/*

"andyp",

andy, where are you in South America today?  I hope your spending those saved-Taco Bell dollars for only the best tequila...  drink one for me for i'll be a while...

o happy day... 
move forward in this generation...  triumphtantly...
won't you help to sing,
the songs of freedom,
songs of redemption,
is all i ever had,
redemption song...


-"andyo"  */


Durn="1.4",

// I want an inclined eliptical orbit--like a comet would have around a sun 

A0=" 80",		// Small axis
A1=" 100",  // Large axis
A2="sqrt( A1 * A1 - A0 * A0 )",   // Focus radius
A3="2 + rnd( 3 )",								        // Pick a random orbit speed factor 


B0="A1 * cos( t / A3 ) + A2",	// x
B1="A0 * sin( t / A3 )",     	// y

// B0 and B1 now trace out an orbit on the z-plane
// We'll 'incline' the orbit by rotating around the y-axis a little ( "x" is x and "y" is z )
// x' = x cos( a ) - y sin( a )
// y' = x sin( a ) + y cos( a )
B2=" .15 + .6 * ( .5 * cos( t / 9 ) + .5 )", 	// the ang -- we change it thru time
B3="B0 * cos( B2 )",
B4="B0 * sin( B2 )",

CamX="B3",
CamY="B1",
CamZ="B4",

CmLX="0",
CmLY="0",
CmLZ="20",

CUpX="0",
CUpY="0",
CUpZ="1",






R=".46 * ( 1- dt ) + .2",
G=".63 * dt + .32",
B=".66 * ( 1- dt )",

LvlR=".2",
LvlG=".95",
LvlB="0",

// Just makes the dt=0 linewidth 2
LWdt="1 + sqwv(1+dt)",



// Preferred dimentions/aspect
widt=400,heig=400,


ConL=1,ConB=2,





C0="1 - dt",
C1="40 * C0",

C2="30 * exp( - ( 3 * c0 ) ^ 4.6 )",

X="c1 * cos( 6.2831853 * s )",
Y="c1 * sin( 6.2831853 * s )",
Z="C0 * ( 13 * abs( fft( s ) ) + 5 * sin( 8 * PI * s ) ) + c2",



Scal="900",

ScSz=1,

Pers="90",


Vers=40