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i was going through the Introduction to Algorithms by Cormen chapter 14 (augmented data structures) in which he was talking about interval tree. Below is what he mentioned about the design approach behind interval tree.

Step 1: Underlying data structure

We choose a red-black tree in which each node x contains an interval x:int and the key of x is the low endpoint, x:int:low, of the interval. Thus, an inorder tree walk of the data structure lists the intervals in sorted order by low endpoint.

This can be done by declaring a node having min and max. The comparableTo function should compare only x.int.low.

Step 2: Additional information

In addition to the intervals themselves, each node x contains a value x.max, which is the maximum value of any interval endpoint stored in the subtree rooted at x.

Step 3: Maintaining the information

We must verify that insertion and deletion take O(logN) time on an interval tree of n nodes. We can determine x.max given interval x.int and the max values of node x’s children:

x:max = max(x.int.high; x.left.max; x.right.max)

Step 4: Developing new operations

The only new operation we need is INTERVAL-SEARCH.(T, i), which finds a node in tree T whose interval overlaps interval i. If there is no interval that overlaps i in the tree, the procedure returns a pointer to the sentinel T:nil.

I can implement this by AVL tree but out of curiosity want to know whether can we augment existing libraries in java like TreeSet or other collection entity to fit to above design. If yes can you please help in a sample code or example. Thanks in advance.

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2  
No, you cannot. –  Louis Wasserman Sep 20 '13 at 17:27
    
@LouisWasserman thanks for ur input. –  Trying Sep 20 '13 at 17:31
    
In particular, I think the reason you can't do this is that you can't hook into tree rotation events to update the max value. –  Erik P. Sep 23 '13 at 19:06
    
@ErikP. thanks. I have implemented by myself and below i have put. Comment on the same if you have any. –  Trying Sep 23 '13 at 19:13
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1 Answer

up vote 0 down vote accepted

My interval tree implementation with AVL tree.

public class IntervalTreeAVL<T>{
    private static class TreeNode<T>{
        private T low;
        private T high;
        private TreeNode<T> left;
        private TreeNode<T> right;
        private T max;
        private int height;
        private TreeNode(T l, T h){
            this.low=l;
            this.high=h;
            this.max=high;
            this.height=1;
        }
    }
    private TreeNode<T> root;
    public void insert(T l, T h){
        root=insert(root, l, h);
    }
    private TreeNode<T> insert(TreeNode<T> node, T l, T h){
        if(node==null){
            return new TreeNode<T>(l, h);
        }
        else{
            int k=((Comparable)node.low).compareTo(l);
            if(k>0){
                node.left=insert(node.left, l, h);
            }
            else{
                node.right=insert(node.right, l, h);
            }
            node.height=Math.max(height(node.left), height(node.right))+1;
            node.max=findMax(node);
            int hd = heightDiff(node);
            if(hd<-1){
                int kk=heightDiff(node.right);
                if(kk>0){
                    node.right=rightRotate(node.right);
                    return leftRotate(node);
                }
                else{
                    return leftRotate(node);
                }
            }
            else if(hd>1){
                if(heightDiff(node.left)<0){
                    node.left = leftRotate(node.left);
                    return rightRotate(node);
                }
                else{
                    return rightRotate(node);
                } 
            }
            else;
        }
        return node;
    }
    private TreeNode<T> leftRotate(TreeNode<T> n){
        TreeNode<T> r =  n.right;
        n.right = r.left;
        r.left=n;
        n.height=Math.max(height(n.left), height(n.right))+1;
        r.height=Math.max(height(r.left), height(r.right))+1;
        n.max=findMax(n);
        r.max=findMax(r);
        return r;
    }
    private TreeNode<T> rightRotate(TreeNode<T> n){
        TreeNode<T> r =  n.left;
        n.left = r.right;
        r.right=n;
        n.height=Math.max(height(n.left), height(n.right))+1;
        r.height=Math.max(height(r.left), height(r.right))+1;
        n.max=findMax(n);
        r.max=findMax(r);
        return r;
    }
    private int heightDiff(TreeNode<T> a){
        if(a==null){
            return 0;
        }
        return height(a.left)-height(a.right);
    }
    private int height(TreeNode<T> a){
        if(a==null){
            return 0;
        }
        return a.height;
    }
    private T findMax(TreeNode<T> n){
        if(n.left==null && n.right==null){
            return n.max;
        }
        if(n.left==null){
            if(((Comparable)n.right.max).compareTo(n.max)>0){
                return n.right.max;
            }
            else{
                return n.max;
            }
        }
        if(n.right==null){
           if(((Comparable)n.left.max).compareTo(n.max)>0){
                return n.left.max;
            }
            else{
                return n.max;
            } 
        }
        Comparable c1 = (Comparable)n.left.max;
        Comparable c2 = (Comparable)n.right.max;
        Comparable c3 = (Comparable)n.max;
        T max=null;
        if(c1.compareTo(c2)<0){
            max=n.right.max;
        }
        else{
            max=n.left.max;
        }
        if(c3.compareTo((Comparable)max)>0){
            max=n.max;
        }
        return max;
    }


TreeNode intervalSearch(T t1){
        TreeNode<T> t = root;
        while(t!=null && !isInside(t, t1)){
            if(t.left!=null){
                    if(((Comparable)t.left.max).compareTo(t1)>0){
                    t=t.left;
                }
                else{
                    t=t.right;
                }
            }
            else{
                t=t.right;
            }
        }
        return t;
    }
    private boolean isInside(TreeNode<T> node, T t){
        Comparable cLow=(Comparable)node.low;
        Comparable cHigh=(Comparable)node.high;
        int i = cLow.compareTo(t);
        int j = cHigh.compareTo(t);
        if(i<=0 && j>=0){
            return true;
        }
        return false;
    }
}
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Hi. An interesting implementation. Can you provide a main with a simple test case? Or if you prefer a junit test? Thank you. –  D-Klotz Jun 21 at 13:37
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