist_3 * dist_3)));\n  xlat_mutableuv3 = (((3.0 * xlat_mutableuv2) * dist_3) + 0.5);\n  xlat_mutableblur = (((texture (sampler_blur1, \n    fract(xlat_mutableuv3)\n  ).xyz * scale1) + bias1) * vec3(0.8, 0.9, 1.0));\n  xlat_mutableret1 = max (vec3(0.0, 0.0, 0.0), ((texture (sampler_main, xlat_mutableuv3).xyz + xlat_mutableblur) * inten_2));\n  ang2_4 = (2.093333 + q30);\n  float tmpvar_7;\n  tmpvar_7 = cos(ang2_4);\n  float tmpvar_8;\n  tmpvar_8 = sin(ang2_4);\n  xlat_mutableuv2.x = ((uv_1.x * tmpvar_7) - (uv_1.y * tmpvar_8));\n  xlat_mutableuv2.y = ((uv_1.x * tmpvar_8) + (uv_1.y * tmpvar_7));\n  xlat_mutableuv2 = (xlat_mutableuv2 * aspect.yx);\n  dist_3 = (1.0 - fract((0.3333333 + q29)));\n  inten_2 = ((4.0 * dist_3) * (1.0 - (dist_3 * dist_3)));\n  xlat_mutableuv3 = (((3.0 * xlat_mutableuv2) * dist_3) + 0.5);\n  xlat_mutableblur = (((texture (sampler_blur1, \n    fract(xlat_mutableuv3)\n  ).xyz * scale1) + bias1) * vec3(0.8, 0.9, 1.0));\n  xlat_mutableret1 = max (xlat_mutableret1, ((texture (sampler_main, xlat_mutableuv3).xyz + xlat_mutableblur) * inten_2));\n  ang2_4 = (4.186667 + q30);\n  float tmpvar_9;\n  tmpvar_9 = cos(ang2_4);\n  float tmpvar_10;\n  tmpvar_10 = sin(ang2_4);\n  xlat_mutableuv2.x = ((uv_1.x * tmpvar_9) - (uv_1.y * tmpvar_10));\n  xlat_mutableuv2.y = ((uv_1.x * tmpvar_10) + (uv_1.y * tmpvar_9));\n  xlat_mutableuv2 = (xlat_mutableuv2 * aspect.yx);\n  dist_3 = (1.0 - fract((0.6666667 + q29)));\n  inten_2 = ((4.0 * dist_3) * (1.0 - (dist_3 * dist_3)));\n  xlat_mutableuv3 = (((3.0 * xlat_mutableuv2) * dist_3) + 0.5);\n  xlat_mutableblur = (((texture (sampler_blur1, \n    fract(xlat_mutableuv3)\n  ).xyz * scale1) + bias1) * vec3(0.8, 0.9, 1.0));\n  xlat_mutableret1 = max (xlat_mutableret1, ((texture (sampler_main, xlat_mutableuv3).xyz + xlat_mutableblur) * inten_2));\n  ang2_4 = (6.28 + q30);\n  float tmpvar_11;\n  tmpvar_11 = cos(ang2_4);\n  float tmpvar_12;\n  tmpvar_12 = sin(ang2_4);\n  xlat_mutableuv2.x = ((uv_1.x * tmpvar_11) - (uv_1.y * tmpvar_12));\n  xlat_mutableuv2.y = ((uv_1.x * tmpvar_12) + (uv_1.y * tmpvar_11));\n  xlat_mutableuv2 = (xlat_mutableuv2 * aspect.yx);\n  dist_3 = (1.0 - fract((1.0 + q29)));\n  inten_2 = ((4.0 * dist_3) * (1.0 - (dist_3 * dist_3)));\n  xlat_mutableuv3 = (((3.0 * xlat_mutableuv2) * dist_3) + 0.5);\n  xlat_mutableblur = (((texture (sampler_blur1, \n    fract(xlat_mutableuv3)\n  ).xyz * scale1) + bias1) * vec3(0.8, 0.9, 1.0));\n  xlat_mutableret1 = max (xlat_mutableret1, ((texture (sampler_main, xlat_mutableuv3).xyz + xlat_mutableblur) * inten_2));\n  vec4 tmpvar_13;\n  tmpvar_13.w = 1.0;\n  tmpvar_13.xyz = (xlat_mutableret1 - 0.1);\n  ret = tmpvar_13.xyz;\n }"}