I want to implement a generic hierarchy for tree structures, which can later be used in an implementation-independent way to describe generic algorithms over trees.

I started with this hierarchy:

```
interface BinaryTree<Node> {
Node left(Node);
bool hasLeft(Node);
Node right(Node);
bool hasRight(Node);
}
interface BinaryTreeWithRoot<Node> : BinaryTree<Node> {
Node root();
}
interface BinaryTreeWithParent<Node> : BinaryTree<Node> {
Node parent(Node);
bool hasParent(Node);
}
```

Now, basically I want to be able to implement the concept of a subtree in a universal way: For each class T : BinaryTree, I want a 'class' Subtree(T) which provides the same functionality of T (so it must derive from it), and also rewrites the root() functionality.

Something like this:

```
class Subtree<T, Node> : T, BinaryTreeWithRoot<Node>
where T : BinaryTree<Node>
{
T reference;
Node root;
void setRoot(Node root) {
this.root = root;
}
override Node BinaryTreeWithRoot<Node>::root() {
return this.root;
}
// Now, inherit all the functionality of T, so an instance of this class can be used anywhere where T can.
forall method(arguments) return reference.method(arguments);
}
```

Now with this code I'm not sure how to create an object of type subtree, since the tree object should in some way be injected.

One approach is to create a subtree class for each tree class i create, but this means code duplication, and, after all, its the same thing.

So, one approach to this is mixins, which allow a generic class to derive from its template parameter.

I'm also interested how such a hierarchy can be implemented in Haskell, since Haskell has a great type system and I think it will be easier to inject such functionality.

For example in Haskell it may be something like:

```
class BinaryTree tree node where
left :: tree -> node -> node
right :: tree -> node -> node
class BinaryTreeWithRoot node where
left :: tree -> node -> node
right :: tree -> node -> node -- but this is a duplication of the code of BinaryTree
root :: tree -> node
instance BinaryTree (BinaryTreeWithRoot node) where
left = left
right = right
data (BinaryTree tree node) => Subtree tree node =
...
instance BinaryTreeWithRoot (Subtree tree node) where ...
```

I'm interested if and how this can be done in within an oop language (c++,c#,d,java), as c++ and d provide mixins out of the box (and i'm not sure for d), and out of curiosity with the Haskell type system.

`BinaryTreeWithRoot<Node>`

interface and chain the`BinaryTree<Node>`

calls on to the passed`reference`

of`T`

– Jodrell Aug 23 '11 at 8:31`SubTree`

should implement`BinaryTreeWithRoot<T>`

not`BinaryTreeWithRoot<Node>`

– Jodrell Aug 23 '11 at 9:00