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440 lines
9.1 KiB
Java
440 lines
9.1 KiB
Java
/*This is a Java Program to implement Pagoda. A pagoda is a priority queue implemented with a variant of a binary tree. The root points to its children, as in a binary tree. Every other node points back to its parent and down to its leftmost (if it is a right child) or rightmost (if it is a left child) descendant leaf. The basic operation is merge or meld, which maintains the heap property. An element is inserted by merging it as a singleton. The root is removed by merging its right and left children. Merging is bottom-up, merging the leftmost edge of one with the rightmost edge of the other.*/
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/*
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* Java Program to Implement Pagoda
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*/
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import java.util.Scanner;
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/* Class PNode */
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class PNode
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{
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PNode left, right;
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int data;
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/* Constructor */
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public PNode(int val)
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{
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data = val;
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left = null;
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right = null;
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}
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}
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/* Class Pagoda */
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class Pagoda
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{
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private PNode root;
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/* Constructor */
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public Pagoda()
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{
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root = null;
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}
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/* Function to check if empty */
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public boolean isEmpty()
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{
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return root == null;
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}
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/* Function to clear */
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public void makeEmpty()
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{
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root = null;
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}
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/* Function to insert value */
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public void insert(int val)
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{
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PNode newNode = new PNode(val);
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root = insert(newNode, root);
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}
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private PNode insert(PNode newNode, PNode pq)
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{
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newNode.left = newNode;
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newNode.right = newNode;
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return (merge(pq, newNode));
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}
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/* Function to merge two nodes */
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private PNode merge(PNode a, PNode b)
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{
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PNode bota, botb, r, temp;
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if (a == null)
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return b;
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else if (b == null)
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return a;
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else
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{
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bota = a.right;
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a.right = null;
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/* bottom of b's leftmost edge */
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botb = b.left;
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b.left = null;
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r = null;
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/* Merging loop */
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while ( bota != null && botb != null )
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if ( bota.data < botb.data )
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{
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temp = bota.right;
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if ( r == null )
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bota.right = bota;
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else
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{
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bota.right = r.right;
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r.right = bota;
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}
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r = bota;
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bota = temp;
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}
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else
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{
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temp = botb.left;
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if ( r == null )
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botb.left = botb;
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else
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{
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botb.left = r.left;
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r.left = botb;
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}
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r = botb;
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botb = temp;
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}
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/* one edge is exhausted, finish merge */
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if ( botb == null )
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{
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a.right = r.right;
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r.right = bota;
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return( a );
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}
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else
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{
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b.left = r.left;
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r.left = botb;
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return( b );
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}
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}
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}
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/* Function to delete */
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public void delete()
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{
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root = delete(root);
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}
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private PNode delete(PNode pq)
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{
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PNode le, ri;
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/* Deletion on empty queue */
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if ( pq == null )
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{
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System.out.println("Empty");
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return null;
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}
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else
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{
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/* Find left descendant of root */
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if ( pq.left == pq )
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le = null;
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else
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{
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le = pq.left;
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while ( le.left != pq )
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le = le.left;
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le.left = pq.left;
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}
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/* Find right descendant of root */
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if ( pq.right == pq )
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ri = null;
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else
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{
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ri = pq.right;
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while ( ri.right != pq )
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ri = ri.right;
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ri.right = pq.right;
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}
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/* merge them */
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return merge(le, ri);
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}
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}
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/* Function to print root value */
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public void printPagodaRoot()
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{
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if (root != null)
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System.out.print(root.data +"\n");
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else
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System.out.print("Empty\n");
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}
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}
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/* Class PagodaTest */
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public class PagodaTest
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{
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public static void main(String[] args)
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{
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Scanner scan = new Scanner(System.in);
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/* Creating object of Pagoda */
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Pagoda pgda = new Pagoda();
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System.out.println("Pagoda Test\n");
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char ch;
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/* Perform tree operations */
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do
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{
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System.out.println("\nPagoda Operations\n");
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System.out.println("1. insert ");
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System.out.println("2. delete");
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System.out.println("3. check empty");
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System.out.println("4. clear");
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int choice = scan.nextInt();
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switch (choice)
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{
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case 1 :
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System.out.println("Enter integer element to insert");
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pgda.insert( scan.nextInt() );
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break;
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case 2 :
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pgda.delete();
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break;
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case 3 :
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System.out.println("Empty status = "+ pgda.isEmpty());
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break;
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case 4 :
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System.out.println("\nCleared");
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pgda.makeEmpty();
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break;
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default :
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System.out.println("Wrong Entry \n ");
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break;
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}
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/* Display tree */
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System.out.print("\nRoot Element : ");
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pgda.printPagodaRoot();
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System.out.println("\nDo you want to continue (Type y or n) \n");
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ch = scan.next().charAt(0);
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}
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while (ch == 'Y'|| ch == 'y');
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}
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}
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/*
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Pagoda Operations
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1. insert
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2. delete
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3. check empty
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4. clear
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1
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Enter integer element to insert
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45
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Root Element : 45
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Do you want to continue (Type y or n)
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y
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Pagoda Operations
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1. insert
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2. delete
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3. check empty
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4. clear
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1
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Enter integer element to insert
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23
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Root Element : 45
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Do you want to continue (Type y or n)
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y
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Pagoda Operations
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1. insert
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2. delete
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3. check empty
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4. clear
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1
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Enter integer element to insert
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57
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Root Element : 57
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Do you want to continue (Type y or n)
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y
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Pagoda Operations
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1. insert
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2. delete
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3. check empty
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4. clear
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1
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Enter integer element to insert
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19
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Root Element : 57
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Do you want to continue (Type y or n)
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y
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Pagoda Operations
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1. insert
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2. delete
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3. check empty
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4. clear
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1
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Enter integer element to insert
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24
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Root Element : 57
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Do you want to continue (Type y or n)
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y
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Pagoda Operations
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1. insert
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2. delete
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3. check empty
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4. clear
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1
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Enter integer element to insert
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93
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Root Element : 93
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Do you want to continue (Type y or n)
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y
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Pagoda Operations
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1. insert
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2. delete
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3. check empty
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4. clear
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1
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Enter integer element to insert
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87
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Root Element : 93
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Do you want to continue (Type y or n)
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y
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Pagoda Operations
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1. insert
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2. delete
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3. check empty
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4. clear
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2
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Root Element : 87
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Do you want to continue (Type y or n)
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y
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Pagoda Operations
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1. insert
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2. delete
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3. check empty
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4. clear
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2
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Root Element : 57
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Do you want to continue (Type y or n)
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y
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Pagoda Operations
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1. insert
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2. delete
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3. check empty
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4. clear
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2
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Root Element : 45
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Do you want to continue (Type y or n)
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y
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Pagoda Operations
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1. insert
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2. delete
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3. check empty
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4. clear
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2
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Root Element : 24
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Do you want to continue (Type y or n)
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y
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Pagoda Operations
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1. insert
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2. delete
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3. check empty
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4. clear
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2
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Root Element : 23
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Do you want to continue (Type y or n)
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y
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Pagoda Operations
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1. insert
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2. delete
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3. check empty
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4. clear
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2
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Root Element : 19
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Do you want to continue (Type y or n)
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y
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Pagoda Operations
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1. insert
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2. delete
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3. check empty
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4. clear
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2
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Root Element : Empty
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Do you want to continue (Type y or n)
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y
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Pagoda Operations
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1. insert
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2. delete
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3. check empty
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4. clear
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3
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Empty status = true
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Root Element : Empty
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Do you want to continue (Type y or n)
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n |