In *Haskell* I can define following data type:

```
data Tree = Empty
| Leaf Int
| Node Tree Tree
```

and then write polymorphic function like this:

```
depth :: Tree -> Int
depth Empty = 0
depth (Leaf n) = 1
depth (Node l r) = 1 + max (depth l) (depth r)
```

In *Java* I can emulate algebraic data types with interfaces:

```
interface Tree {}
class Empty implements Tree {}
class Leaf implements Tree { int n; }
class Node implements Tree { Tree l; Tree r; }
```

But if I try to use Haskell-like polymorphism, I get an error:

```
int depth(Empty node) {
return 0;
}
int depth(Leaf node) {
return 1;
}
int depth(Node node) {
return 1 + Math.max(depth(node.l), depth(node.r)); // ERROR: Cannot resolve method 'depth(Tree)'
}
```

Correct way to overcome this is to **put method** `depth()`

**to each class**. But what if I **don't want** to put it there? For example, method `depth()`

may be not directly related to `Tree`

and adding it to class would break business logic. Or, even worse, `Tree`

may be written in 3rd party library that I don't have access to. In this case, what is the **simplest way** to implement **ADT-like polymorpism**?

Just in case, for the moment I'm using following syntax, which is obviously ill-favored:

```
int depth(Tree tree) {
if (tree instanceof Empty) depth((Empty)tree)
if (tree instanceof Leaf) depth((Leaf)tree);
if (tree instanceof Node) depth((Node)tree);
else throw new RuntimeException("Don't know how to find depth of " + tree.getClass());
}
```

`TreeInterface`

and my`Tree`

which is already an interface for`Empty`

,`Leaf`

and`Node`

? – ffriend Oct 5 '12 at 21:14`depth`

is not a polymorphic function.`Tree`

is a sum type with different constructors, but each constructor produces the same thing - an object of type`Tree`

– stephen tetley Oct 6 '12 at 6:39