No doubt calculating solstices and equinoxes is not what you had in mind, but they are not too difficult.

Contrary to what some have said, solstices and equinoxes do not depend on where you are, though their names do- winter is called summer by somebody on half the globe.

```
Date.fromJulian= function(j){
j= (+j)+(30.0/(24*60*60));
var A= Date.julianArray(j, true);
return new Date(Date.UTC.apply(Date, A));
}
Date.julianArray= function(j, n){
var F= Math.floor;
var j2, JA, a, b, c, d, e, f, g, h, z;
j+= .5;
j2= (j-F(j))*86400.0;
z= F(j);
f= j-z;
if(z< 2299161) a= z;
else{
g= F((z-1867216.25)/36524.25);
a= z+1+g-F(g/4);
}
b= a+1524;
c= F((b-122.1)/365.25);
d= F(365.25*c);
e= F((b-d)/30.6001);
h= F((e< 14)? (e-1): (e-13));
var JA= [F((h> 2)? (c-4716): (c-4715)),
h-1, F(b-d-F(30.6001*e)+f)];
var JB= [F(j2/3600), F((j2/60)%60), Math.round(j2%60)];
JA= JA.concat(JB);
if(typeof n== 'number') return JA.slice(0, n);
return JA;
}
Date.getSeasons= function(y, wch){
y= y || new Date().getFullYear();
if(y<1000 || y> 3000) throw y+' is out of range';
var Y1= (y-2000)/1000, Y2= Y1*Y1, Y3= Y2*Y1, Y4= Y3*Y1;
var jd, t, w, d, est= 0, i= 0, Cos= Math.degCos, A= [y],
e1= [485, 203, 199, 182, 156, 136, 77, 74, 70, 58, 52, 50, 45, 44, 29, 18, 17, 16, 14, 12, 12, 12, 9, 8],
e2= [324.96, 337.23, 342.08, 27.85, 73.14, 171.52, 222.54, 296.72, 243.58, 119.81, 297.17, 21.02,
247.54, 325.15, 60.93, 155.12, 288.79, 198.04, 199.76, 95.39, 287.11, 320.81, 227.73, 15.45],
e3= [1934.136, 32964.467, 20.186, 445267.112, 45036.886, 22518.443,
65928.934, 3034.906, 9037.513, 33718.147, 150.678, 2281.226,
29929.562, 31555.956, 4443.417, 67555.328, 4562.452, 62894.029,
31436.921, 14577.848, 31931.756, 34777.259, 1222.114, 16859.074];
while(i< 4){
switch(i){
case 0: jd= 2451623.80984 + 365242.37404*Y1 + 0.05169*Y2 - 0.00411*Y3 - 0.00057*Y4;
break;
case 1: jd= 2451716.56767 + 365241.62603*Y1 + 0.00325*Y2+ 0.00888*Y3 - 0.00030*Y4;
break;
case 2: jd= 2451810.21715 + 365242.01767*Y1 - 0.11575*Y2 + 0.00337*Y3 + 0.00078*Y4;
break;
case 3: jd= 2451900.05952 + 365242.74049*Y1 - 0.06223*Y2 - 0.00823*Y3 + 0.00032*Y4;
break;
}
var t= (jd- 2451545.0)/36525,
w= 35999.373*t - 2.47,
d= 1 + 0.0334*Cos(w)+ 0.0007*Cos(2*w);
est= 0;
for(var n= 0; n<24; n++){
est += e1[n]*Cos(e2[n]+(e3[n]*t));
}
jd+= (0.00001*est)/d;
A[++i]= Date.fromJulian(jd);
}
return wch && A[wch]? A[wch]: A;
}
Math.degRad= function(d){
return (d*Math.PI)/180.0
}
Math.degSin= function(d){
return Math.sin(Math.degRad(d))
}
Math.degCos= function(d){
return Math.cos(Math.degRad(d))
}
```