Why does this method cause an Infinite Recursive call?

I'm struggling to understand why this class is not functioning. It was part of an assignment for a course on Data Structures(EDIT: The deadline for the assignment has passed, I just want to figure it out...). The node is part of an AVL tree built upon a BST and the way I chose to implement it is by creating methods within my Node class to find the Balance factor and height.

The class is structured as follows:

``````public class Node<T extends Comparable<? super T>> {

public T data;
public Node left;
public Node right;

public Node(T IN) {
data = IN;
}

public Node(T IN, Node L, Node R) {
this(IN);
left = L;
right = R;
}

@Override
public String toString() {
return data.toString();
}

@Override
public Node clone() {
return new Node(this.data) ;
}

public int getHeight() {
return getHeight(this) ;
}

public int getBF() {

//Calculate BF
int balanceFactor = 0;
if (right != null && left != null)
balanceFactor = getHeight(right) - getHeight(left);
else if (left != null) {
balanceFactor = 0 - getHeight(left) ;
}
else if (right != null) {
balanceFactor = getHeight(right) ;
}
else
balanceFactor = 0 ;
return balanceFactor ;
}

private int getHeight(Node p) {
if (p.left == null && p.right == null ) {
return 0 ;
}
else if (p.left != null && p.right != null) {
return 1 + max(p.left.getHeight(), p.right.getHeight());
}
else if (p.left != null) {
return 1 + p.left.getHeight() ;
}
else if (p.right != null) {
return 1 + p.right.getHeight() ;
}
else {
return 0;
}
}

private int max(int x, int y) {
if (x >= y) {
return x;
} else {
return y;
}
}
``````

}

and the function calling the method is:

``````@Override
public boolean insert(T el) {
boolean test = super.insert(el) ;
if (test) {
return checkBalance(root) ;
}
else
return false ;
}
``````

and the exception I recieve is a repetition of:

``````Exception in thread "main" java.lang.StackOverflowError
at Node.getHeight(Node.java:54)
at Node.getHeight(Node.java:33)
at Node.getHeight(Node.java:58)
``````
-
By the way, shouldn't the base case return 1 instead of 0? –  ppeterka Apr 2 '13 at 10:27
Be sure left and right reference null in the default and in the "int Node(T IN)" constructors :) –  Drewen Apr 2 '13 at 10:28
Did you check if you have a circle in your tree? This may cause the error... –  BobTheBuilder Apr 2 '13 at 10:29
@Drewen: why shouldn't they be? –  Axel Apr 2 '13 at 10:29
Well, in C++ is a "must" practice, but I just saw in Java it isn't :) –  Drewen Apr 2 '13 at 10:33

I would suggest that either your tree is deformed or really big. There seems to be no problems with the code.

If your tree is deformed in such a way that you have a `Node` inserted twice in the same tree then this code will break.

Added - You are eating a little more stack than you need - replacing `p.left.getHeight()` with `getHeight(p.left)` etc. would avoid one stack push per recursion. If your issue is merely big tree then this might scrape you through but this would only postpone the problem.

-
If I test the getHeight() and getBF() methods with a simple binary tree it seems to work, I'll take a look at my AVL tree to see if it is broken, thanks. –  UglyBunny Apr 2 '13 at 10:36
I fixed it! The problem was in my AVL-tree's checkBalance() method, I had simply switched my rotations around and the problem existed because of the broken tree, so thank you to @OldCurmudgeon for making me look at my Data structure! –  UglyBunny Apr 2 '13 at 11:38

From looking at both getHeight methods, it seems like you don't have a tree but a cyclic graph. You should start testing with a tree consisting of only the root and then add nodes until you observe the infinite recursion. You probably have an error in the function that rebalances the tree.

EDIT: And you should make the attributes (at least left and right) private.

-
"From looking at both getHeight methods, it seems like you don't have a tree but a cyclic graph" - how did you get to this conclusion? –  icepack Apr 2 '13 at 10:31
Because if it's a noncyclic graph the methods as they are won't lead to infinite recursion. –  Axel Apr 2 '13 at 11:44