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/xbmc/visualizations/XBMCProjectM/libprojectM/presets/Jess - Trying To Trap A Twister.milk

http://github.com/xbmc/xbmc
Unknown | 89 lines | 89 code | 0 blank | 0 comment | 0 complexity | d91a31fca820b3ebf4a74297452b3ecb MD5 | raw file
 1[preset00]
 2fRating=2.000000
 3fGammaAdj=2.000000
 4fDecay=0.993000
 5fVideoEchoZoom=0.996620
 6fVideoEchoAlpha=0.500000
 7nVideoEchoOrientation=3
 8nWaveMode=0
 9bAdditiveWaves=1
10bWaveDots=0
11bWaveThick=0
12bModWaveAlphaByVolume=0
13bMaximizeWaveColor=0
14bTexWrap=1
15bDarkenCenter=0
16bRedBlueStereo=0
17bBrighten=0
18bDarken=1
19bSolarize=0
20bInvert=0
21fWaveAlpha=1.264366
22fWaveScale=0.264076
23fWaveSmoothing=0.720000
24fWaveParam=-0.400000
25fModWaveAlphaStart=0.750000
26fModWaveAlphaEnd=0.950000
27fWarpAnimSpeed=1.000000
28fWarpScale=1.000000
29fZoomExponent=1.000000
30fShader=0.300000
31zoom=1.000000
32rot=0.000000
33cx=0.500000
34cy=0.500000
35dx=0.000000
36dy=0.000000
37warp=1.000000
38sx=1.061520
39sy=1.061520
40wave_r=1.000000
41wave_g=0.000000
42wave_b=0.000000
43wave_x=0.500000
44wave_y=0.500000
45ob_size=0.010000
46ob_r=0.000000
47ob_g=0.000000
48ob_b=1.000000
49ob_a=0.000000
50ib_size=0.010000
51ib_r=0.000000
52ib_g=0.000000
53ib_b=1.000000
54ib_a=1.000000
55nMotionVectorsX=12.000000
56nMotionVectorsY=9.000000
57mv_dx=0.000000
58mv_dy=0.000000
59mv_l=0.900000
60mv_r=1.000000
61mv_g=1.000000
62mv_b=1.000000
63mv_a=0.000000
64per_frame_1=warp=0;
65per_frame_2=entropy=if(bnot(entropy),2,if(equal(pulse,-9.42),1+rand(3),entropy));
66per_frame_3=bass_thresh = above(bass_att,bass_thresh)*2 + (1-above(bass_att,bass_thresh))*((bass_thresh-1.3)*chaos+1.3);
67per_frame_4=bass_changed=abs(bass_flop-equal(bass_thresh,2));
68per_frame_5=treb_thresh=above(treb_att,treb_thresh)*2 + (1-above(treb_att,treb_thresh))*((treb_thresh-1.3)*chaos+1.3);
69per_frame_6=treb_changed=abs(treb_flop-equal(treb_thresh,2));
70per_frame_7=mid_thresh=above(mid_att,mid_thresh)*2 + (1-above(mid_att,mid_thresh))*((mid_thresh-1.3)*chaos+1.3);
71per_frame_8=mid_changed=abs(mid_flop-equal(mid_thresh,2));
72per_frame_9=bass_residual = bass_changed*sin(pulse*bass_thresh*.2*entropy) + bnot(bass_changed)*bass_residual;
73per_frame_10=treb_residual = treb_changed*sin(pulse*treb_thresh*.2*entropy) + bnot(treb_changed)*treb_residual;
74per_frame_11=mid_residual = mid_changed*sin(pulse*mid_thresh*.2*entropy) + bnot(mid_changed)*mid_residual;
75per_frame_12=pulse=if(above(abs(pulse),9.42),-9.42,pulse+.1*bor(bor(bass_changed*bnot(treb_changed),treb_changed*bnot(bass_changed))*bnot(mid_changed),mid_changed)+(mid+bass+treb)*entropy*.01);
76per_frame_13=q1=mid_residual;
77per_frame_14=q2=bass_residual;
78per_frame_15=q3=treb_residual;
79per_frame_16=q4=sin(pulse);
80per_frame_17=q5=cos(pulse);
81per_frame_18=wave_mystery=-.2+.2*q4;
82per_frame_19=wave_r=wave_r+.5*bass_residual;
83per_frame_20=zoom=zoom-.0035*q1;
84per_frame_21=decay=decay+.003*sin(pulse);
85per_pixel_1=anti_rad=(1-rad);
86per_pixel_2=dx=if(below(sin(rad*10*q5),abs(q5)),.02*q1,.025*q2);
87per_pixel_3=dy=dy-cos(anti_rad*10*q3-rad*10*q5+rad*10*q4)*.05;
88per_pixel_4=zoom=zoom+(dy-1)*(dx-1)*q1*.07;
89per_pixel_5=rot=rot+atan(anti_rad*3.14*q3)*abs(zoom-1.2)*above(q2,0);