= (GridSize/2)-y; const double dx = x - (GridSize/2); const double a = atan2(dy,dx)/M_PI; unsigned char rgb[4]; if(a<0) { rgb[0] = rgb[1] = 255 + 255*a;...
char)(255*Iteration/IterationMax)) ; color[0]=ucTemp; /* Red*/ color[1]=ucTemp; /* Green */ color[2]=ucTemp;/* Blue */ } else /* interior of Mandelbrot set */ { color[0]=0;...
0,0]) color("red",opacity) cylinder(h=2, r=pinRadius); } } outfn = n*6; module outputArrow(turning){ headArc =slotAngle/8; angus = atan2(-a,-r) + slotAngle/4 ;...
0,0]) color("red",opacity) cylinder(h=2, r=pinRadius); } } outfn = n*6; module outputArrow(turning){ headArc =slotAngle/8; angus = atan2(-a,-r) + slotAngle/4 ;...
0,0]) color("red",opacity) cylinder(h=2, r=pinRadius); } } outfn = n*6; module outputArrow(turning){ headArc =slotAngle/8; angus = atan2(-a,-r) + slotAngle/4 ;...
0,0]) color("red",opacity) cylinder(h=2, r=pinRadius); } } outfn = n*6; module outputArrow(turning){ headArc =slotAngle/8; angus = atan2(-a,-r) + slotAngle/4 ;...
0,0]) color("red",opacity) cylinder(h=2, r=pinRadius); } } outfn = n*6; module outputArrow(turning){ headArc =slotAngle/8; angus = atan2(-a,-r) + slotAngle/4 ;...
0,0]) color("red",opacity) cylinder(h=2, r=pinRadius); } } outfn = n*6; module outputArrow(turning){ headArc =slotAngle/8; angus = atan2(-a,-r) + slotAngle/4 ;...
0,0]) color("red",opacity) cylinder(h=2, r=pinRadius); } } outfn = n*6; module outputArrow(turning){ headArc =slotAngle/8; angus = atan2(-a,-r) + slotAngle/4 ;...
0,0]) color("red",opacity) cylinder(h=2, r=pinRadius); } } outfn = n*6; module outputArrow(turning){ headArc =slotAngle/8; angus = atan2(-a,-r) + slotAngle/4 ;...
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