mirror of
https://github.com/WinampDesktop/winamp.git
synced 2024-12-04 21:01:30 -05:00
615 lines
18 KiB
Text
615 lines
18 KiB
Text
MILKDROP_PRESET_VERSION=201
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PSVERSION=2
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PSVERSION_WARP=2
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PSVERSION_COMP=2
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[preset00]
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fRating=5.000
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fGammaAdj=1.000
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fDecay=0.500
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fVideoEchoZoom=1.030
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fVideoEchoAlpha=0.000
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nVideoEchoOrientation=0
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nWaveMode=0
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bAdditiveWaves=0
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bWaveDots=0
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bWaveThick=0
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bModWaveAlphaByVolume=0
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bMaximizeWaveColor=0
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bTexWrap=0
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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=0.001
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fWaveScale=0.010
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fWaveSmoothing=0.000
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fWaveParam=0.000
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fModWaveAlphaStart=1.000
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fModWaveAlphaEnd=1.000
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fWarpAnimSpeed=1.549
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fWarpScale=2.940
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fZoomExponent=0.02049
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fShader=1.000
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zoom=1.00000
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rot=0.00000
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cx=0.500
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cy=0.500
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dx=0.00000
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dy=0.00000
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warp=1.45984
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sx=1.00000
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sy=1.00000
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wave_r=0.000
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wave_g=0.000
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wave_b=0.000
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wave_x=0.500
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wave_y=0.500
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ob_size=0.005
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ob_r=0.000
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ob_g=0.000
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ob_b=0.000
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ob_a=1.000
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ib_size=0.000
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ib_r=1.000
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ib_g=1.000
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ib_b=1.000
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ib_a=1.000
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nMotionVectorsX=64.000
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nMotionVectorsY=48.000
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mv_dx=0.000
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mv_dy=0.000
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mv_l=5.000
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mv_r=1.000
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mv_g=1.000
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mv_b=1.000
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mv_a=0.000
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b1n=0.000
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b2n=0.000
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b3n=0.000
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b1x=1.000
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b2x=1.000
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b3x=1.000
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b1ed=0.000
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wavecode_0_enabled=0
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wavecode_0_samples=495
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wavecode_0_sep=4
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wavecode_0_bSpectrum=1
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wavecode_0_bUseDots=0
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wavecode_0_bDrawThick=1
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wavecode_0_bAdditive=1
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wavecode_0_scaling=100.00000
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wavecode_0_smoothing=1.00000
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wavecode_0_r=0.010
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wavecode_0_g=0.000
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wavecode_0_b=0.000
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wavecode_0_a=1.000
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wave_0_init1=t2 = 0;
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wave_0_init2=t3 = 0;
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wave_0_init3=t4 = 0;
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wave_0_init4=ab = 1;
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wave_0_per_frame1=t1 = q1;
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wave_0_per_frame2=t2 = q2;
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wave_0_per_frame3=t3 = q3;
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wave_0_per_frame4=t4 = q4;
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wave_0_per_frame5=t5 = q5;
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wave_0_per_frame6=t6 = q6;
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wave_0_per_frame7=t8 = .07;
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wave_0_per_frame8=t7 = 1;
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wave_0_per_point1=t7 = -t7;
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wave_0_per_point2=pi = asin(1);
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wave_0_per_point3=n = 180;
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wave_0_per_point4=rd = 0.075;//+(value1*10+1)*((sample*512)%2)*0.02;
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wave_0_per_point5=my_x = sin(sample*pi*4+(t7+1)*t8)*0.5 + cos(sample*pi*n)*rd*sin(sample*pi*4+(t7+1)*t8);
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wave_0_per_point6=my_y = cos(sample*pi*4+(t7+1)*t8)*0.5 + cos(sample*pi*n)*rd*cos(sample*pi*4+(t7+1)*t8);
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wave_0_per_point7=my_z = sin(sample*pi*n)*rd;
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wave_0_per_point8=
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wave_0_per_point9=
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wave_0_per_point10=
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wave_0_per_point11=d = 1.4; // makes the perspective impact
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wave_0_per_point12=zoom = 0.85;
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wave_0_per_point13=
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wave_0_per_point14=w1 = q12;
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wave_0_per_point15=w2 = q13;
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wave_0_per_point16=w3 = q14;
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wave_0_per_point17=
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wave_0_per_point18=x1 = cos(w1)*my_x + sin(w1)*my_y;
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wave_0_per_point19=y1 = -sin(w1)*my_x + cos(w1)*my_y;
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wave_0_per_point20=z1 = my_z;
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wave_0_per_point21=
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wave_0_per_point22=x2 = cos(w2)*x1 + sin(w2)*z1;
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wave_0_per_point23=z2 = -sin(w2)*x1 + cos(w2)*z1;
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wave_0_per_point24=y2 = y1;
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wave_0_per_point25=
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wave_0_per_point26=y3 = cos(w3)*y2 + sin(w3)*z2;
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wave_0_per_point27=z3 = -sin(w3)*y2 + cos(w3)*z2;
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wave_0_per_point28=x3 = x2;
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wave_0_per_point29=
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wave_0_per_point30=// perspective calculation
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wave_0_per_point31=
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wave_0_per_point32=l = sqrt(x3*x3 + y3*y3);
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wave_0_per_point33=w = atan2(x3,y3);
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wave_0_per_point34=p = tan(asin(1) + atan2(d+z3,l));
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wave_0_per_point35=d = sqrt(x3*x3 + y3*y3 + (z3+d)*(z3+d));
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wave_0_per_point36=
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wave_0_per_point37=my_x = zoom*sin(w)*p;
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wave_0_per_point38=my_y = zoom*cos(w)*p;
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wave_0_per_point39=
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wave_0_per_point40=x = 0.5 + my_x;
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wave_0_per_point41=y = 0.5 + my_y;
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wave_0_per_point42=
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wave_0_per_point43=g = -z3*0.8 + 0.55;
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wave_0_per_point44=//b = min(1,max(0,b))*0.5;
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wave_0_per_point45=//r = 1-b*2
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wave_0_per_point46=//b = (1 - r)*0.1;
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wave_0_per_point47=//a = 7/(d*16) - 0.1;
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wavecode_1_enabled=0
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wavecode_1_samples=445
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wavecode_1_sep=4
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wavecode_1_bSpectrum=1
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wavecode_1_bUseDots=1
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wavecode_1_bDrawThick=1
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wavecode_1_bAdditive=1
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wavecode_1_scaling=100.00000
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wavecode_1_smoothing=1.00000
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wavecode_1_r=1.000
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wavecode_1_g=1.000
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wavecode_1_b=1.000
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wavecode_1_a=0.990
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wave_1_init1=t2 = 0;
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wave_1_init2=t3 = 0;
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wave_1_init3=t4 = 0;
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wave_1_init4=ab = 1;
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wave_1_per_frame1=t1 = q1;
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wave_1_per_frame2=t2 = q2;
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wave_1_per_frame3=t3 = q3;
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wave_1_per_frame4=t4 = q4;
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wave_1_per_frame5=t5 = q5;
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wave_1_per_frame6=t6 = q6;
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wave_1_per_frame7=t8 = .09;
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wave_1_per_frame8=t7 = 1;
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wave_1_per_point1=t7 = -t7;
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wave_1_per_point2=pi = asin(1);
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wave_1_per_point3=n = 160;
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wave_1_per_point4=rd = 0.075;//+(value1*10+1)*((sample*512)%2)*0.02;
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wave_1_per_point5=xx = sin(sample*pi*4+(t7+1)*t8)*0.5 + cos(sample*pi*n)*rd*sin(sample*pi*4);
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wave_1_per_point6=yy = cos(sample*pi*4+(t7+1)*t8)*0.5 + cos(sample*pi*n)*rd*cos(sample*pi*4);
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wave_1_per_point7=zz = sin(sample*pi*n)*rd;
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wave_1_per_point8=
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wave_1_per_point9=d = sqrt( xx*xx + yy*yy + zz*zz);
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wave_1_per_point10=d1 = 1;
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wave_1_per_point11=xx = xx*d1;
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wave_1_per_point12=yy = yy*d1;
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wave_1_per_point13=zz = zz*d1;
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wave_1_per_point14=
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wave_1_per_point15=w = -d*t5;
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wave_1_per_point16=s1 = sin(t2*1+w);
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wave_1_per_point17=s2 = sin(t3*1+w);
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wave_1_per_point18=s3 = sin(t4*1+w);
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wave_1_per_point19=c1 = cos(t2*1+w);
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wave_1_per_point20=c2 = cos(t3*1+w);
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wave_1_per_point21=c3 = cos(t4*1+w);
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wave_1_per_point22=
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wave_1_per_point23=z = (c3*s1*c2 + s3*s2)*xx - (c3*s1*s2-s3*c2)*yy + c3*c1*zz;
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wave_1_per_point24=x1 = (c1*c2*xx + c1*s2*yy - s1*zz);
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wave_1_per_point25=y1 = ((s3*s1*c2 - c3*s2)*xx + (s3*s1*s2+c3*c2)*yy + s3*c1*zz);
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wave_1_per_point26=
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wave_1_per_point27=a = 0.75;
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wave_1_per_point28=zoom = 0.5*atan2(a,a+z);//0.5*(1/(z+a));
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wave_1_per_point29=x = 0.5 + zoom*x1;
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wave_1_per_point30=y = 0.5 + zoom*y1;
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wave_1_per_point31=
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wave_1_per_point32=pi3 = 3.1415*2*0.3333;
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wave_1_per_point33=t = sample*pi*4-2*time;
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wave_1_per_point34=c=1.6;
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wave_1_per_point35=r = sin(t)*c;
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wave_1_per_point36=
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wave_1_per_point37=g = sin(t+pi3)*c;
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wave_1_per_point38=
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wave_1_per_point39=b = sin(t-pi3)*c;
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wave_1_per_point40=
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wave_1_per_point41=j = 0.71;
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wave_1_per_point42=//r = 0.5+xx*j;
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wave_1_per_point43=//g = 0.5+yy*j;
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wave_1_per_point44=//b = 0.5+zz*j;
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wave_1_per_point45=
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wave_1_per_point46=r = if(above(r,1),1,r);
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wave_1_per_point47=r = if(below(r,0),0,r);
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wave_1_per_point48=g = if(above(g,1),1,g);
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wave_1_per_point49=g = if(below(g,0),0,g);
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wave_1_per_point50=b = if(above(b,1),1,b);
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wave_1_per_point51=b = if(below(b,0),0,b);
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wave_1_per_point52=a = 1-(z + a)/2;
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wave_1_per_point53=
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wavecode_2_enabled=0
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wavecode_2_samples=512
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wavecode_2_sep=4
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wavecode_2_bSpectrum=0
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wavecode_2_bUseDots=0
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wavecode_2_bDrawThick=0
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wavecode_2_bAdditive=0
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wavecode_2_scaling=0.09348
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wavecode_2_smoothing=1.00000
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wavecode_2_r=1.000
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wavecode_2_g=1.000
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wavecode_2_b=1.000
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wavecode_2_a=1.000
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wave_2_init1=t2 = 0;
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wave_2_init2=t3 = 0;
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wave_2_init3=t4 = 0;
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wave_2_init4=ab = 1;
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wave_2_per_frame1=t1 = q1;
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wave_2_per_frame2=t2 = q2;
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wave_2_per_frame3=t3 = q3;
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wave_2_per_frame4=t4 = q4;
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wave_2_per_frame5=t5 = q5;
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wave_2_per_frame6=t6 = q6;
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wave_2_per_point1=s8 = sample*383;
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wave_2_per_point2=
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wave_2_per_point3=s = 100;//0.3;
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wave_2_per_point4=xx = sin(sample*s);//((sample*343)%7 - 3.5)*s;
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wave_2_per_point5=zz = cos(sample*s);//((sample*49)%7 - 3.5)*s;
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wave_2_per_point6=yy = (sample-0.5);//((sample*7)%7 - 3.5)*s;
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wave_2_per_point7=
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wave_2_per_point8=d = sqrt( xx*xx + yy*yy + zz*zz);
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wave_2_per_point9=d1 = 1/d;
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wave_2_per_point10=xx = xx*d1;
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wave_2_per_point11=yy = yy*d1;
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wave_2_per_point12=zz = zz*d1;
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wave_2_per_point13=
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wave_2_per_point14=w = 1+0*(d)*(t6);//(sample*sin(time*0.3)*0.02-1);
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wave_2_per_point15=s1 = sin(t2*w);
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wave_2_per_point16=s2 = sin(t3*w);
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wave_2_per_point17=s3 = sin(t4*w);
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wave_2_per_point18=c1 = cos(t2*w);
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wave_2_per_point19=c2 = cos(t3*w);
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wave_2_per_point20=c3 = cos(t4*w);
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wave_2_per_point21=
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wave_2_per_point22=z = (c3*s1*c2 + s3*s2)*xx - (c3*s1*s2-s3*c2)*yy + c3*c1*zz;
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wave_2_per_point23=x1 = (c1*c2*xx + c1*s2*yy - s1*zz);
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wave_2_per_point24=y1 = ((s3*s1*c2 - c3*s2)*xx + (s3*s1*s2+c3*c2)*yy + s3*c1*zz);
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wave_2_per_point25=
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wave_2_per_point26=a = 2;
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wave_2_per_point27=zoom = 0.3*atan2(a-z,a);//0.5*(1/(z+a));
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wave_2_per_point28=x = 0.5 + zoom*x1;
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wave_2_per_point29=y = 0.5 + zoom*y1;
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wave_2_per_point30=
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wave_2_per_point31=pi3 = 3.1415*2*0.3333;
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wave_2_per_point32=t = -z*13+t5*20;
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wave_2_per_point33=c = 10;
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wave_2_per_point34=r = sin(t)*c;
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wave_2_per_point35=
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wave_2_per_point36=g = sin(t+pi3)*c;
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wave_2_per_point37=
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wave_2_per_point38=b = sin(t-pi3)*c;
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wave_2_per_point39=
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wave_2_per_point40=j = 0.71;
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wave_2_per_point41=//r = 0.5+xx*j;
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wave_2_per_point42=//g = 0.5+yy*j;
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wave_2_per_point43=//b = 0.5+zz*j;
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wave_2_per_point44=
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wave_2_per_point45=r = if(above(r,1),1,r);
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wave_2_per_point46=r = if(below(r,0),0,r);
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wave_2_per_point47=g = if(above(g,1),1,g);
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wave_2_per_point48=g = if(below(g,0),0,g);
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wave_2_per_point49=b = if(above(b,1),1,b);
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wave_2_per_point50=b = if(below(b,0),0,b);
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wave_2_per_point51=
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wave_2_per_point52=
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wave_2_per_point53=a = sigmoid(-z,10)*1.0+0.0;
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wavecode_3_enabled=0
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wavecode_3_samples=484
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wavecode_3_sep=4
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wavecode_3_bSpectrum=0
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wavecode_3_bUseDots=1
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wavecode_3_bDrawThick=0
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wavecode_3_bAdditive=0
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wavecode_3_scaling=9.94125
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wavecode_3_smoothing=1.00000
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wavecode_3_r=1.000
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wavecode_3_g=1.000
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wavecode_3_b=1.000
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wavecode_3_a=1.000
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wave_3_init1=t2 = 0;
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wave_3_init2=t3 = 0;
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wave_3_init3=t4 = 0;
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wave_3_init4=ab = 1;
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wave_3_per_frame1=t1 = q1;
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wave_3_per_frame2=t2 = q2;
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wave_3_per_frame3=t3 = q3;
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wave_3_per_frame4=t4 = q4;
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wave_3_per_frame5=t5 = q5;
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wave_3_per_frame6=t6 = q6;
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wave_3_per_point1=s8 = sample*383;
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wave_3_per_point2=
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wave_3_per_point3=s = 0.25;
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wave_3_per_point4=xx = ((sample*(465))%15 - 8)*s*2;
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wave_3_per_point5=yy = ((sample*31)%31 - 16)*s;
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wave_3_per_point6=zz = 0;
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wave_3_per_point7=
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wave_3_per_point8=d = sqrt( xx*xx + yy*yy + zz*zz);
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wave_3_per_point9=w = 1;
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wave_3_per_point10=
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wave_3_per_point11=s1 = sin(t2*1);
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wave_3_per_point12=s2 = sin(t3*0);
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wave_3_per_point13=s3 = sin(t4*1);
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wave_3_per_point14=c1 = cos(t2*1);
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wave_3_per_point15=c2 = cos(t3*0);
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wave_3_per_point16=c3 = cos(t4*1);
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wave_3_per_point17=
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wave_3_per_point18=
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wave_3_per_point19=z = (c3*s1*c2 + s3*s2)*xx - (c3*s1*s2-s3*c2)*yy + c3*c1*zz;
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wave_3_per_point20=x1 = (c1*c2*xx + c1*s2*yy - s1*zz);
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wave_3_per_point21=y1 = ((s3*s1*c2 - c3*s2)*xx + (s3*s1*s2+c3*c2)*yy + s3*c1*zz);
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wave_3_per_point22=
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wave_3_per_point23=a = 500;
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wave_3_per_point24=zoom = 0.05*atan2(a-z,a);//0.5*(1/(z+a));
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wave_3_per_point25=x = 0.5 + zoom*x1;
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wave_3_per_point26=y = 0.5 + zoom*y1;
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wave_3_per_point27=
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wave_3_per_point28=pi3 = 3.1415*2*0.3333;
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wave_3_per_point29=t = -z*5+t5;
|
|
wave_3_per_point30=c = 10;
|
|
wave_3_per_point31=r = sin(t)*c;
|
|
wave_3_per_point32=
|
|
wave_3_per_point33=g = sin(t+pi3)*c;
|
|
wave_3_per_point34=
|
|
wave_3_per_point35=b = sin(t-pi3)*c;
|
|
wave_3_per_point36=
|
|
wave_3_per_point37=j = 0.71;
|
|
wave_3_per_point38=//r = 0.5+xx*j;
|
|
wave_3_per_point39=//g = 0.5+yy*j;
|
|
wave_3_per_point40=//b = 0.5+zz*j;
|
|
wave_3_per_point41=
|
|
wave_3_per_point42=r = if(above(r,1),1,r);
|
|
wave_3_per_point43=r = if(below(r,0),0,r);
|
|
wave_3_per_point44=g = if(above(g,1),1,g);
|
|
wave_3_per_point45=g = if(below(g,0),0,g);
|
|
wave_3_per_point46=b = if(above(b,1),1,b);
|
|
wave_3_per_point47=b = if(below(b,0),0,b);
|
|
wave_3_per_point48=
|
|
wave_3_per_point49=
|
|
wave_3_per_point50=a = sigmoid(z,5);
|
|
shapecode_0_enabled=1
|
|
shapecode_0_sides=100
|
|
shapecode_0_additive=1
|
|
shapecode_0_thickOutline=0
|
|
shapecode_0_textured=0
|
|
shapecode_0_num_inst=1
|
|
shapecode_0_x=0.140
|
|
shapecode_0_y=0.130
|
|
shapecode_0_rad=0.20388
|
|
shapecode_0_ang=0.62830
|
|
shapecode_0_tex_ang=0.00000
|
|
shapecode_0_tex_zoom=1.17257
|
|
shapecode_0_r=1.000
|
|
shapecode_0_g=0.000
|
|
shapecode_0_b=0.000
|
|
shapecode_0_a=1.000
|
|
shapecode_0_r2=0.000
|
|
shapecode_0_g2=1.000
|
|
shapecode_0_b2=0.000
|
|
shapecode_0_a2=0.000
|
|
shapecode_0_border_r=1.000
|
|
shapecode_0_border_g=1.000
|
|
shapecode_0_border_b=1.000
|
|
shapecode_0_border_a=0.000
|
|
shape_0_init1=vx = 0;
|
|
shape_0_init2=vy = 0;
|
|
shapecode_1_enabled=0
|
|
shapecode_1_sides=100
|
|
shapecode_1_additive=0
|
|
shapecode_1_thickOutline=1
|
|
shapecode_1_textured=1
|
|
shapecode_1_num_inst=1
|
|
shapecode_1_x=0.500
|
|
shapecode_1_y=0.500
|
|
shapecode_1_rad=0.40271
|
|
shapecode_1_ang=0.00000
|
|
shapecode_1_tex_ang=0.00000
|
|
shapecode_1_tex_zoom=2.23888
|
|
shapecode_1_r=1.000
|
|
shapecode_1_g=1.000
|
|
shapecode_1_b=1.000
|
|
shapecode_1_a=1.000
|
|
shapecode_1_r2=0.080
|
|
shapecode_1_g2=0.000
|
|
shapecode_1_b2=0.000
|
|
shapecode_1_a2=1.000
|
|
shapecode_1_border_r=1.000
|
|
shapecode_1_border_g=1.000
|
|
shapecode_1_border_b=1.000
|
|
shapecode_1_border_a=0.000
|
|
shapecode_2_enabled=0
|
|
shapecode_2_sides=100
|
|
shapecode_2_additive=0
|
|
shapecode_2_thickOutline=0
|
|
shapecode_2_textured=1
|
|
shapecode_2_num_inst=1
|
|
shapecode_2_x=0.500
|
|
shapecode_2_y=0.500
|
|
shapecode_2_rad=1.21525
|
|
shapecode_2_ang=0.00000
|
|
shapecode_2_tex_ang=2.57611
|
|
shapecode_2_tex_zoom=0.55595
|
|
shapecode_2_r=1.000
|
|
shapecode_2_g=1.000
|
|
shapecode_2_b=1.000
|
|
shapecode_2_a=1.000
|
|
shapecode_2_r2=0.000
|
|
shapecode_2_g2=0.000
|
|
shapecode_2_b2=0.000
|
|
shapecode_2_a2=0.000
|
|
shapecode_2_border_r=1.000
|
|
shapecode_2_border_g=1.000
|
|
shapecode_2_border_b=1.000
|
|
shapecode_2_border_a=0.000
|
|
shapecode_3_enabled=0
|
|
shapecode_3_sides=34
|
|
shapecode_3_additive=0
|
|
shapecode_3_thickOutline=0
|
|
shapecode_3_textured=0
|
|
shapecode_3_num_inst=1
|
|
shapecode_3_x=0.990
|
|
shapecode_3_y=0.990
|
|
shapecode_3_rad=0.02558
|
|
shapecode_3_ang=0.00000
|
|
shapecode_3_tex_ang=0.00000
|
|
shapecode_3_tex_zoom=1.00000
|
|
shapecode_3_r=0.000
|
|
shapecode_3_g=1.000
|
|
shapecode_3_b=0.000
|
|
shapecode_3_a=1.000
|
|
shapecode_3_r2=0.000
|
|
shapecode_3_g2=1.000
|
|
shapecode_3_b2=0.000
|
|
shapecode_3_a2=1.000
|
|
shapecode_3_border_r=1.000
|
|
shapecode_3_border_g=1.000
|
|
shapecode_3_border_b=1.000
|
|
shapecode_3_border_a=0.000
|
|
per_frame_init_1=x1 = 0;
|
|
per_frame_init_2=y1 = 0;
|
|
per_frame_1=//q1 = 0;
|
|
per_frame_2=v = 0.8;
|
|
per_frame_3=j1 = j1*0.95 + sqr(bass*4)*v;
|
|
per_frame_4=j2 = j2*0.95 + sqr(mid*4)*v;
|
|
per_frame_5=j3 = j3*0.95 + sqr(treb*4)*v;
|
|
per_frame_6=
|
|
per_frame_7=n = n + j1*0.0052;
|
|
per_frame_8=n1 = n1 + j2*0.0052;
|
|
per_frame_9=n2 = n2 + j3*0.0052;
|
|
per_frame_10=
|
|
per_frame_11=
|
|
per_frame_12=q12 = n*0.01;
|
|
per_frame_13=q13 = n1*0.01;
|
|
per_frame_14=q14 = n2*0.01;
|
|
per_frame_15=
|
|
per_frame_16=k = k*0.99 + sqr(mid_att*2);
|
|
per_frame_17=q5 = k*0.00;
|
|
per_frame_18=
|
|
per_frame_19=zoom = 0.995;
|
|
per_frame_20=warp = 0;
|
|
per_frame_21=
|
|
per_frame_22=rot = -0.00;
|
|
per_frame_23=
|
|
per_frame_24=w = -0.46;
|
|
per_frame_25=q1 = sin(w);
|
|
per_frame_26=q2 = cos(w);
|
|
per_frame_27=
|
|
per_frame_28=w = -n*0.001;
|
|
per_frame_29=q3 = sin(w);
|
|
per_frame_30=q4 = cos(w);
|
|
per_frame_31=q9 = n1*0.004;
|
|
per_frame_32=q10 = n2*0.004;
|
|
per_pixel_1=r = bass/4;
|
|
per_pixel_2=cx1 = 0.5+sin(time*0.618)*0.2;
|
|
per_pixel_3=cy1 = 0.5+cos(time*1.618)*0.2;
|
|
per_pixel_4=d = sqrt((x-cx1)*(x-cx1)+(y-cy1)*(y-cy1));
|
|
per_pixel_5=dir = (bass)*(r*r-d*d)*0.3;
|
|
per_pixel_6=x1 = if( above(d,r),0, sin(y-cy1)*dir);
|
|
per_pixel_7=y1 = if( above(d,r),0, -sin(x-cx1)*dir);
|
|
per_pixel_8=
|
|
per_pixel_9=
|
|
per_pixel_10=cx1 = 0.5+sin(time*2.618)*0.3;
|
|
per_pixel_11=cy1 = 0.5+cos(time*3.14)*0.3;
|
|
per_pixel_12=d = sqrt((x-cx1)*(x-cx1)+(y-cy1)*(y-cy1));
|
|
per_pixel_13=dir = -(mid)*(r*r-d*d)*0.3;
|
|
per_pixel_14=x2 = if( above(d,r),0, sin(y-cy1)*dir);
|
|
per_pixel_15=y2 = if( above(d,r),0, -sin(x-cx1)*dir);
|
|
per_pixel_16=
|
|
per_pixel_17=cx1 = 0.5+sin(-time*2.618)*0.4;
|
|
per_pixel_18=cy1 = 0.5+cos(-time*1.14)*0.4;
|
|
per_pixel_19=d = sqrt((x-cx1)*(x-cx1)+(y-cy1)*(y-cy1));
|
|
per_pixel_20=dir = -(treb)*(r*r-d*d)*0.3;
|
|
per_pixel_21=x3 = if( above(d,r),0, sin(y-cy1)*dir);
|
|
per_pixel_22=y3 = if( above(d,r),0, -sin(x-cx1)*dir);
|
|
per_pixel_23=
|
|
per_pixel_24=v = 1;
|
|
per_pixel_25=dx = (x1+x2+x3)*v;
|
|
per_pixel_26=dy = (y1+y2+y3)*v;
|
|
warp_1=`float1 s,c;
|
|
warp_2=`
|
|
warp_3=`shader_body
|
|
warp_4=`{
|
|
warp_5=`ret = 0;
|
|
warp_6=`
|
|
warp_7=`// fern fractal on the red channel
|
|
warp_8=`
|
|
warp_9=`float2 uv0 = uv.yx*4 -float2(3,0);
|
|
warp_10=`float c0 = tex2D(sampler_fc_main, uv0).z; // feeded by the spiral
|
|
warp_11=`
|
|
warp_12=`float2 uv1 = 0.5 + (uv-0.5)*1.15 + float2(-1,1)*0.05; // main arm
|
|
warp_13=`float1 c1 = tex2D(sampler_fc_main, uv1).x;
|
|
warp_14=`
|
|
warp_15=`float2 uv2 = float2(-1,0) + (float2(-1,1)*uv + float2(1,0) - 0.5)*4; // upper limb
|
|
warp_16=`float1 c2 = tex2D(sampler_fc_main, uv2).x;
|
|
warp_17=`
|
|
warp_18=`float2 uv3 = float2(1,2) + (float2(1,-1)*uv + float2(0,1) - 0.5)*4; // lower limb
|
|
warp_19=`float1 c3 = tex2D(sampler_fc_main, uv3).x;
|
|
warp_20=`
|
|
warp_21=`ret.x = (c0 + c1 + c2 + c3)*1.075; // composition of the red fractal
|
|
warp_22=`
|
|
warp_23=`// spiral in the blue channel
|
|
warp_24=`
|
|
warp_25=`float2 uv4 = float2(-1,0) + (float2(-1,1)*uv + float2(1,0) - 0.5)*4;
|
|
warp_26=`float1 c4 = tex2D(sampler_fc_main, uv4).x; // feeded by the fern
|
|
warp_27=`
|
|
warp_28=`s = q1; // sin(w)
|
|
warp_29=`c = q2; // cos(w)
|
|
warp_30=`float2 scale = 1.05;
|
|
warp_31=`float2 uv5 = (uv-0.5)*aspect.xy;
|
|
warp_32=` uv5 = scale*float2( c*uv5.x - s*uv5.y, s*uv5.x + c*uv5.y); // rotation
|
|
warp_33=` uv5 = 0.5 + uv5*aspect.zw + float2(-0.03,0.03);
|
|
warp_34=`
|
|
warp_35=`float1 c5 = tex2D(sampler_fc_main, uv5).z;
|
|
warp_36=`
|
|
warp_37=`ret.z = (c4 + c5)*1.075 - 0.00;
|
|
warp_38=`
|
|
warp_39=`// mirrored rotated checker in the green channel
|
|
warp_40=`
|
|
warp_41=`s = q3; // sin(w)
|
|
warp_42=`c = q4; // cos(w)
|
|
warp_43=`
|
|
warp_44=`float2 uv6 = (uv-0.5)*aspect.xy*2.4;
|
|
warp_45=` uv6 = scale*float2( c*uv6.x - s*uv6.y, s*uv6.x + c*uv6.y); // rotation
|
|
warp_46=` uv6 = 0.5 + uv6*aspect.zw + float2(q9,q10);
|
|
warp_47=`
|
|
warp_48=` uv6 = 1.0 - abs( frac( uv6 * 0.5 ) * 2.0 - 1.0 ); // Eo.S' mirror code
|
|
warp_49=`
|
|
warp_50=`float c6 = tex2D(sampler_fc_main,uv6).z; // feeded by the spiral
|
|
warp_51=`float c7 = tex2D(sampler_fc_main,uv6).y;
|
|
warp_52=`
|
|
warp_53=`ret.y = lerp(max(c6,c7-0.15),tex2D(sampler_fc_main,uv_orig).y-0.004,0.6); // motion blur
|
|
warp_54=`
|
|
warp_55=`}
|
|
comp_1=`// tribute to suksma!
|
|
comp_2=`
|
|
comp_3=`shader_body
|
|
comp_4=`{
|
|
comp_5=` float2 uv2;
|
|
comp_6=`
|
|
comp_7=` float4 c = float4(1,0.4,0.15,0.1);
|
|
comp_8=`
|
|
comp_9=` uv2 = uv + float2(1,0)*texsize.zw;
|
|
comp_10=` float gx1 = GetPixel(uv2)*c.x + GetBlur1(uv2)*c.y + GetBlur2(uv2)*c.z + GetBlur3(uv2)*c.w;
|
|
comp_11=` uv2 = uv + float2(-1,0)*texsize.zw;
|
|
comp_12=` float gx2 = GetPixel(uv2)*c.x + GetBlur1(uv2)*c.y + GetBlur2(uv2)*c.z + GetBlur3(uv2)*c.w;
|
|
comp_13=`
|
|
comp_14=` uv2 = uv + float2(0,1)*texsize.zw;
|
|
comp_15=` float gy1 = GetPixel(uv2)*c.x + GetBlur1(uv2)*c.y + GetBlur2(uv2)*c.z + GetBlur3(uv2)*c.w;
|
|
comp_16=` uv2 = uv + float2(0,-1)*texsize.zw;
|
|
comp_17=` float gy2 = GetPixel(uv2)*c.x + GetBlur1(uv2)*c.y + GetBlur2(uv2)*c.z + GetBlur3(uv2)*c.w;
|
|
comp_18=`
|
|
comp_19=` float3 g = normalize(float3(gx1-gx2, gy1-gy2, 0.14));
|
|
comp_20=`
|
|
comp_21=` ret = 0.5 + 0.5*g;
|
|
comp_22=` ret *= saturate(length(ret.xy-0.5)*5);
|
|
comp_23=` ret = ret.xxy;
|
|
comp_24=` ret += 1.15;
|
|
comp_25=` ret *= lerp(ret,ret*(GetBlur3(uv)-GetBlur1(uv)*treb_att),pow(hue_shader.xzy,bass_att));
|
|
comp_26=` ret *= ret;
|
|
comp_27=`
|
|
comp_28=` //ret *= 1.5; //old gamma effect
|
|
comp_29=`}
|