Given two circle segments of the same circle: A=[a1, a2] and B=[b1, b2], with:

- a1, a2, b1, b2 values in degree between -inf and +inf
- a1 <= a2 ; b1 <= b2
- a2-a1<=360; b2-b1<=360

How can I find out if these two circle segments overlap? (i.E. if they intersect or touch in at least one point)

Examples:

```
A=[ -45°, 45°]; B=[ 10°, 20°] ==> overlap
A=[ -45°, 45°]; B=[ 90°, 180°] ==> no overlap
A=[ -45°, 45°]; B=[ 180°, 360°] ==> overlap
A=[ -405°, -315°]; B=[ 180°, 360°] ==> overlap
A=[-3600°, -3601°]; B=[ 3601°, 3602°] ==> overlap (touching counts as overlap)
A=[ 3600°, 3601°]; B=[-3601°,-3602°] ==> overlap (touching counts as overlap)
A=[ -1°, 1°]; B=[ 3602°, 3603°] ==> no overlap
```

This looks like a deceptively simple problem but I cannot wrap my head around it. I currently have a basic idea for a solution which involves splitting each segment into two if it crosses 0°, but I am not sure if that covers all cases, and I was wondering if there is an elegant formula.