mirror of
https://github.com/clementine-player/Clementine
synced 2024-12-18 04:19:55 +01:00
119 lines
3.1 KiB
Plaintext
119 lines
3.1 KiB
Plaintext
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[preset00]
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fRating=2.000000
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fGammaAdj=1.000000
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fDecay=1.000000
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fVideoEchoZoom=1.000000
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fVideoEchoAlpha=0.000000
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nVideoEchoOrientation=3
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nWaveMode=2
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bAdditiveWaves=0
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bWaveDots=0
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bWaveThick=1
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bModWaveAlphaByVolume=0
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bMaximizeWaveColor=1
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bTexWrap=1
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bDarkenCenter=0
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bRedBlueStereo=0
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bBrighten=0
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bDarken=0
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bSolarize=0
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bInvert=0
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fWaveAlpha=4.099998
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fWaveScale=0.684871
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fWaveSmoothing=0.900000
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fWaveParam=-0.280000
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fModWaveAlphaStart=0.710000
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fModWaveAlphaEnd=1.300000
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fWarpAnimSpeed=1.000000
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fWarpScale=1.000000
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fZoomExponent=1.000000
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fShader=0.000000
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zoom=1.000000
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rot=0.000000
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cx=0.500000
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cy=0.500000
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dx=0.000000
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dy=0.000000
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warp=0.001000
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sx=1.000000
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sy=1.000000
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wave_r=0.650000
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wave_g=0.650000
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wave_b=0.650000
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wave_x=0.500000
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wave_y=0.500000
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ob_size=0.500000
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ob_r=0.000000
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ob_g=0.000000
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ob_b=0.000000
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ob_a=0.016000
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ib_size=0.000000
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ib_r=0.250000
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ib_g=0.250000
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ib_b=0.250000
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ib_a=0.000000
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nMotionVectorsX=33.152000
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nMotionVectorsY=28.799997
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mv_dx=0.006000
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mv_dy=0.000000
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mv_l=1.000000
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mv_r=1.000000
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mv_g=1.000000
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mv_b=0.000000
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mv_a=0.000000
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per_frame_1=wave_x = pow(sin(time*.3011101),5)*.4+.5;
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per_frame_2=wave_y = pow(cos(time*.3),3)*.4+.5;
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per_frame_3=wave_r = sin(time*.874)*.5+.5;
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per_frame_4=wave_g = sin(time*1.54)*.5+.5;
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per_frame_5=wave_b = sin(time*1.1)*.5+.5;
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per_frame_6=
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per_frame_7=vol= (bass+treb+mid)*.3;
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per_frame_8=vol_cap = (max(min(vol,1),.5)-.5)*2;
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per_frame_9=wave_r = wave_r*vol_cap;
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per_frame_10=wave_g = wave_g*vol_cap;
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per_frame_11=wave_b = wave_b*vol_cap;
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per_frame_12=ob_size =1;
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per_frame_13=ob_r=wave_r*.0;
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per_frame_14=ob_g=wave_g*.0;
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per_frame_15=ob_b=wave_b*.0;
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per_frame_16=
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per_frame_17=q1=wave_x;
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per_frame_18=q2=1-wave_y;
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per_frame_19=
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per_frame_20=
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per_frame_21=beat=if(above(bass*bass_att,2.7),1,0);
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per_frame_22=dm=dm-sign(dm)*bass*beat;
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per_frame_23=vang=vang+.3*dm/fps;
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per_frame_24=q3 = vang;
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per_frame_25=
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per_frame_26=monitor = vang;
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per_frame_27=//mv_a = 1; decay = 0.81;
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per_pixel_1=//cen_x = cos(time)*.2+.3;
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per_pixel_2=//cen_y = sin(time)*.5+.5;
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per_pixel_3=cen_x = q1;
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per_pixel_4=cen_y = q2;
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per_pixel_5=radxy = sin(time*.1)*.15+.3;
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per_pixel_6=
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per_pixel_7=dist_x = (x-cen_x)/(radxy*(sin(time*.2*0)*.3+cos((cen_x-x+ (cen_y-y))*10+time*2)*.3+1));
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per_pixel_8=dist_y = (y-cen_y)/(radxy*(sin(time*.2*0)*.3+sin((cen_x-x+ (cen_y-y))*10+time*2)*.3+1));
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per_pixel_9=in = below(abs(dist_x),1)*below(abs(dist_y),1);
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per_pixel_10=//in = bnot(in);
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per_pixel_11=out = bnot(in);
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per_pixel_12=inx =(cen_x-q1)+.08*sign(dist_x)*sqr(1-abs(dist_x));
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per_pixel_13=iny =(cen_y-q2)+.08*sign(dist_y)*sqr(1-abs(dist_y));
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per_pixel_14=
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per_pixel_15=//**********outside
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per_pixel_16=vang=q3; //time*.1;
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per_pixel_17=vx = (x-.5)*cos(vang) - (y-.5)*sin(vang)+.5;
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per_pixel_18=vy = (x-.5)*sin(vang) +(y-.5)*cos(vang)+.5;
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per_pixel_19=
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per_pixel_20=dvx=.01*sin(time+vy*60*radxy);
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per_pixel_21=dvy=.01*cos(time+vx*60*radxy);
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per_pixel_22=
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per_pixel_23=outx = dvx*cos(vang) - dvy*sin(vang);
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per_pixel_24=outy = -dvx*sin(vang) - dvy*cos(vang);
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per_pixel_25=
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per_pixel_26=dx=in*inx+out*outx;
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per_pixel_27=dy=in*iny+out*outy;
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per_frame_init_1=dm = 1;
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