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/ Minami 48 / MINAMI48.ISO / Extra / winamp502_full.exe / Plugins / Milkdrop / nil & Aderassi & EMPR - Curling Flower Space 2 (Electric Boogaloo).milk < prev    next >
INI File  |  2003-09-30  |  5KB  |  135 lines

  1. [preset00]
  2. fRating=2
  3. fGammaAdj=1
  4. fDecay=0.945999
  5. fVideoEchoZoom=1
  6. fVideoEchoAlpha=0
  7. nVideoEchoOrientation=3
  8. nWaveMode=0
  9. bAdditiveWaves=1
  10. bWaveDots=0
  11. bWaveThick=1
  12. bModWaveAlphaByVolume=0
  13. bMaximizeWaveColor=0
  14. bTexWrap=1
  15. bDarkenCenter=0
  16. bRedBlueStereo=0
  17. bBrighten=0
  18. bDarken=0
  19. bSolarize=0
  20. bInvert=0
  21. fWaveAlpha=1
  22. fWaveScale=0.910342
  23. fWaveSmoothing=0
  24. fWaveParam=0.10806
  25. fModWaveAlphaStart=0.71
  26. fModWaveAlphaEnd=1.3
  27. fWarpAnimSpeed=1
  28. fWarpScale=1
  29. fZoomExponent=0.9
  30. fShader=1
  31. zoom=1
  32. rot=0
  33. cx=0.5
  34. cy=0.5
  35. dx=0
  36. dy=0
  37. warp=0.01
  38. sx=1
  39. sy=1
  40. wave_r=0.543247
  41. wave_g=0.328188
  42. wave_b=0.521643
  43. wave_x=0.733941
  44. wave_y=0.406558
  45. ob_size=0
  46. ob_r=0.5849
  47. ob_g=0.978985
  48. ob_b=0.616979
  49. ob_a=0
  50. ib_size=0.26
  51. ib_r=0.207509
  52. ib_g=0.521497
  53. ib_b=0.945927
  54. ib_a=0
  55. nMotionVectorsX=0
  56. nMotionVectorsY=0
  57. mv_dx=0
  58. mv_dy=0
  59. mv_l=0
  60. mv_r=0
  61. mv_g=0
  62. mv_b=0
  63. mv_a=0
  64. per_frame_1=wave_x = wave_x + 0.3*sin(2.2*time) - 0.15*cos(2.1*time) + 0.1*sin(1.2*time);
  65. per_frame_2=wave_y = wave_y + 0.3*sin(2.3*time) - 0.1*sin(1.88*time) + 0.13*cos(time);
  66. per_frame_3=dx = dx + 0.024*sin(1.24*time);
  67. per_frame_4=dy = dy + 0.024*sin(1.12*time);
  68. per_frame_5=wave_r = wave_r + 0.35*sin(1.13*time) + 0.1245*sin(2.34*time);
  69. per_frame_6=wave_g = wave_g + 0.35*sin(1.23*time) + 0.12*sin(2.134*time);
  70. per_frame_7=wave_b = wave_b + 0.35*sin(1.33*time) + 0.12*sin(2.5*time);
  71. per_frame_8=wave_mystery = wave_mystery + 0.00*sin(time);
  72. per_frame_9=turn = above(bass_att,turn)*2 + (1-above(bass_att,turn))*((turn-1.3)*0.96+1.3);
  73. per_frame_10=turnr = equal(turn,2)*0.019*sin(time*6.6) + (1-equal(turn,2))*turnr;
  74. per_frame_11=simp = simp * 0.35*sin(1.2*time) - 0.62*sin(0.7*time) + 1.5*sin(turn);
  75. per_frame_12=rot = rot + 1.05*((0.25*simp)*10*turnr);
  76. per_frame_13=cx = -42.68603921*sign(beat * beat);
  77. per_frame_14=ib_a = max(beat - beat , volume + beatrate);
  78. per_frame_15=ob_a = volume * beat;
  79. per_frame_16=dx = -61.74305975*rand(int(max(dx * volume , beat * beatrate)));
  80. per_frame_17=ob_size = -43.66785884*sin(volume + volume);
  81. per_frame_18=ib_a = -48.4728992*abs(47.9157567*acos(ib_a + beat));
  82. per_frame_19=cy = max(volume * beat , volume + beat);
  83. per_frame_20=mv_l = 39.23734426*log(if(above(volume - volume , beat + volume) , beat * beatrate , beatrate + volume));
  84. per_frame_21=ib_a = -7.89672136*acos(ib_a * beatrate);
  85. per_frame_22=rot=if(below(rot,-1.0), -1.0, rot);
  86. per_frame_23=rot=if(above(rot,1.0), 1.0, rot);
  87. per_frame_24=cx=if(below(cx,-1.0), -1.0, cx);
  88. per_frame_25=cx=if(above(cx,2.0), 2.0, cx);
  89. per_frame_26=cy=if(below(cy,-1.0), -1.0, cy);
  90. per_frame_27=cy=if(above(cy,2.0), 2.0, cy);
  91. per_frame_28=dx=if(below(dx,-1), -1, dx);
  92. per_frame_29=dx=if(above(dx,1.0), 1.0, dx);
  93. per_frame_30=dy=if(below(dy,-1), -1, dy);
  94. per_frame_31=dy=if(above(dy,1.0), 1.0, dy);
  95. per_frame_32=wave_r=if(below(wave_r,0.0), 0.0, wave_r);
  96. per_frame_33=wave_r=if(above(wave_r,1.0), 1.0, wave_r);
  97. per_frame_34=wave_b=if(below(wave_b,0.0), 0.0, wave_b);
  98. per_frame_35=wave_b=if(above(wave_b,1.0), 1.0, wave_b);
  99. per_frame_36=wave_g=if(below(wave_g,0.0), 0.0, wave_g);
  100. per_frame_37=wave_g=if(above(wave_g,1.0), 1.0, wave_g);
  101. per_frame_38=wave_x=if(below(wave_x,0.0), 0.0, wave_x);
  102. per_frame_39=wave_x=if(above(wave_x,1.0), 1.0, wave_x);
  103. per_frame_40=wave_y=if(below(wave_y,0.0), 0.0, wave_y);
  104. per_frame_41=wave_y=if(above(wave_y,1.0), 1.0, wave_y);
  105. per_frame_42=wave_mystery=if(below(wave_mystery,-1.0), -1.0, wave_mystery);
  106. per_frame_43=wave_mystery=if(above(wave_mystery,1.0), 1.0, wave_mystery);
  107. per_frame_44=ob_size=if(below(ob_size,0.0), 0.0, ob_size);
  108. per_frame_45=ob_size=if(above(ob_size,0.5), 0.5, ob_size);
  109. per_frame_46=ob_a=if(below(ob_a,0.0), 0.0, ob_a);
  110. per_frame_47=ob_a=if(above(ob_a,1.0), 1.0, ob_a);
  111. per_frame_48=ib_a=if(below(ib_a,0.0), 0.0, ib_a);
  112. per_frame_49=ib_a=if(above(ib_a,1.0), 1.0, ib_a);
  113. per_frame_50=mv_l=if(below(mv_l,0.0), 0.0, mv_l);
  114. per_frame_51=mv_l=if(above(mv_l,5.0), 5.0, mv_l);
  115. per_pixel_1=rot=if(above(bnot(1*bass),bnot(1*treb)),rot*sin(rad*sin(time)),-rot*sin(rad*cos(time)));
  116. per_pixel_2=sy = bor(-59.87649858*sqr(y * ang) , rot - y);
  117. per_pixel_3=dx = ang * rot;
  118. per_pixel_4=zoomexp = -83.40497017*sqrt(x * q1);
  119. per_pixel_5=rot = -64.34893906*asin(rot - rot);
  120. per_pixel_6=warp = ang * q1;
  121. per_pixel_7=warp = -55.12191951*pow(-6.81577921*tan(warp * rot) , rot * q1);
  122. per_pixel_8=cy = -50.60476065*tan(if(equal(x * rot , x - q1) , ang * rot , rot + x));
  123. per_pixel_9=zoomexp=if(below(zoomexp,0.01), 0.01, zoomexp);
  124. per_pixel_10=zoomexp=if(above(zoomexp,100.0), 100.0, zoomexp);
  125. per_pixel_11=rot=if(below(rot,-1.0), -1.0, rot);
  126. per_pixel_12=rot=if(above(rot,1.0), 1.0, rot);
  127. per_pixel_13=warp=if(below(warp,0.01), 0.01, warp);
  128. per_pixel_14=warp=if(above(warp,100.0), 100.0, warp);
  129. per_pixel_15=cy=if(below(cy,-1.0), -1.0, cy);
  130. per_pixel_16=cy=if(above(cy,2.0), 2.0, cy);
  131. per_pixel_17=dx=if(below(dx,-1), -1, dx);
  132. per_pixel_18=dx=if(above(dx,1.0), 1.0, dx);
  133. per_pixel_19=sy=if(below(sy,0.01), 0.01, sy);
  134. per_pixel_20=sy=if(above(sy,100.0), 100.0, sy);
  135.