I'll post my own implementation so far (just union operation), I'm using a functional language so be warned.. it may be confusing:

```
let rec calc c l1 l2 =
match c,l1,l2 with
None, (f1,t1) :: y1, ((f2,t2) :: y2 as n2) when f1 < f2 -> calc (Some (f1,t1)) y1 n2
| None, n1, (f2,t2) :: y2 -> calc (Some (f2,t2)) n1 y2
| None, _, _ -> []
| (Some (fc,tc) as cur), (f1,t1) :: y1, ((f2,t2) :: y2 as n2) when t1 <= fc -> calc cur y1 n2
| (Some (fc,tc) as cur), ((f1,t1) :: y1 as n1), (f2,t2) :: y2 when t2 <= fc -> calc cur n1 y2
| Some (fc,tc), (f1,t1) :: y1, ((f2,t2) :: y2 as n2) when f1 <= tc && t1 > fc -> calc (Some (fc,t1)) y1 n2
| Some (fc,tc), ((f1,t1) :: y1 as n1), (f2,t2) :: y2 when f2 <= tc && t2 > fc -> calc (Some (fc,t2)) n1 y2
| Some (fc,tc), (f1,t1) :: y1, ((f2,t2) :: y2 as n2) when f1 < f2 -> [fc,tc] @ calc (Some (f1,t1)) y1 n2
| Some (fc,tc), (t :: e as n1), (f2,t2) :: y2 -> [fc,tc] @ calc (Some (f2,t2)) n1 y2
| Some (fc,tc), [], (f,t) :: tr when f <= tc && t > tc -> calc (Some (fc,t)) [] tr
| Some (fc,tc), [], (f,t) :: tr when f <= tc && t <= tc -> calc (Some (fc,tc)) [] tr
| Some (fc,tc), [], x -> [fc,tc] @ x
| Some (fc,tc), (f,t) :: tr, [] when f <= tc && t > tc -> calc (Some (fc,t)) tr []
| Some (fc,tc), (f,t) :: tr, [] when f <= tc && t <= tc -> calc (Some (fc,tc)) tr []
| Some (fc,tc), x, [] -> [fc,tc] @ x
```

It uses the `c`

argument to store the current interval (on which merge overlapping ranges) while `l1`

and `l2`

are two `int*int list`

.

Syntax is easy, every row represent a single case that has `c`

, `l1`

and `l2`

specified in a precise way. Let me give you just some examples:

```
(Some (fc,tc) as cur), (f1,t1) :: y1, ((f2,t2) :: y2 as n2) when t1 <= fc -> calc cur y1 n2
```

I have a current range `fc,tc`

and the two lists contains at least one element (that's why of `(f1,t1)::y1`

), so if `t1 <= fc`

then the range of first list ends before the current and i can be discarded so it calls recursively itself with same `cur`

range, `y1`

in which the first one is discarded and `n2`

that is an alias for the same list received as an argument.

This is similar for every other case, when I find that no next range overlaps with `cur`

the I return `cur`

as an element of the final answer and start again from an empty one.