home *** CD-ROM | disk | FTP | other *** search
/ PC World Komputer 2010 April / PCWorld0410.iso / redakcyjne / programy / MediaMonkey 3.1.0.1256 / MediaMonkey_3.1.0.1256.exe / {app} / Plugins / MilkDrop / Rozzor - Learning Curve (Invert tweak).milk < prev    next >
INI File  |  2008-02-11  |  2KB  |  85 lines

  1. [preset00]
  2. fRating=3.000000
  3. fGammaAdj=1.000000
  4. fDecay=0.960000
  5. fVideoEchoZoom=0.010000
  6. fVideoEchoAlpha=0.000000
  7. nVideoEchoOrientation=0
  8. nWaveMode=3
  9. bAdditiveWaves=0
  10. bWaveDots=1
  11. bWaveThick=0
  12. bModWaveAlphaByVolume=0
  13. bMaximizeWaveColor=0
  14. bTexWrap=0
  15. bDarkenCenter=0
  16. bRedBlueStereo=0
  17. bBrighten=0
  18. bDarken=0
  19. bSolarize=0
  20. bInvert=1
  21. fWaveAlpha=0.793875
  22. fWaveScale=1.074093
  23. fWaveSmoothing=0.000000
  24. fWaveParam=0.000000
  25. fModWaveAlphaStart=1.000001
  26. fModWaveAlphaEnd=0.000000
  27. fWarpAnimSpeed=1.000000
  28. fWarpScale=0.010000
  29. fZoomExponent=1.000000
  30. fShader=0.000000
  31. zoom=1.001837
  32. rot=0.000000
  33. cx=0.500000
  34. cy=0.500000
  35. dx=0.000000
  36. dy=0.000000
  37. warp=0.010000
  38. sx=1.000000
  39. sy=1.000000
  40. wave_r=0.650000
  41. wave_g=0.650000
  42. wave_b=0.650000
  43. wave_x=0.500000
  44. wave_y=0.500000
  45. ob_size=0.015000
  46. ob_r=0.300000
  47. ob_g=0.000000
  48. ob_b=0.000000
  49. ob_a=0.200000
  50. ib_size=0.025000
  51. ib_r=0.000000
  52. ib_g=0.000000
  53. ib_b=1.000000
  54. ib_a=1.000000
  55. nMotionVectorsX=64.000000
  56. nMotionVectorsY=48.000000
  57. mv_dx=0.000000
  58. mv_dy=0.000000
  59. mv_l=0.000000
  60. mv_r=0.000000
  61. mv_g=0.700000
  62. mv_b=1.000000
  63. mv_a=0.000000
  64. per_frame_1=warp = 0;
  65. per_frame_2=vol_now =  .4 * bass + 0.1 * (bass_att + treb + mid);
  66. per_frame_3=vol_mean =  if(equal(frame%50,0),vol_mean - 0.5 * (vol_mean-vol_now),0.1 * (vol_mean * 9 + vol_now));
  67. per_frame_4=beat = if(above(vol_now,1.15 * vol_mean),1,0);
  68. per_frame_5=sinbeat =sin(beat * (vol_now-vol_mean));
  69. per_frame_6=wave_b = cos(time)  + abs(cos(time));
  70. per_frame_7=wave_g = abs(sin(time)) ;
  71. per_frame_8=wave_r = (-1 * cos(time))  + abs(-1 * cos(time)) + 0.2 * (cos(sin(time))+(abs(cos(sin(time)))+cos(sin(time))));
  72. per_frame_9=ib_r = if(above(wave_r,1),1,if(above(wave_r,0), abs(wave_r),0));
  73. per_frame_10=ib_g = if(above(wave_g,1),1,if(above(wave_g,0), abs(wave_g),0));
  74. per_frame_11=ib_b = if(above(wave_b,1),1,if(above(wave_b,0), abs(wave_b),0));
  75. per_frame_12=ob_r = 1 - if(above(wave_r,1),1,if(above(wave_r,0), abs(wave_r),0));
  76. per_frame_13=ob_g = 1 - if(above(wave_g,1),1,if(above(wave_g,0), abs(wave_g),0));
  77. per_frame_14=ob_b = 1 - if(above(wave_b,1),1,if(above(wave_b,0), abs(wave_b),0));
  78. per_frame_15=q1 = sinbeat+.35 ;
  79. per_frame_16=wave_mystery = vol_now;
  80. per_frame_17=monitor = sinbeat;
  81. per_pixel_1=a = pow(1.02, pow(1, rad * 2 - 1));
  82. per_pixel_2=dx = (x - .5) * a + .5 - x;
  83. per_pixel_3=dy = (y - .5) * a + .5 - y;
  84. per_pixel_4=zoom = q1 +  x;
  85.