While jozefg's solution is almost identical to what I came up with (and I completely agree to all his suggestions), there are some small differences that made me think that I should post a second answer:

- Due to the expected result of the initial example, it is not necessary to treat space-separated parts as individual subtrees.
- Further it might be interesting to see the part that actually computes the expected results (i.e., a list of strings).

So here is my version. As already suggested by jozefg, split the task into several sub-tasks. Those are:

- Parse a string into an algebraic data type representing some kind of tree.
- Collect the (desired) subtrees of this tree.
- Turn trees into strings.

Concerning 1, we first need a tree data type

```
import Text.Parsec
import Text.Parsec.String
import Control.Applicative ((<$>))
data Tree = Leaf String | Node [Tree]
```

and then a function that can parse strings into values of this type.

```
parseTree :: Parser Tree
parseTree = node <|> leaf
where
node = Node <$> between (char '(') (char ')') (many parseTree)
leaf = Leaf <$> many1 (noneOf "()")
```

In my version I do consider the hole string between parenthesis as a `Leaf`

node (i.e., I do not split at white-spaces).

Now we need to collect the subtrees of a tree we are interested in:

```
nodes :: Tree -> [Tree]
nodes (Leaf _) = []
nodes t@(Node ts) = t : concatMap nodes ts
```

Finally, a `Show`

-instance for `Tree`

s allows us to turn them into strings.

```
instance Show Tree where
showsPrec d (Leaf x) = showString x
showsPrec d (Node xs) = showString "(" . showList xs . showString ")"
where
showList [] = id
showList (x:xs) = shows x . showList xs
```

Then the original task can be solved, e.g., by:

```
parseGroups :: Parser [String]
parseGroups = map show . nodes <$> parseTree
> parseTest parseGroups "((a b c) a b c)"
["((a b c) a b c)","(a b c)"]
```