diff options
Diffstat (limited to 'installerdependencies/visuals/projectM/presets/Krash - 3D Shapes Demo 2.milk')
-rw-r--r-- | installerdependencies/visuals/projectM/presets/Krash - 3D Shapes Demo 2.milk | 291 |
1 files changed, 0 insertions, 291 deletions
diff --git a/installerdependencies/visuals/projectM/presets/Krash - 3D Shapes Demo 2.milk b/installerdependencies/visuals/projectM/presets/Krash - 3D Shapes Demo 2.milk deleted file mode 100644 index 2ee59358..00000000 --- a/installerdependencies/visuals/projectM/presets/Krash - 3D Shapes Demo 2.milk +++ /dev/null @@ -1,291 +0,0 @@ -[preset00]
-fRating=3.000000
-fGammaAdj=2.000000
-fDecay=0.900000
-fVideoEchoZoom=1.000000
-fVideoEchoAlpha=0.000000
-nVideoEchoOrientation=0
-nWaveMode=0
-bAdditiveWaves=0
-bWaveDots=0
-bWaveThick=0
-bModWaveAlphaByVolume=0
-bMaximizeWaveColor=0
-bTexWrap=0
-bDarkenCenter=0
-bRedBlueStereo=0
-bBrighten=0
-bDarken=0
-bSolarize=0
-bInvert=0
-fWaveAlpha=1.000000
-fWaveScale=1.000000
-fWaveSmoothing=0.750000
-fWaveParam=0.000000
-fModWaveAlphaStart=0.750000
-fModWaveAlphaEnd=0.950000
-fWarpAnimSpeed=1.000000
-fWarpScale=1.000000
-fZoomExponent=1.000000
-fShader=0.000000
-zoom=1.000000
-rot=0.000000
-cx=0.500000
-cy=0.500000
-dx=0.000000
-dy=0.000000
-warp=1.000000
-sx=1.000000
-sy=1.000000
-wave_r=0.500000
-wave_g=0.500000
-wave_b=0.500000
-wave_x=0.500000
-wave_y=0.500000
-ob_size=0.000000
-ob_r=0.000000
-ob_g=0.000000
-ob_b=0.000000
-ob_a=0.000000
-ib_size=0.000000
-ib_r=0.000000
-ib_g=0.000000
-ib_b=0.000000
-ib_a=0.000000
-nMotionVectorsX=12.000000
-nMotionVectorsY=9.000000
-mv_dx=0.000000
-mv_dy=0.000000
-mv_l=0.900000
-mv_r=1.000000
-mv_g=1.000000
-mv_b=1.000000
-mv_a=0.000000
-wavecode_0_enabled=1
-wavecode_0_samples=512
-wavecode_0_sep=0
-wavecode_0_bSpectrum=0
-wavecode_0_bUseDots=0
-wavecode_0_bDrawThick=1
-wavecode_0_bAdditive=0
-wavecode_0_scaling=0.463735
-wavecode_0_smoothing=0.000000
-wavecode_0_r=1.000000
-wavecode_0_g=1.000000
-wavecode_0_b=1.000000
-wavecode_0_a=1.000000
-wave_0_init1=//pi
-wave_0_init2=t8=3.14159265;
-wave_0_init3=t5 = 1;
-wave_0_per_frame1=rotx = rotx+bass;
-wave_0_per_frame2=roty = roty+mid;
-wave_0_per_frame3=rotz = rotz+treb;
-wave_0_per_frame4=//rotx =0;
-wave_0_per_frame5=//roty =0;
-wave_0_per_frame6=//rotz =0;
-wave_0_per_frame7=
-wave_0_per_frame8=//convert rotation values from degrees to radians
-wave_0_per_frame9=t1= t8*rotx/180;
-wave_0_per_frame10=t2 = t8*roty/180;
-wave_0_per_frame11=t3 = t8*rotz/180;
-wave_0_per_frame12=
-wave_0_per_point1=//Define 3D Shape
-wave_0_per_point2=
-wave_0_per_point3=//Torus
-wave_0_per_point4=x0 = (1+value1)*sin(2*t8*sample);
-wave_0_per_point5=y0 = (1+value1)*cos(2*t8*sample);
-wave_0_per_point6=x1 = 0.5*sin(32*t8*sample)*y0+y0;
-wave_0_per_point7=y1 = 0.5*sin(32*t8*sample)*x0+x0;
-wave_0_per_point8=z1= 0.5*cos(32*t8*sample);
-wave_0_per_point9=
-wave_0_per_point10=//modulate values to adjust for rotation on multiple axes, convert to world co-ordinates
-wave_0_per_point11=y2 = y1*cos(t1)-z1*sin(t1);
-wave_0_per_point12=z2 = y1*sin(t1)+z1*cos(t1);
-wave_0_per_point13=x2 = z2*sin(t2)+x1*cos(t2);
-wave_0_per_point14=z3 = z2*cos(t2)-x1*sin(t2);
-wave_0_per_point15=x3 = x2*cos(t3)-y2*sin(t3);
-wave_0_per_point16=y3 = y2*cos(t3)+x2*sin(t3);
-wave_0_per_point17=//move resulting shape in 3d space
-wave_0_per_point18=x4 = x3;
-wave_0_per_point19=y4 = y3;
-wave_0_per_point20=z4 = z3+2;
-wave_0_per_point21=//draw 3d shape in 2d
-wave_0_per_point22=x=0.5+0.5*(x4/(1+z4*0.5));
-wave_0_per_point23=y=0.5+0.5*(y4/(1+z4*0.5));
-wavecode_1_enabled=0
-wavecode_1_samples=512
-wavecode_1_sep=0
-wavecode_1_bSpectrum=0
-wavecode_1_bUseDots=0
-wavecode_1_bDrawThick=1
-wavecode_1_bAdditive=0
-wavecode_1_scaling=0.463735
-wavecode_1_smoothing=0.000000
-wavecode_1_r=1.000000
-wavecode_1_g=1.000000
-wavecode_1_b=1.000000
-wavecode_1_a=1.000000
-wave_1_init1=//pi
-wave_1_init2=t8=3.14159265;
-wave_1_init3=t5 = 1;
-wave_1_per_frame1=rotx = rotx+bass;
-wave_1_per_frame2=roty = roty+mid;
-wave_1_per_frame3=rotz = rotz+treb;
-wave_1_per_frame4=//rotx = 0;
-wave_1_per_frame5=//roty =0;
-wave_1_per_frame6=//rotz = 0;
-wave_1_per_frame7=
-wave_1_per_frame8=//convert rotation values from degrees to radians
-wave_1_per_frame9=t1= t8*rotx/180;
-wave_1_per_frame10=t2 = t8*roty/180;
-wave_1_per_frame11=t3 = t8*rotz/180;
-wave_1_per_frame12=
-wave_1_per_frame13=t4 = 3*sin(time+0.66*t8);
-wave_1_per_frame14=t5 = 10+8*cos(time+0.66*t8);
-wave_1_per_frame15=
-wave_1_per_frame16=b = 0.5-0.4*cos(time+0.66*t8);
-wave_1_per_frame17=g = 0.5-0.4*sin(time+0.66*t8);
-wave_1_per_point1=//Define 3D Shape
-wave_1_per_point2=
-wave_1_per_point3=//Sphere
-wave_1_per_point4=x1 = (1+value1)*sin(t8*sample)*sin(16*t8*sample);
-wave_1_per_point5=y1 = (1+value1)*cos(t8*sample);
-wave_1_per_point6=z1= (1+value1)*sin(t8*sample)*cos(16*t8*sample);
-wave_1_per_point7=
-wave_1_per_point8=//modulate values to adjust for rotation on multiple axes, convert to world co-ordinates
-wave_1_per_point9=y2 = y1*cos(t1)-z1*sin(t1);
-wave_1_per_point10=z2 = y1*sin(t1)+z1*cos(t1);
-wave_1_per_point11=x2 = z2*sin(t2)+x1*cos(t2);
-wave_1_per_point12=z3 = z2*cos(t2)-x1*sin(t2);
-wave_1_per_point13=x3 = x2*cos(t3)-y2*sin(t3);
-wave_1_per_point14=y3 = y2*cos(t3)+x2*sin(t3);
-wave_1_per_point15=//move resulting shape in 3d space
-wave_1_per_point16=x4 = x3+t4;
-wave_1_per_point17=y4 = y3;
-wave_1_per_point18=z4 = z3+t5;
-wave_1_per_point19=//draw 3d shape in 2d
-wave_1_per_point20=x=0.5+0.5*(x4/(1+z4*0.5));
-wave_1_per_point21=y=0.5+0.5*(y4/(1+z4*0.5));
-wave_1_per_point22=
-wave_1_per_point23=r = g+value1;
-wavecode_2_enabled=0
-wavecode_2_samples=512
-wavecode_2_sep=0
-wavecode_2_bSpectrum=0
-wavecode_2_bUseDots=0
-wavecode_2_bDrawThick=1
-wavecode_2_bAdditive=0
-wavecode_2_scaling=0.463735
-wavecode_2_smoothing=0.000000
-wavecode_2_r=1.000000
-wavecode_2_g=1.000000
-wavecode_2_b=1.000000
-wavecode_2_a=1.000000
-wave_2_init1=//pi
-wave_2_init2=t8=3.14159265;
-wave_2_init3=t5 = 1;
-wave_2_per_frame1=rotx = rotx+bass;
-wave_2_per_frame2=roty = roty+mid;
-wave_2_per_frame3=rotz = rotz+treb;
-wave_2_per_frame4=//rotx = 0;
-wave_2_per_frame5=//roty =0;
-wave_2_per_frame6=//rotz = 0;
-wave_2_per_frame7=
-wave_2_per_frame8=//convert rotation values from degrees to radians
-wave_2_per_frame9=t1= t8*rotx/180;
-wave_2_per_frame10=t2 = t8*roty/180;
-wave_2_per_frame11=t3 = t8*rotz/180;
-wave_2_per_frame12=
-wave_2_per_frame13=t4 = 3*sin(time+1.33*t8);
-wave_2_per_frame14=t5 = 10+8*cos(time+1.33*t8);
-wave_2_per_frame15=
-wave_2_per_frame16=r = 0.5-0.4*cos(time+1.33*t8);
-wave_2_per_frame17=b = 0.5-0.4*sin(time+1.33*t8);
-wave_2_per_point1=//Define 3D Shape
-wave_2_per_point2=
-wave_2_per_point3=//Cube
-wave_2_per_point4=x0 = if(below(sample*12,1),sample*12, if(below(sample*12,2),1, if(below(sample*12,3),abs(sample*12-3), if(below(sample*12,6),0, if(below(sample*12,8),1, if(below(sample*12,9),abs(sample*12-9), if(below(sample*12,10),0, if(below(sample*12,11),sample*12-10,1))))))));
-wave_2_per_point5=y0 = if(below(sample*12,1),0, if(below(sample*12,2),sample*12-1, if(below(sample*12,3),1, if(below(sample*12,4),abs(sample*12-4), if(below(sample*12,5),0, if(below(sample*12,7),1, if(below(sample*12,9),0, if(below(sample*12,10),sample*12-9, if(below(sample*12,11),1,abs(sample*12-12))))))))));
-wave_2_per_point6=z0 = if(below(sample*12,4),0, if(below(sample*12,5),sample*12-4, if(below(sample*12,6),abs(sample*12-6), if(below(sample*12,7),sample*12-6, if(below(sample*12,8),abs(sample*12-8),1)))));
-wave_2_per_point7=x1 = 0.5-x0+if(below(sin(sample*12*3.1415),0),value1,0);
-wave_2_per_point8=y1 = 0.5-y0+if(below(cos((sample*12-1.5)*3.1415),0),value1,0);
-wave_2_per_point9=z1 = 0.5-z0+if(below(sample*12,4),0,if(below(sample*12,8),value1,0));
-wave_2_per_point10=
-wave_2_per_point11=//modulate values to adjust for rotation on multiple axes, convert to world co-ordinates
-wave_2_per_point12=y2 = y1*cos(t1)-z1*sin(t1);
-wave_2_per_point13=z2 = y1*sin(t1)+z1*cos(t1);
-wave_2_per_point14=x2 = z2*sin(t2)+x1*cos(t2);
-wave_2_per_point15=z3 = z2*cos(t2)-x1*sin(t2);
-wave_2_per_point16=x3 = x2*cos(t3)-y2*sin(t3);
-wave_2_per_point17=y3 = y2*cos(t3)+x2*sin(t3);
-wave_2_per_point18=//move resulting shape in 3d space
-wave_2_per_point19=x4 = x3+t4;
-wave_2_per_point20=y4 = y3;
-wave_2_per_point21=z4 = z3+t5;
-wave_2_per_point22=//draw 3d shape in 2d
-wave_2_per_point23=x=0.5+0.5*(x4/(1+z4*0.5));
-wave_2_per_point24=y=0.5+0.5*(y4/(1+z4*0.5));
-wave_2_per_point25=
-wave_2_per_point26=g = b+value1;
-shapecode_0_enabled=0
-shapecode_0_sides=4
-shapecode_0_additive=0
-shapecode_0_thickOutline=0
-shapecode_0_x=0.500000
-shapecode_0_y=0.500000
-shapecode_0_rad=0.100000
-shapecode_0_ang=0.000000
-shapecode_0_r=1.000000
-shapecode_0_g=0.000000
-shapecode_0_b=0.000000
-shapecode_0_a=1.000000
-shapecode_0_r2=0.000000
-shapecode_0_g2=1.000000
-shapecode_0_b2=0.000000
-shapecode_0_a2=0.000000
-shapecode_0_border_r=1.000000
-shapecode_0_border_g=1.000000
-shapecode_0_border_b=1.000000
-shapecode_0_border_a=0.100000
-shapecode_1_enabled=0
-shapecode_1_sides=4
-shapecode_1_additive=0
-shapecode_1_thickOutline=0
-shapecode_1_x=0.500000
-shapecode_1_y=0.500000
-shapecode_1_rad=0.100000
-shapecode_1_ang=0.000000
-shapecode_1_r=1.000000
-shapecode_1_g=0.000000
-shapecode_1_b=0.000000
-shapecode_1_a=1.000000
-shapecode_1_r2=0.000000
-shapecode_1_g2=1.000000
-shapecode_1_b2=0.000000
-shapecode_1_a2=0.000000
-shapecode_1_border_r=1.000000
-shapecode_1_border_g=1.000000
-shapecode_1_border_b=1.000000
-shapecode_1_border_a=0.100000
-shapecode_2_enabled=0
-shapecode_2_sides=4
-shapecode_2_additive=0
-shapecode_2_thickOutline=0
-shapecode_2_x=0.500000
-shapecode_2_y=0.500000
-shapecode_2_rad=0.100000
-shapecode_2_ang=0.000000
-shapecode_2_r=1.000000
-shapecode_2_g=0.000000
-shapecode_2_b=0.000000
-shapecode_2_a=1.000000
-shapecode_2_r2=0.000000
-shapecode_2_g2=1.000000
-shapecode_2_b2=0.000000
-shapecode_2_a2=0.000000
-shapecode_2_border_r=1.000000
-shapecode_2_border_g=1.000000
-shapecode_2_border_b=1.000000
-shapecode_2_border_a=0.100000
-per_frame_1=warp=0;
-per_frame_2=wave_a=0;
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