```
data Tree a = Leaf | Node (Tree a) a (Tree a) deriving (Eq, Show)
unfoldTree:: (b -> Maybe (b, a, b)) -> b -> Tree a
unfoldTreef b =
case f b of
Nothing -> Leaf
Just (lt, x, rt) -> Node (unfoldTree f lt) x (unfoldTree f rt)
```

Given the two piece of information above, I'm asked to implement a tree building function.

and my attempt is

```
treeBuild :: Integer -> Tree Integer
treeBuild 0 = Leaf
treeBuild n = treeUnfold (\b -> if b < 2^n-1
then Just(2*b, b + 1, 2*b + 1)
else Nothing)
0
```

The base case works where n = 0 works fine but I know the function is completely wrong. Can someone re-explain to me how would a `3-tuple Just`

work? In a normal unfold, the first element in a `Just`

would be the element I want and the second element would be used to continue unfolding but how does this work in a 3-tuple Just?

As example output:
`treeBuild 2 ----> Node (Node Leaf 0 Leaf) 1 (Node Leaf 2 Leaf)`

Edit:
I'm not completely sure how Just works here, for the case of `Just(2*b, b + 1, 2*b + 1)`

where b starts at 0, does it become `Just(0, 1, 0)`

? How do I actually increment b?