I got the following assignment - I have a certain java code for a binary search tree and I need to add methods to do the following things with it:

- Transform the BST into an array that's sorted by BST data keys.
- Create a balanced BST from an ordered integer array.
- Use 1. and 2. to balance an existing BST (randomly generated and presumably somewhat unbalanced)
- Display the BST before and after balancing.

Please guys, help me if you're smarter than me and know how can that be achieved!

Here is the code that I need to work with:

```
import java.util.*;
class BtreeNode {
int data;
BtreeNode L,R;
static int depth=0;
public BtreeNode(){
data = 0; L = null; R=null;
}
public BtreeNode(int key){
this();data = key;
}
public String toString() {
return "["+data+"]";
}
public static BtreeNode insOrd(BtreeNode roo, int key){
if(roo==null)return new BtreeNode(key);
//Не се допуска повторение на ключове
if(key==roo.data)return roo;
if(key<roo.data)roo.L=insOrd(roo.L,key);
else roo.R=insOrd(roo.R,key);
return roo;
}
public static BtreeNode generate(int length) {
BtreeNode start = null;
Random rn = new Random();
for(int i = 0; i < length; i++){
start = insOrd(start,rn.nextInt(10000));
}
return start;
}
public static void spc(int n){
for(int i=0;i<n;i++)System.out.print(" ");
}
public static void print(BtreeNode roo){
if(roo!=null){
depth++;
print(roo.R);
spc(depth);System.out.println(roo);
print(roo.L);
depth--;
}
}
public static BtreeNode find(BtreeNode roo, int key){
BtreeNode r=null;
if(roo==null)return r;
if(roo.data==key)r= roo;
if(key>roo.data)r= find(roo.R,key);
if(key<roo.data)r= find(roo.L,key);
return r;
}
};
public class Main {
public static void main(String[] args){
int N;
Scanner sc = new Scanner(System.in);
System.out.print("Enter the number if tree items:");
N=sc.nextInt();
BtreeNode c = BtreeNode.generate(N);
BtreeNode.print(c);
/*
System.out.println("This tree has "+
BtreeNode.weight(c)+" nodes and "+
BtreeNode.height(c)+" levels.");
*/
}
}
```

**UPDATE:**

Thank you soooo much guys for your great help, you can't imagine how grateful I am for your advice!!!

I have the whole program working. I am going to post it because somebody might need something like that sometime.

```
import java.util.*;
class BtreeNode {
int data;
BtreeNode L,R;
static int depth=0;
public BtreeNode(){
data = 0; L = null; R=null;
}
public BtreeNode(int key){
this();data = key;
}
public String toString() {
return "["+data+"]";
}
public static ArrayList<BtreeNode> asList(BtreeNode node) {
ArrayList<BtreeNode> result = new ArrayList<BtreeNode>();
traverse(node, result);
Collections.sort(result, new Comparator<BtreeNode>() {
@Override
public int compare(BtreeNode arg0, BtreeNode arg1) {
if (arg0.data < arg1.data)
return -1;
else if (arg0.data > arg1.data)
return 1;
return 0;
}
});
return result;
}
private static void traverse(BtreeNode node, ArrayList<BtreeNode> result) {
if (node.L != null) {
traverse(node.L, result);
}
result.add(node);
if (node.R != null) {
traverse(node.R, result);
}
}
public static BtreeNode sortedArrayToBST (ArrayList<BtreeNode> result, int start, int end) {
if (start > end) return null;
// same as (start+end)/2, avoids overflow.
int mid = start + (end - start) / 2;
BtreeNode node = new BtreeNode(result.get(mid).data);
node.L = sortedArrayToBST(result, start, mid-1);
node.R = sortedArrayToBST(result, mid+1, end);
return node;
}
public static BtreeNode insOrd(BtreeNode roo, int key){
if(roo==null)return new BtreeNode(key);
if(key==roo.data)return roo;
if(key<roo.data)roo.L=insOrd(roo.L,key);
else roo.R=insOrd(roo.R,key);
return roo;
}
public static BtreeNode generate(int length) {
BtreeNode start = null;
Random rn = new Random();
for(int i = 0; i < length; i++){
start = insOrd(start,rn.nextInt(10000));
}
return start;
}
public static void spc(int n){
for(int i=0;i<n;i++)System.out.print(" ");
}
public static void print(BtreeNode roo){
if(roo!=null){
depth++;
print(roo.R);
System.out.print("Level "+depth);
spc(depth);
System.out.println(roo);
print(roo.L);
depth--;
}
}
public static BtreeNode find(BtreeNode roo, int key){
BtreeNode r=null;
if(roo==null)return r;
if(roo.data==key)r= roo;
if(key>roo.data)r= find(roo.R,key);
if(key<roo.data)r= find(roo.L,key);
return r;
}
};
public class Main {
public static void main(String[] args){
int N;
Scanner sc = new Scanner(System.in);
System.out.print("Enter the number if tree items:");
N=sc.nextInt();
BtreeNode c = BtreeNode.generate(N);
BtreeNode.print(c);
System.out.println("********************");
/*
System.out.println("This tree has "+
BtreeNode.weight(c)+" nodes and "+
BtreeNode.height(c)+" levels.");
*/
ArrayList<BtreeNode> result = BtreeNode.asList(c);
for (BtreeNode btreeNode : result) {
System.out.println(btreeNode.data);
}
// insert in sorted order
c = result.get(0);
for (int i = 1; i < result.size(); i++) {
BtreeNode.insOrd(c, result.get(i).data);
}
BtreeNode.print(c);
System.out.println("********************");
BtreeNode d = BtreeNode.generate(N);
BtreeNode.print(d);
System.out.println("********************");
ArrayList<BtreeNode> result2 = BtreeNode.asList(d);
for (BtreeNode btreeNode : result2) {
System.out.println(btreeNode.data);
}
System.out.println("********************");
BtreeNode.print(BtreeNode.sortedArrayToBST(result2, 0, result2.size()-1));
}
}
```