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// Written by Ira Snyder
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//
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import java.io.*;
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class Driver {
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public static void main ( String [] args ) throws Exception {
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testBasicConstructor();
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System.out.println();
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testArrayConstructor();
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System.out.println();
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testGetters();
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System.out.println();
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testContains();
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System.out.println();
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testGet();
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System.out.println();
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testEquals();
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System.out.println();
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testRemove();
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}
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//creates an array of Integers from an array of ints. The returned array
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//will have all of the values multiplied by 200 (just to give my data
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//different values from the keys
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public static Integer[] makeIntegers( int[] a ) {
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Integer[] answer = new Integer[a.length];
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for( int i=0; i<a.length; i++ ) {
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answer[i] = new Integer(a[i]*200);
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}
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return answer;
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}
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public static AVLTree createTestTree( int size ) {
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int[] nums = new int[30];
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for( int i=0; i<30; i++ ) { nums[i] = i; }
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//returns the int[] as a Integer[] with the values
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//multiplied by 200
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Integer[] data = makeIntegers(nums);
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return new AVLTree(nums,data);
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}
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public static void testBasicConstructor() {
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//this should make a pole if the tree is not balanced (IE: a plain BST)
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//if the tree is _not_ balanced, this will print height = 7
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AVLTree poleTree = new AVLTree(1,new Integer(1));
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poleTree.add(2,new Integer(2));
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poleTree.add(3,new Integer(3));
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poleTree.add(4,new Integer(4));
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poleTree.add(5,new Integer(5));
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poleTree.add(6,new Integer(6));
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poleTree.add(7,new Integer(7));
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System.out.print("Should print 2: ");
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System.out.println("height = " + poleTree.getHeight());
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}
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public static void testArrayConstructor() {
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int[] nums = new int[30];
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for( int i=0; i<30; i++ ) { nums[i] = i; }
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//returns the int[] as a Integer[] with the values
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//multiplied by 200
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Integer[] data = makeIntegers(nums);
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AVLTree tree = new AVLTree(nums,data);
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System.out.print("size should be 30: ");
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System.out.println("size = " + tree.size());
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System.out.print("should be 4 or 5: ");
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System.out.println("height = " + tree.getHeight());
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}
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public static void testGetters() {
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AVLTree tree = new AVLTree(1,new Integer(1));
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tree.add(2,new Integer(2));
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tree.add(3,new Integer(3));
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System.out.println("tree = " + tree);
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System.out.println("tree.getRoot() = " + tree.getRoot());
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System.out.println("tree.getLeft() = " + tree.getLeft());
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System.out.println("tree.getRight() = " + tree.getRight());
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}
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public static void testContains() {
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AVLTree tree = createTestTree(30);
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System.out.println("tree.contains(20) = " + tree.contains(20));
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System.out.println("tree.contains(50) = " + tree.contains(50));
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}
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public static void testGet() {
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AVLTree tree = createTestTree(30);
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System.out.println("tree.get(10) = " + tree.get(10));
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System.out.println("tree.get(50) = " + tree.get(50));
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}
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public static void testEquals() {
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AVLTree tree1 = createTestTree(10);
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AVLTree tree2 = createTestTree(10);
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int[] nums = { 0,10,20,30,40,50,60,70,80,90 };
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Integer[] data = makeIntegers(nums);
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AVLTree tree3 = new AVLTree(nums,data);
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System.out.println("tree1 = " + tree1);
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System.out.println("tree2 = " + tree2);
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System.out.println("tree3 = " + tree3);
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System.out.println("tree1.equals(tree2) = " + tree1.equals(tree2));
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System.out.println("tree1.equals(tree3) = " + tree1.equals(tree3));
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}
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public static void testRemove() {
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AVLTree tree = createTestTree(30);
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//print the original tree
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System.out.println("tree = " + tree);
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//remove the first 10 elements
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for( int i=0; i<10; i++ ) {
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System.out.println("tree.remove(" + i + ") = " + tree.remove(i));
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}
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//remove some elements not in the tree
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for( int i=50; i<55; i++ ) {
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System.out.println("tree.remove(" + i + ") = " + tree.remove(i));
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}
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//print the tree after everything has been removed
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System.out.println("tree = " + tree);
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}
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}
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