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programming-examples/java/Data_Structures/Treap.java

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package com.jwetherell.algorithms.data_structures;
import java.util.ArrayList;
import java.util.List;
/**
* The treap and the randomized binary search tree are two closely related forms
* of binary search tree data structures that maintain a dynamic set of ordered
* values and allow binary searches among the values. After any sequence of
* insertions and deletions of values, the shape of the tree is a random
* variable with the same probability distribution as a random binary tree; in
* particular, with high probability its height is proportional to the logarithm
* of the number of values, so that each search, insertion, or deletion
* operation takes logarithmic time to perform.
*
* http://en.wikipedia.org/wiki/Treap
*
* @author Justin Wetherell <phishman3579@gmail.com>
*/
public class Treap<T extends Comparable<T>> extends BinarySearchTree<T> {
private static int randomSeed = Integer.MAX_VALUE; // This should be at least twice the number of Nodes
/**
* Default constructor.
*/
public Treap() {
this.creator = new BinarySearchTree.INodeCreator<T>() {
/**
* {@inheritDoc}
*/
@Override
public BinarySearchTree.Node<T> createNewNode(BinarySearchTree.Node<T> parent, T id) {
return (new TreapNode<T>(parent, id));
}
};
}
/**
* Constructor with a random seed.
*
* @param randomSeed
* to use as a random seed.
*/
public Treap(int randomSeed) {
this();
Treap.randomSeed = randomSeed;
}
/**
* Constructor with external Node creator.
*/
public Treap(INodeCreator<T> creator) {
super(creator);
}
/**
* Constructor with external Node creator.
*/
public Treap(INodeCreator<T> creator, int randomSeed) {
this(randomSeed);
this.creator = creator;
}
/**
* {@inheritDoc}
*/
@Override
protected Node<T> addValue(T id) {
Node<T> nodeToReturn = super.addValue(id);
TreapNode<T> nodeToAdd = (TreapNode<T>) nodeToReturn;
heapify(nodeToAdd);
return nodeToReturn;
}
/**
* Heapify up the treap at the current node to the root.
*
* @param current
* to heapify.
*/
private void heapify(TreapNode<T> current) {
// Bubble up the heap, if needed
TreapNode<T> parent = (TreapNode<T>) current.parent;
while (parent != null && current.priority > parent.priority) {
Node<T> grandParent = parent.parent;
if (grandParent != null) {
if (grandParent.greater != null && grandParent.greater == parent) {
// My parent is my grandparents greater branch
grandParent.greater = current;
current.parent = grandParent;
} else if (grandParent.lesser != null && grandParent.lesser == parent) {
// My parent is my grandparents lesser branch
grandParent.lesser = current;
current.parent = grandParent;
} else {
throw new RuntimeException("YIKES! Grandparent should have at least one non-NULL child which should be my parent.");
}
current.parent = grandParent;
} else {
root = current;
root.parent = null;
}
if (parent.lesser != null && parent.lesser == current) {
// LEFT
parent.lesser = null;
if (current.greater == null) {
current.greater = parent;
parent.parent = current;
} else {
Node<T> lost = current.greater;
current.greater = parent;
parent.parent = current;
parent.lesser = lost;
lost.parent = parent;
}
} else if (parent.greater != null && parent.greater == current) {
// RIGHT
parent.greater = null;
if (current.lesser == null) {
current.lesser = parent;
parent.parent = current;
} else {
Node<T> lost = current.lesser;
current.lesser = parent;
parent.parent = current;
parent.greater = lost;
lost.parent = parent;
}
} else {
// We really shouldn't get here
throw new RuntimeException("YIKES! Parent should have at least one non-NULL child which should be me.");
}
parent = (TreapNode<T>) current.parent;
}
}
/**
* {@inheritDoc}
*/
@Override
public String toString() {
return TreapPrinter.getString(this);
}
private static class TreapNode<T extends Comparable<T>> extends Node<T> {
private int priority = Integer.MIN_VALUE;
private TreapNode(Node<T> parent, int priority, T value) {
super(parent, value);
this.priority = priority;
}
private TreapNode(Node<T> parent, T value) {
this(parent, RANDOM.nextInt(randomSeed), value);
}
/**
* {@inheritDoc}
*/
@Override
public String toString() {
StringBuilder builder = new StringBuilder();
builder.append("priorty=").append(priority).append(" value=").append(id);
if (parent != null) builder.append(" parent=").append(parent.id);
builder.append("\n");
if (lesser != null) builder.append("left=").append(lesser.toString()).append("\n");
if (greater != null) builder.append("right=").append(greater.toString()).append("\n");
return builder.toString();
}
}
protected static class TreapPrinter {
public static <T extends Comparable<T>> String getString(Treap<T> tree) {
if (tree.root == null) return "Tree has no nodes.";
return getString((TreapNode<T>) tree.root, "", true);
}
private static <T extends Comparable<T>> String getString(TreapNode<T> node, String prefix, boolean isTail) {
StringBuilder builder = new StringBuilder();
builder.append(prefix + (isTail ? "└── " : "├── ") + "(" + node.priority + ") " + node.id + "\n");
List<Node<T>> children = null;
if (node.lesser != null || node.greater != null) {
children = new ArrayList<Node<T>>(2);
if (node.lesser != null) children.add(node.lesser);
if (node.greater != null) children.add(node.greater);
}
if (children != null) {
for (int i = 0; i < children.size() - 1; i++) {
TreapNode<T> treapNode = (TreapNode<T>) children.get(i);
builder.append(getString(treapNode, prefix + (isTail ? " " : "│ "), false));
}
if (children.size() >= 1) {
TreapNode<T> treapNode = (TreapNode<T>) children.get(children.size() - 1);
builder.append(getString(treapNode, prefix + (isTail ? " " : "│ "), true));
}
}
return builder.toString();
}
}
}
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