You want your map to apply a function to any label carried by your tree. This means that any occurrence of `a`

is to be changed to an occurrence to `b`

, using the function given as a transformation function.

To do this, you'll need to figure out what to do with each possible constructor of the `Stree`

. Now, `Null`

is easy -- it won't depend on `a`

in the first place. Trickier is what to do with `Fork`

. In `Fork`

, there is one `a`

, and two further `Stree`

s sitting around, so you need functions that take `a -> b`

and that take `Stree a -> Stree b`

. For the former, the invocation of `mapStree`

gives you a function, and for the latter, `mapStree f`

has the call signature you need (by partial application!).

For `foldStree`

, you have some accumulation type `b`

and your labeltype `a`

, and an accumulation function that takes two values of type `b`

and a value of type `a`

and produces a `b`

. This is helpful, not in the least because that accumulation function mirrors what you might have at any given `Fork`

in the tree: by recursion you can assume you have results from both left and right `Stree`

, and it only remains to combine those with the `a`

value you have in the middle to give a new `b`

value to hand up the recursion. The `b`

parameter to `foldStree`

provides you with enough of a standard value to get the whole thing started by getting a value for each leaf.

Thus, your `foldStree`

will also need to be defined on the possible constructors: picking out the parameter for a `Null`

value, and then for a `Fork`

value, it needs to recurse into both `Stree`

values before combining everything with the parameter combining function.

Please clarify in comments whether this helps you enough to deal with the problem: I (and many others here) can clarify, but the hope is for you to learn how to do it rather than to just hand you code.

`Ord a =>`

constraint does not exist). – kennytm Oct 21 '10 at 7:02