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I am looking into AVL trees and can not seem to find a reference code about removal (either by Googling or from a couple of textbooks I have handy).
I am not sure why is this, but do you know of any reference/example of deletion of AVL in java?
(I only found this:avl tree removal which it states in the link that it failed under testing)

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What is the question exactly? Is it "where can I find java code for removal from an AVL tree?" – amit May 27 '12 at 9:44
@amit:Yes.Reference code to study.Not sure why I can not readily found one as I have for insertion – Cratylus May 27 '12 at 9:46
@user384706 Did you find an acceptable answer? – Justin May 28 '12 at 18:50
@Justin:Still looking into this.Will wait a couple of days and then accept the one I can understand best – Cratylus May 28 '12 at 21:57
Great, let me know if I can be any more help. – Justin May 28 '12 at 22:38

I have an implementation of an AVL Tree in Java which has been well tested, if you'd like to use it for reference. It is based on the wikipedia description and it is commented pretty well.

Just like when you have to balance after a regular BST insert. You remove the node like a BST and then balance according to the below algorithm.

The cases for balancing after a BST remove are (node is the parent of the node which was used to replace the removed node):

    ... remove code ...
    // Re-balance the tree all the way up the tree
    while (nodeToRefactor != null) {
        nodeToRefactor = (AVLNode<T>) nodeToRefactor.parent;
    ... remove code ...

    ... balance code ...
    int balanceFactor = node.getBalanceFactor();
    if (balanceFactor==-2 || balanceFactor==2) {
        if (balanceFactor==-2) {
            AVLNode<T> ll = (AVLNode<T>) node.lesser.lesser;
            int lesser = ll.height;
            AVLNode<T> lr = (AVLNode<T>) node.lesser.greater;
            int greater = lr.height;
            if (lesser>=greater) {
            } else {
        } else if (balanceFactor==2) {
            AVLNode<T> rr = (AVLNode<T>) node.greater.greater;
            int greater = rr.height;
            AVLNode<T> rl = (AVLNode<T>) node.greater.lesser;
            int lesser = rl.height;
            if (greater>=lesser) {
            } else {
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+1 for the reference.I see that you use parent links.Are they necessary.So far I have seen insert implementations for AVL that do not need a parent link.Is it required for deletion? – Cratylus May 27 '12 at 14:01
Parent references certainly aren't necessary, if you are trying to conserve space per node. But they generally make the implementation cleaner and simpler in my opinion. – Justin May 27 '12 at 14:11
FYI, For a 100,000 Integer (big I integer) AVL Tree this implementation uses 4MB. I've got all the stats for the AVL Tree on the main page. – Justin May 27 '12 at 14:13
No I am not wondering about space.I was wondering if perhaps the algorithm actually required the use of parent links. – Cratylus May 27 '12 at 14:21
An AVL Tree does not require a parent link but my implementation does in the updateHeight() method and I also use the parent link to balance up the tree on add()/remove(). – Justin May 27 '12 at 14:34

The algorithm isn't that bad, once you have an implementation of balance()...

The first implementation that comes to mind is the implementation of TreeList in Apache Commons Collections, which is a list backed by an AVL tree. has the source code.

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The algorithm isn't that bad What do you mean here?That the approach to remove from an AVL tree is too convoluted in general? – Cratylus May 27 '12 at 9:57
That it isn't very convoluted, is what I'm saying. (As far as such things go.) Once you understand the general structure of the recursion that's going on -- which is demonstrated in the linked code -- the rest isn't too bad. – Louis Wasserman May 27 '12 at 10:01
I will look into this thank you.From a quick skim the AVLNode class is a lot different from what I have read so far. I am not sure if a lot more extra data are needed to actually implement the removal or this ALV tree implementation is just more "optimal" than what I have seen in textbooks – Cratylus May 27 '12 at 10:07
Note that a fair amount of the code here is needed because this is implementing a list, not a map or a set. Not all of these are needed in an everyday AVL tree. – Louis Wasserman May 27 '12 at 10:37

Tree deletion works by searching (in the same manner as lookup) until it finds the node to be removed, replaces it with its minimal successor (you could also use its maximal predecessor), then rebalances the tree. The rebalancing is done from the bottom up; after finding the node to be removed, the algorithm plunges down the left spine of the right subtree, finds the minimal successor, and rebalances as it works its way back up the tree to the node being deleted, which is replaced by the minimal successor. The only special case occurs when the item being deleted is not present in the tree, in which case the tree is returned unchanged. Here is my implementation of AVL trees, in Scheme; by using recursion rather than the more traditional iteration, the code becomes very simple:

(define (tree k v l r)
  (vector k v l r (+ (max (ht l) (ht r)) 1)))
(define (key t) (vector-ref t 0))
(define (val t) (vector-ref t 1))
(define (lkid t) (vector-ref t 2))
(define (rkid t) (vector-ref t 3))
(define (ht t) (vector-ref t 4))
(define (bal t) (- (ht (lkid t)) (ht (rkid t))))
(define nil (vector 'nil 'nil 'nil 'nil 0))
(vector-set! nil 2 nil)
(vector-set! nil 3 nil)
(define (nil? t) (eq? t nil))

(define (rot-left t)
  (if (nil? t) t
    (tree (key (rkid t))
          (val (rkid t))
          (tree (key t) (val t) (lkid t) (lkid (rkid t)))
          (rkid (rkid t)))))

(define (rot-right t)
  (if (nil? t) t
    (tree (key (lkid t))
          (val (lkid t))
          (lkid (lkid t))
          (tree (key t) (val t) (rkid (lkid t)) (rkid t)))))

(define (balance t)
  (let ((b (bal t)))
    (cond ((< (abs b) 2) t)
          ((positive? b)
            (if (< -1 (bal (lkid t))) (rot-right t)
              (rot-right (tree (key t) (val t)
                (rot-left (lkid t)) (rkid t)))))
          ((negative? b)
            (if (< (bal (rkid t)) 1) (rot-left t)
              (rot-left (tree (key t) (val t)
                (lkid t) (rot-right (rkid t)))))))))

(define (lookup lt? t k)
  (cond ((nil? t) #f)
        ((lt? k (key t)) (lookup lt? (lkid t) k))
        ((lt? (key t) k) (lookup lt? (rkid t) k))
        (else (cons k (val t)))))

(define (insert lt? t k v)
  (cond ((nil? t) (tree k v nil nil))
        ((lt? k (key t))
          (balance (tree (key t) (val t)
            (insert lt? (lkid t) k v) (rkid t))))
        ((lt? (key t) k)
          (balance (tree (key t) (val t)
            (lkid t) (insert lt? (rkid t) k v))))
        (else (tree k v (lkid t) (rkid t)))))

(define (delete-successor t)
  (if (nil? (lkid t)) (values (rkid t) (key t) (val t))
      (lambda () (delete-successor (lkid t)))
      (lambda (l k v)
        (values (balance (tree (key t) (val t) l (rkid t))) k v)))))

(define (delete lt? t k)
  (cond ((nil? t) nil)
        ((lt? k (key t))
          (balance (tree (key t) (val t)
            (delete lt? (lkid t) k) (rkid t))))
        ((lt? (key t) k)
          (balance (tree (key t) (val t)
            (lkid t) (delete lt? (rkid t) k))))
        ((nil? (lkid t)) (rkid t))
        ((nil? (rkid t)) (lkid t))
        (else (call-with-values
                (lambda () (delete-successor (rkid t)))
                (lambda (r k v) (balance (tree k v (lkid t) r)))))))
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