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

Step 1: Underlying data structureWe choose a red-black tree in which each node

xcontains an intervalx:intand the key ofxis 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 informationIn addition to the intervals themselves, each node

xcontains a valuex.max, which is the maximum value of any interval endpoint stored in the sub-tree rooted atx.

Step 3: Maintaining the informationWe must verify that insertion and deletion take

O(lg n)time on an interval tree of n nodes. We can determinex.maxgiven intervalx.intand themaxvalues of nodex’s children:

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

Step 4: Developing new operationsThe only new operation we need is

`INTERVAL-SEARCH`

(T,i), which finds a node in treeTwhose interval overlaps intervali. If there is no interval that overlapsiin the tree, the procedure returns a pointer to the sentinelT:nil.

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

`max`

value. – Erik P. Sep 23 '13 at 19:06