My solution works with divide-and-conquer to melt all overlapping timespans in order to get a sorted list of non-overlapping timespans:

```
module Test
where
type Time = Int
type Start = Time
type Stop = Time
type Span = (Start, Stop)
timespans :: [Span]
timespans = [ (1200, 1210)
, (1202, 1209)
, (1505, 1900)
, (1300, 1500)
, (1400, 1430)
, (500,1200)
, (20,100)
]
flattentime :: [Span] -> [Span]
flattentime [] = []
flattentime [x] = [x]
flattentime (s:ss) = combine (flattentime [ times | times <- ss, (fst times) < (fst s) ]) s
(flattentime [ times | times <- ss, (fst times) >= (fst s) ])
combine [] s [] = [s]
combine [] s ss2 = melt s (head ss2) ++ tail ss2
combine ss1 s [] = firsts ss1 ++ melt (last ss1) s
combine ss1 s ss2 = (firsts ss1) ++ melt3 (last ss1) s (head ss2) ++ (tail ss2)
melt (x1,x2) (x3,x4) | x2 < x3 = [(x1,x2), (x3,x4)]
| x4 < x2 = [(x1,x2)]
| otherwise = [(x1,x4)]
melt3 (x1,x2) (x3,x4) (x5,x6) = if (length ss >1) then (head ss):(melt y (x5,x6)) else melt y (x5,x6)
where ss = melt (x1,x2) (x3,x4)
y = last ss
firsts [x] = []
firsts [] = []
firsts (x:xs) = x:(firsts xs)
```

Its not that clean and elegant I wished it would be ... anyone has a shorter solution to that?