158 lines
4.9 KiB
Plaintext
158 lines
4.9 KiB
Plaintext
[preset00]
|
|
fRating=3.000000
|
|
fGammaAdj=1.210000
|
|
fDecay=1.000000
|
|
fVideoEchoZoom=1.006596
|
|
fVideoEchoAlpha=0.000000
|
|
nVideoEchoOrientation=3
|
|
nWaveMode=3
|
|
bAdditiveWaves=0
|
|
bWaveDots=1
|
|
bWaveThick=1
|
|
bModWaveAlphaByVolume=0
|
|
bMaximizeWaveColor=0
|
|
bTexWrap=0
|
|
bDarkenCenter=0
|
|
bRedBlueStereo=0
|
|
bBrighten=0
|
|
bDarken=1
|
|
bSolarize=0
|
|
bInvert=0
|
|
fWaveAlpha=9.088520
|
|
fWaveScale=0.499500
|
|
fWaveSmoothing=0.000000
|
|
fWaveParam=1.000000
|
|
fModWaveAlphaStart=0.710000
|
|
fModWaveAlphaEnd=1.300000
|
|
fWarpAnimSpeed=1.000000
|
|
fWarpScale=1.331000
|
|
fZoomExponent=1.000000
|
|
fShader=0.000000
|
|
zoom=0.999514
|
|
rot=0.000000
|
|
cx=0.500000
|
|
cy=0.500000
|
|
dx=0.000000
|
|
dy=0.000000
|
|
warp=0.010000
|
|
sx=1.000000
|
|
sy=1.000000
|
|
wave_r=0.990000
|
|
wave_g=0.000000
|
|
wave_b=0.000000
|
|
wave_x=0.500000
|
|
wave_y=0.500000
|
|
ob_size=0.005000
|
|
ob_r=0.300000
|
|
ob_g=0.000000
|
|
ob_b=0.500000
|
|
ob_a=0.000000
|
|
ib_size=0.260000
|
|
ib_r=0.250000
|
|
ib_g=0.250000
|
|
ib_b=0.250000
|
|
ib_a=0.000000
|
|
nMotionVectorsX=64.000000
|
|
nMotionVectorsY=2.759997
|
|
mv_dx=0.000000
|
|
mv_dy=-0.620000
|
|
mv_l=5.000000
|
|
mv_r=0.000000
|
|
mv_g=1.000000
|
|
mv_b=1.000000
|
|
mv_a=0.400000
|
|
per_frame_1=// Hello,
|
|
per_frame_2=
|
|
per_frame_3=// My beat detection algorithm had the aim of being able to detect and pickup a reliable beat throughout a song. This has creative possibilities of being able to PREDICT coming beats, and to have things lasting for (say) half a beat, etc. It still requires work, but I think I have made progress.
|
|
per_frame_4=// I emplore you to have a look over it and try to underdstand it. Help me out here - I think it could be reallly good.
|
|
per_frame_5=
|
|
per_frame_6=//Telek Sterling =:-)
|
|
per_frame_7=//Dilettante Extrodinaire
|
|
per_frame_8=
|
|
per_frame_9=
|
|
per_frame_10=//rt = realtime (for use with beat count)
|
|
per_frame_11=rt=time-start;
|
|
per_frame_12=
|
|
per_frame_13=//color cycling, yellow dynamic treble
|
|
per_frame_14=wave_g = max(0,min(1,.25*sin(time*10)+treb/2));
|
|
per_frame_15=wave_x = cos(time*2.12)*.33+.5;
|
|
per_frame_16=wave_y = sin(time*1.5)*.13+.3;
|
|
per_frame_17=
|
|
per_frame_18=//initialisation bug patch
|
|
per_frame_19=beatrate = if(below(beatcount,2),.1,beatrate);
|
|
per_frame_20=
|
|
per_frame_21=//beat = if(longer that 10 sec,1,above(bass, decaying threshold)*(can't be less that .4 of last beat length)
|
|
per_frame_22=beat =if(above(rt-lastbeat,10),1, above(bass,1.6+.2*(lastbeat-rt)/beatrate)* above((rt-lastbeat)/beatrate,max(.4,.95-abs(accuracy*2))));
|
|
per_frame_23=
|
|
per_frame_24=//Testing auto-beat trigger... exciting stuff..
|
|
per_frame_25=beat = if(beat,1, if(below(abs(accuracy),0.1)*below((lastbeat-rt)/beatrate,-1),1,0));
|
|
per_frame_26=
|
|
per_frame_27=//Comparison of last beat duration to current. Best value is 0. -1 and 5 are pretty bad.
|
|
per_frame_28=accuracy =if(beat,(rt-nextbeat)/beatrate,accuracy);
|
|
per_frame_29=
|
|
per_frame_30=beatcount = beatcount + beat;
|
|
per_frame_31=
|
|
per_frame_32=w_a = if(beat,1,w_a*0);
|
|
per_frame_33=wave_a = w_a; // I can't actually change this, can I..... Oh well, it's here now.
|
|
per_frame_34=
|
|
per_frame_35=//Preserve beat rate
|
|
per_frame_36=l_beatrate=if(beat,beatrate, l_beatrate);
|
|
per_frame_37=//Record new beatrate
|
|
per_frame_38=beatrate = if(beat,rt-lastbeat,beatrate);
|
|
per_frame_39=
|
|
per_frame_40=//Record most recent beat
|
|
per_frame_41=lastbeat=if(beat,rt,lastbeat);
|
|
per_frame_42=//Predict time of next beat
|
|
per_frame_43=nextbeat=if(beat,rt+beatrate,nextbeat);
|
|
per_frame_44=
|
|
per_frame_45=
|
|
per_frame_46=
|
|
per_frame_47=
|
|
per_frame_48=//Actual Display code:
|
|
per_frame_49=
|
|
per_frame_50=//Current direction of travel
|
|
per_frame_51=state = beat * (state+1)%4+(1-beat)*state;
|
|
per_frame_52=
|
|
per_frame_53=//acceleration of horizon point
|
|
per_frame_54=dddy = state%2-.5;
|
|
per_frame_55=dddx = above(state,1.5)-.5;
|
|
per_frame_56=
|
|
per_frame_57=//adjustment factors to play with
|
|
per_frame_58=ddx = dddx*.5;
|
|
per_frame_59=ddy = dddy*.5;
|
|
per_frame_60=
|
|
per_frame_61=
|
|
per_frame_62=q1 = (qq1*19+ddx)*.041;
|
|
per_frame_63=//preserve q variables
|
|
per_frame_64=qq1 = q1;
|
|
per_frame_65=
|
|
per_frame_66=q2 = (qq2*19+ddy)*.035;
|
|
per_frame_67=qq2 = q2;
|
|
per_frame_68=
|
|
per_frame_69=//Decay to Blue!!
|
|
per_frame_70=ob_a = 0.1*above(frame%10,6);
|
|
per_frame_71=
|
|
per_frame_72=
|
|
per_frame_73=
|
|
per_frame_74=
|
|
per_frame_75=//Well, what do we want to monitor??
|
|
per_frame_76=
|
|
per_frame_77=//monitor = q1;
|
|
per_frame_78=//monitor = beat;
|
|
per_frame_79=//monitor = 1.6+.2*(lastbeat-rt)/beatrate;
|
|
per_frame_80=monitor = (rt-lastbeat)/beatrate;
|
|
per_frame_81=//monitor = accuracy;
|
|
per_frame_82=//monitor = max(.4,.95-abs(accuracy*2));
|
|
per_frame_83=//monitor = wave_a;
|
|
per_frame_84=//monitor = wave_g;
|
|
per_frame_85=//qwer = accuracy + if(below(abs(accuracy),0.1)*above((lastbeat-rt)/beatrate,1),1,0)*1000;
|
|
per_frame_86=//monitor = qwer;
|
|
per_frame_87=//monitor = (lastbeat-rt)/beatrate;
|
|
per_pixel_1=dx = sin(.5-x)*.1+q1;
|
|
per_pixel_2=dy = sin(.5-y)*.1+q2;
|
|
per_frame_init_1=ddx = 0;
|
|
per_frame_init_2=ddy = 0;
|
|
per_frame_init_3=start = time;
|
|
per_frame_init_4=rt = 0;
|
|
per_frame_init_5=beatcount = 0;
|