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/ PC World Komputer 2010 April / PCWorld0410.iso / redakcyjne / programy / MediaMonkey 3.1.0.1256 / MediaMonkey_3.1.0.1256.exe / {app} / Plugins / MilkDrop / Rovastar & Che - Asylum Animations.milk

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INI File  |  2008-02-11  |  4KB  |  128 lines

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1. [preset00]
2. fRating=3.500000
3. fGammaAdj=2.000000
4. fDecay=1.000000
5. fVideoEchoZoom=1.000000
6. fVideoEchoAlpha=0.000000
7. nVideoEchoOrientation=1
8. nWaveMode=2
9. bAdditiveWaves=0
10. bWaveDots=0
11. bWaveThick=1
12. bModWaveAlphaByVolume=1
13. bMaximizeWaveColor=1
14. bTexWrap=1
15. bDarkenCenter=1
16. bRedBlueStereo=0
17. bBrighten=0
18. bDarken=0
19. bSolarize=0
20. bInvert=0
21. fWaveAlpha=1.000000
22. fWaveScale=0.500000
23. fWaveSmoothing=0.000000
24. fWaveParam=0.000000
25. fModWaveAlphaStart=1.500000
26. fModWaveAlphaEnd=1.000000
27. fWarpAnimSpeed=1.000000
28. fWarpScale=1.000000
29. fZoomExponent=1.000000
30. fShader=0.000000
31. zoom=1.000000
32. rot=0.000000
33. cx=0.500000
34. cy=0.500000
35. dx=0.000000
36. dy=0.000000
37. warp=0.000000
38. sx=1.000000
39. sy=1.000000
40. wave_r=0.230000
41. wave_g=0.200000
42. wave_b=0.200000
43. wave_x=0.500000
44. wave_y=0.500000
45. ob_size=0.005000
46. ob_r=0.000000
47. ob_g=0.000000
48. ob_b=0.000000
49. ob_a=0.400000
50. ib_size=0.000000
51. ib_r=0.000000
52. ib_g=0.000000
53. ib_b=0.300000
54. ib_a=0.000000
55. nMotionVectorsX=0.000000
56. nMotionVectorsY=0.000000
57. mv_dx=0.000000
58. mv_dy=0.330000
59. mv_l=5.000000
60. mv_r=1.000000
61. mv_g=0.300000
62. mv_b=0.100000
63. mv_a=1.000000
64. per_frame_1=wave_r = wave_r + 0.350*( 0.60*sin(0.825*time) + 0.40*sin(0.915*time) );
65. per_frame_2=wave_g = wave_g + 0.350*( 0.60*sin(0.900*time) + 0.40*sin(1.025*time) );
66. per_frame_3=wave_b = wave_b + 0.350*( 0.60*sin(0.810*time) + 0.40*sin(0.950*time) );
67. per_frame_4=wave_x = 0.5-cos(time+dx_residual)/3.5;
68. per_frame_5=wave_y = 0.5-cos(time+dy_residual)/2.5;
69. per_frame_6=cx = cx + 0.225*( 0.60*sin(0.350*time) + 0.40*sin(0.350*time) );
70. per_frame_7=cy = cy + 0.225*( 0.60*sin(0.350*time) + 0.40*sin(0.350*time) );
71. per_frame_8=dx = 0.005 + 0.002*( 0.60*sin(0.234*time) + 0.40*sin(0.277*time) );
72. per_frame_9=dy = 0.005 + 0.002*( 0.60*sin(0.234*time) + 0.40*sin(0.277*time) );
73. per_frame_10=dx_residual=max(bass, bass_att)-1;
74. per_frame_11=dy_residual=min(bass, bass_att)-1;
75. per_frame_12=dx = if(above(bass_att+bass,2.8),6*dx,dx);
76. per_frame_13=// timed sidon sensor
77. per_frame_14=// le = signal level; desired average value = 2
78. per_frame_15=le=1.4*bass_att+.1*bass+.5*treb;
79. per_frame_16=pulse=above(le,th);
80. per_frame_17=// pulsefreq = running average of interval between last 5 pulses
81. per_frame_18=pulsefreq=if(equal(pulsefreq,0),2,
82. per_frame_19=if(pulse,.8*pulsefreq+.2*(time-lastpulse),pulsefreq));
83. per_frame_20=lastpulse=if(pulse,time,lastpulse);
84. per_frame_21=// bt = relative time; 0 = prev beat; 1 = expected beat
85. per_frame_22=bt=(time-lastbeat)/(.5*beatfreq+.5*pulsefreq);
86. per_frame_23=// hccp = handcicap for th driven by bt
87. per_frame_24=hccp=(.03/(bt+.2))+.5*if(band(above(bt,.8),below(bt,1.2)),
88. per_frame_25=(pow(sin((bt-1)*7.854),4)-1),0);
89. per_frame_26=beat=band(above(le,th+hccp),btblock);
90. per_frame_27=btblock=1-above(le,th+hccp);
91. per_frame_28=lastbeat=if(beat,time,lastbeat);
92. per_frame_29=beatfreq=if(equal(beatfreq,0),2,
93. per_frame_30=if(beat,.8*beatfreq+.2*(time-lastbeat),beatfreq));
94. per_frame_31=// th = threshold
95. per_frame_32=th=if(above(le,th),le+114/(le+10)-7.407,
96. per_frame_33=th+th*.07/(th-12)+below(th,2.7)*.1*(2.7-th));
97. per_frame_34=th=if(above(th,6),6,th);
98. per_frame_35=q3=30/fps;
99. per_frame_36=ccl=ccl+beat;
100. per_frame_37=minorccl=minorccl+.01*le;
101. per_frame_38=q4=beat;
102. per_frame_39=wave_r=.5+.15*sin(12*ccl)+.35*sin(3.62*minorccl);
103. per_frame_40=wave_g=.5+.15*sin(14*ccl)+.35*sin(7.38*minorccl);
104. per_frame_41=wave_b=.5+.15*sin(16*ccl)+.35*sin(5.21*minorccl);
105. per_frame_42=q1=.5+.25*sin(17*ccl+minorccl);
106. per_frame_43=cx=if(beat,.5+.5*sin(38*ccl),q1);
107. per_frame_44=q2=.5+.25*sin(17*ccl+minorccl);
108. per_frame_45=cy=if(beat,.5+.5*sin(46*ccl),q2);
109. per_frame_46=mv_x = 1.25;
110. per_frame_47=mv_y = 1.25;
111. per_frame_48=mv_dx =q1-0.5;
112. per_frame_49=mv_dy = -1*(q2-0.5);
113. per_pixel_1=myrot = 0.03*sin(0.84*time)-0.013*cos(0.784*time)+0.02*sin(1-rad);
114. per_pixel_2=rot = myrot;
115. per_pixel_3=// coordinates transfomation
116. per_pixel_4=// q1,q2 = position; q3 = 1/zoom; q4 = rotation
117. per_pixel_5=aang=atan2(y-q2,x-q1)-1.57;
118. per_pixel_6=arad=sqrt(sqr(y-q2)+sqr(x-q1));
119. per_pixel_7=atx=cos(aang)*arad;
120. per_pixel_8=aty=sin(aang)*arad;
121. per_pixel_9=
122. per_pixel_10=sound=if(below(x,.5),2*x*mid+(1-(2*x))*bass,
123. per_pixel_11=(x-.5)*2*treb+(1-(x-.5)*2)*mid);
124. per_pixel_12=sound=sound*q3;
125. per_pixel_13=zone=below(abs(x-q1),.15)*below(abs(y-q2),.15);
126. per_pixel_14=rot=if(zone,bass*bass_att*0.2*pow(arad,arad),myrot);
127. per_pixel_15=dx = if(zone,0,dx+0.01*rad*sound);
128.