{"baseVals":{"rating":4,"decay":0.99,"wave_mode":5,"wave_dots":1,"wave_thick":1,"modwavealphabyvolume":1,"wave_brighten":0,"wave_a":2.965,"wave_scale":23.563,"wave_smoothing":0.9,"modwavealphastart":0.83,"modwavealphaend":1.15,"warpscale":3.138,"zoom":1.053,"warp":0.263,"wave_r":0.49,"wave_g":0.49,"wave_b":0.49,"mv_a":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.dx_residual=0;a.dy_residual=0;a.bass_thresh=0;a.q1=div(Math.floor(randint(1E3)),1E3);a.q2=div(Math.floor(randint(1E3)),1E3);a.q3=div(Math.floor(randint(1E3)),1E3);","frame_eqs_str":"a.wave_r+=.65*(.6*Math.sin(1.437*a.time)+.4*Math.sin(.97*a.time));a.wave_g+=.65*(.6*Math.sin(1.344*a.time)+.4*Math.sin(.841*a.time));a.wave_b+=.65*(.6*Math.sin(1.251*a.time)+.4*Math.sin(1.055*a.time));a.rot+=.01*(.6*Math.sin(.381*a.time)+.4*Math.sin(.579*a.time));a.cx+=.21*(.6*Math.sin(.374*a.time)+.4*Math.sin(.294*a.time));a.cy+=.21*(.6*Math.sin(.393*a.time)+.4*Math.sin(.223*a.time));a.dx+=.01*(.6*Math.sin(.234*a.time)+.4*Math.sin(.277*a.time));a.dy+=.01*(.6*Math.sin(.284*\na.time)+.4*Math.sin(.247*a.time));a.decay-=.01*equal(mod(a.frame,6),0);a.dx+=a.dx_residual;a.dy+=a.dy_residual;a.bass_thresh=2*above(a.bass_att,a.bass_thresh)+(1-above(a.bass_att,a.bass_thresh))*(.96*(a.bass_thresh-1.3)+1.3);a.dx_residual=.016*equal(a.bass_thresh,2)*Math.sin(7*a.time)+(1-equal(a.bass_thresh,2))*a.dx_residual;a.dy_residual=.012*equal(a.bass_thresh,2)*Math.sin(9*a.time)+(1-equal(a.bass_thresh,2))*a.dy_residual;","pixel_eqs_str":"","pixel_eqs":"","warp":" shader_body { \n  vec2 my_uv_1;\n  vec3 ret_2;\n  vec2 tmpvar_3;\n  tmpvar_3 = (vec2(1280.0, 1024.0) * texsize.zw);\n  float tmpvar_4;\n  vec2 tmpvar_5;\n  tmpvar_5 = (uv + vec2(0.005, 0.0));\n  vec2 tmpvar_6;\n  tmpvar_6 = (uv - vec2(0.005, 0.0));\n  tmpvar_4 = (((\n    (texture (sampler_blur2, tmpvar_5).xyz * scale2)\n   + bias2) - (\n    (texture (sampler_blur2, tmpvar_6).xyz * scale2)\n   + bias2)).x * tmpvar_3.x);\n  float tmpvar_7;\n  vec2 tmpvar_8;\n  tmpvar_8 = (uv + vec2(0.0, 0.005));\n  vec2 tmpvar_9;\n  tmpvar_9 = (uv - vec2(0.0, 0.005));\n  tmpvar_7 = (((\n    (texture (sampler_blur2, tmpvar_8).xyz * scale2)\n   + bias2) - (\n    (texture (sampler_blur2, tmpvar_9).xyz * scale2)\n   + bias2)).x * tmpvar_3.y);\n  vec2 tmpvar_10;\n  tmpvar_10.x = tmpvar_4;\n  tmpvar_10.y = tmpvar_7;\n  vec2 tmpvar_11;\n  tmpvar_11.x = (((\n    (texture (sampler_blur2, tmpvar_5).xyz * scale2)\n   + bias2) - (\n    (texture (sampler_blur2, tmpvar_6).xyz * scale2)\n   + bias2)).x * tmpvar_3.x);\n  tmpvar_11.y = (((\n    (texture (sampler_blur2, tmpvar_8).xyz * scale2)\n   + bias2) - (\n    (texture (sampler_blur2, tmpvar_9).xyz * scale2)\n   + bias2)).x * tmpvar_3.y);\n  ret_2.x = texture (sampler_fw_main, ((uv - (tmpvar_10 * 0.01)) + (tmpvar_11 * 0.003))).x;\n  vec4 tmpvar_12;\n  tmpvar_12 = texture (sampler_blur3, uv);\n  ret_2.x = (ret_2.x + ((ret_2.x - \n    ((tmpvar_12.xyz * scale3) + bias3)\n  .x) * 0.1));\n  ret_2.x = (ret_2.x + 0.004);\n  vec2 tmpvar_13;\n  tmpvar_13.x = tmpvar_7;\n  tmpvar_13.y = -(tmpvar_4);\n  my_uv_1 = (uv + ((tmpvar_13 * 0.05) * (1.2 - \n    ((tmpvar_12.xyz * scale3) + bias3)\n  .y)));\n  ret_2.z = texture (sampler_fw_main, my_uv_1).z;\n  vec2 x_14;\n  x_14 = (my_uv_1 - uv);\n  ret_2.z = (ret_2.z + ((\n    ((ret_2.z - ((texture (sampler_blur1, uv).xyz * scale1) + bias1).z) * sqrt(dot (x_14, x_14)))\n   * 180.0) / sqrt(\n    dot (tmpvar_3, tmpvar_3)\n  )));\n  ret_2.z = (ret_2.z * 0.8);\n  ret_2.z = (ret_2.z + 0.004);\n  vec2 tmpvar_15;\n  tmpvar_15.x = -(tmpvar_7);\n  tmpvar_15.y = tmpvar_4;\n  my_uv_1 = (tmpvar_15 * 0.045);\n  vec2 tmpvar_16;\n  tmpvar_16.x = (((\n    (texture (sampler_blur2, (uv + vec2(0.01, 0.0))).xyz * scale2)\n   + bias2) - (\n    (texture (sampler_blur2, (uv - vec2(0.01, 0.0))).xyz * scale2)\n   + bias2)).y * tmpvar_3.x);\n  tmpvar_16.y = (((\n    (texture (sampler_blur2, (uv + vec2(0.0, 0.01))).xyz * scale2)\n   + bias2) - (\n    (texture (sampler_blur2, (uv - vec2(0.0, 0.01))).xyz * scale2)\n   + bias2)).y * tmpvar_3.y);\n  my_uv_1 = (my_uv_1 + (uv - (tmpvar_16 * 0.03)));\n  ret_2.y = texture (sampler_fw_main, my_uv_1).y;\n  ret_2.y = (ret_2.y + ((\n    (ret_2.y - ((texture (sampler_blur3, my_uv_1).xyz * scale3) + bias3).y)\n   * 0.1) + 0.01));\n  vec4 tmpvar_17;\n  tmpvar_17.w = 1.0;\n  tmpvar_17.xyz = ret_2;\n  ret = tmpvar_17.xyz;\n }","comp":" shader_body { \n  vec3 ret_1;\n  vec4 tmpvar_2;\n  tmpvar_2 = texture (sampler_main, uv);\n  vec2 theta_3;\n  theta_3 = (1.55 * tmpvar_2.xy);\n  vec2 tmpvar_4;\n  tmpvar_4 = (((\n    (uv * 0.8)\n   + \n    (0.1 * (sin(theta_3) / cos(theta_3)))\n  ) - (0.02 * \n    sin((1.33 * tmpvar_2.yx))\n  )) - (0.01 * bass_att));\n  ret_1 = (texture (sampler_main, tmpvar_4).xyz + ((texture (sampler_blur1, tmpvar_4).xyz * scale1) + bias1));\n  vec3 tmpvar_5;\n  tmpvar_5.xz = vec2(0.3, 1.8);\n  tmpvar_5.y = (1.0 + (0.5 * roam_sin.x));\n  vec3 tmpvar_6;\n  tmpvar_6 = clamp (pow (vec3(dot (ret_1, vec3(0.32, 0.49, 0.29))), tmpvar_5), 0.0, 1.0);\n  ret_1 = (tmpvar_6 * (1.25 * tmpvar_6));\n  vec4 tmpvar_7;\n  tmpvar_7.w = 1.0;\n  tmpvar_7.xyz = ret_1;\n  ret = tmpvar_7.xyz;\n }"}