I have a list of tuples of tuples of type `:: [((a, b), (a, b), (a, b))]`

, in Haskell.

For some context, the 3 points `(a, b)`

represent a (time, value) pair on a U shaped curve with the first point, at the initial time t1 having a maximum value on the curve x1, the third point with a greater time t3=t1+dt and a value x3

I would like find the range for the widest U in the list `[((t1, x1), (t2, x2), (t3, x3))]`

by taking the tuple with the maximum `t3 - t1`

, and then returning the value `x2 - x1`

.

The only way I can think to do it is to first map each tuple in the list to `t3 - t1`

, find its index, then calculate x2 - x1 for that index in the original list. Is there a more elegant way to do this?

```
findMaxTime :: [((a, b), (a, b), (a, b))] -> Int
findMaxTime list = elemIndex (==min) $ map (\(x, y, z) -> fst z - fst x)
where min = minimum $ map (\(x, y, z) -> fst z - fst x)
findMaxVal :: [((a, b), (a, b), (a, b))] -> b
findMaxVal list = list !! findMaxTime list
```

Any help would be appreciated.

Thanks, Ash