# Create a Binary Tree from an Array

I need to create a tree from an array after processing the elements by following algorithm:

``````1. let A[n] be the array
2. while lenght(A) > 1
3.      for i = 0 to lenght(A)-2
4.          new_A[i] = max(A[i], A[i+1]) + 1
5.      end for
6.      [minValue, minIndex] = someFunction(new_A) // someFunction returns the minimum value and index of the same
7.      delete A[minIndex] and A[minIndex + 1] from A and insert minValue in that place // basically A[minIndex] and A[minIndex + 1] are being replaced by minValue
8.  // This is how the length of A is being decreased by 1 in each iteration
9. end while
``````

Example:

``````+--------------+----------------------+-----------------+---------------+
| iteration No | Array A              | Array new_A     | Remarks       |
+--------------+----------------------+-----------------+---------------+
|            1 | 5-9-3-2-1-6-8-3      |10-10-4-3-7-9-9  | minValue = 3  |
|              |                      |                 | minIndex = 3  |
+--------------+----------------------+-----------------+---------------+
|            2 | 5-9-3-3-6-8-3        |10-10-4-7-9-9    | minValue = 4  |
|              |                      |                 | minIndex = 2  |
+--------------+----------------------+-----------------+---------------+
|            3 | 5-9-4-6-8-3          |10-10-7-9-9      | minValue = 7  |
|              |                      |                 | minIndex = 2  |
+--------------+----------------------+-----------------+---------------+
|            4 | 5-9-7-8-3            |10-10-9-9        | minValue = 9  |
|              |                      |                 | minIndex = 2  |
+--------------+----------------------+-----------------+---------------+
|            5 | 5-9-9-3              |10-10-10         | minValue = 10 |
|              |                      |                 | minIndex = 0  |
+--------------+----------------------+-----------------+---------------+
|            6 | 10-9-3               |11-10            | minValue = 10 |
|              |                      |                 | minIndex = 1  |
+--------------+----------------------+-----------------+---------------+
|            7 | 10-10                |11               | minValue = 11 |
|              |                      |                 | minIndex = 0  |
+--------------+----------------------+-----------------+---------------+
|            8 | 11                   |--               | --            |
+--------------+----------------------+-----------------+---------------+
``````

Until this everything is okay. But I need to represent this in a tree. The resulting tree will be as follows:

`````` iteration# 8           11
/  \
/    \
iteration# 7        /      \------- 10
/               /  \
iteration# 6     10               /    \
/  \             /      \
iteration# 5   |    |           9        \
|    |          / \        \
iteration# 4   |    |         7   \        \
|    |        / \   \        |
iteration# 3   |    |       4   \   \       |
|    |      / \   \   \      |
iteration# 2   |    |     /   3   \   \     |
|    |    /   / \   \   \    |
iteration# 1   5    9   3   2   1   6   8   3
``````

The logic is to get the `minValue` and make it a root and make the corresponding array elements (from which the `minValue` came) children. This is how we can grow the tree. It can be somehow called a binary tree as each node has exactly 2 children. The problem I am facing is that if I take previous root as one of the children I might not get the exact answer. Because see in the iteration 5, the `minValue` I am getting is not the contribution of previous root. So now my whole previously made tree might get lost. Is there anything I can do to get the whole tree structure? I am using JAVA.

EDIT: Is there any way to create a tree from the bottom (i.e. the leaf node) in JAVA. Like first create a parent with two children, then put this parent as a child of another node and gradually reach to the top. So taking into account above example can anyone help me write the code. Below is my code, I am just not able to create the tree from the leaf.

``````public class Main {

private static int GATE_COST = 1;
private static BinaryTree bt;
private static float num;

public static void main(String[] args) throws IOException {
File filePin = new File("C:/somePath/files/pin.txt");
int lenData = Integer.parseInt(line.trim());
float[] data = new float[lenData];
for (int i = 0; i < lenData; i++) {
data[i] = Float.parseFloat(line.trim());
}
bt = new BinaryTree();
num = sysnthesis(data);
System.out.println("\nArrival: " + num);
}

private static float sysnthesis(float[] data) {
while (data.length > 1) {
for (int i = 0; i < data.length; i++) {
System.out.print(data[i] + " ");
}
float[] cost = getCost(data);

float minValue = cost;
int minIndex = 0;
for (int i = 0; i < cost.length; i++) {
if (cost[i] < minValue) {
minValue = cost[i];
minIndex = i;
}
}
createTree(data, minValue, minIndex); // I am not able to create its body
data = getNewData(data, minValue, minIndex);
System.out.print("\n");
}
System.out.print(data);
return data;
}

private static float[] getCost(float[] data) {
float[] cost = new float[data.length - 1];
for (int i = 0; i < data.length - 1; i++) {
cost[i] = Math.max(data[i], data[i+1]) + GATE_COST;
}
return cost;
}

private static float[] getNewData(float[] data, float minValue, int minIndex) {
float[] newData = new float[data.length - 1];
int i = 0;
for (; i < minIndex; i++) {
newData[i] = data[i];
}
newData[i++] = minValue;
for (; i < data.length - 1; i++) {
newData[i] = data[i+1];
}
return newData;
}

private static void createTree(float[] data, float minValue, int minIndex) {
/**
My code goes here
*/
}
}
``````

pin.txt contains something like this:

``````8
5.0
9.0
3.0
2.0
1.0
6.0
8.0
3.0
``````

• Q: Is there anything I can do to get the whole tree structure? A: Whenever you create a tree like this, you'll almost always save the initial node in a separate variable, e.g. "root". EXAMPLE: `Node root = null;`. Oct 30 '15 at 0:21
• @paulsm4: You mean create an ArrayList or something of type Node and save the previous node in the ArrayList whenever I make new tree? Oct 30 '15 at 0:33
• No. I mean a "tree" consists of "nodes". Each node contains 1) data, and 2) links to adjoining nodes. The "adjoining nodes" will change as you build your tree. But you always want to save a reference to the first, "root" node. Oct 30 '15 at 1:17
• (The "logic" (of `someFunction`) would seem to be take two adjacent nodes with minimal maximum, create as a new parent for these a node with the successor of that maximum) Oct 30 '15 at 5:14
• @greybeard: yes, it is Oct 30 '15 at 5:58

I think I did find the answer to my problem myself, so just wanna share it. Its kind of complex solution, but it works perfectly and I tried with 10-100 input pins, it gives me correct tree. I am sharing the JAVA code.

Main.java

``````public class Main {

private static int GATE_COST = 1;
private static BinaryTree bt;
private static ArrayList<Node> arrNodes;
private static int currDepth = 0;

public static void main(String[] args) throws IOException {
File filePin = new File("C:/Users/Arindam/workspace/TreeSynthesis/files/pin.txt");
int lenData = Integer.parseInt(line.trim());
float[] data = new float[lenData];
for (int i = 0; i < lenData; i++) {
data[i] = Float.parseFloat(line.trim());
}
arrNodes = new ArrayList<Node>();
bt = new BinaryTree();
String arrival = sysnthesis(data);
System.out.println("Arrival: " + arrival);
System.out.println("Topology: ");
bt.printPostorder();
}

private static String sysnthesis(float[] data) {
ArrayList<Node> dataNodes = convertArraytoNode(data);
while (dataNodes.size() > 1) {
for (int i = 0; i < dataNodes.size(); i++) {
System.out.print(dataNodes.get(i).getData() + " ");
}
float[] cost = getCost(dataNodes);

float minValue = cost;
int minIndex = 0;
for (int i = 0; i < cost.length; i++) {
if (cost[i] < minValue) {
minValue = cost[i];
minIndex = i;
}
}
createTree(dataNodes, minValue, minIndex);
dataNodes = getNewDataNodes(dataNodes, minValue, minIndex);
//bt.printPostorder();
System.out.println();
}
System.out.print(dataNodes.get(0).getData()+ "\n");
return dataNodes.get(0).getData();
}

private static ArrayList<Node> convertArraytoNode(float[] data) {
ArrayList<Node> dataNodes = new ArrayList<Node>();
for (int i = 0; i < data.length; i++) {
}
return dataNodes;
}

private static float[] getCost(ArrayList<Node> dataNodes) {
float[] cost = new float[dataNodes.size() - 1];
for (int i = 0; i < dataNodes.size() - 1; i++) {
cost[i] = Math.max(Float.parseFloat(dataNodes.get(i).getData()),
Float.parseFloat(dataNodes.get(i+1).getData())) + GATE_COST;
}
return cost;
}

private static ArrayList<Node> getNewDataNodes(ArrayList<Node> dataNodes, float minValue, int minIndex) {
dataNodes.get(minIndex).setData(Float.toString(minValue));
dataNodes.get(minIndex).setDepth(currDepth);
dataNodes.remove(minIndex + 1);
return dataNodes;
}

private static void createTree(ArrayList<Node> dataNodes, float minValue, int minIndex) {
Node root = null, lChild = null, rChild = null;
root = new Node(Float.toString(minValue), ++currDepth);
int flag = 0;
ArrayList<Integer> deleteIndex = new ArrayList<Integer>();
if (!arrNodes.isEmpty()) {
for (int i = 0; i < arrNodes.size(); i++) {
if (arrNodes.get(i).getData().equals(dataNodes.get(minIndex).getData()) &&
dataNodes.get(minIndex).getDepth() == currDepth - arrNodes.size() + i) {
flag++;
lChild = arrNodes.get(i);
}
else if (arrNodes.get(i).getData().equals(dataNodes.get(minIndex + 1).getData()) &&
dataNodes.get(minIndex + 1).getDepth() == currDepth - arrNodes.size() + i) {
flag++;
rChild = arrNodes.get(i);
}
}
if (flag == 0) {
lChild = new Node(dataNodes.get(minIndex).getData(), 0);
rChild = new Node(dataNodes.get(minIndex + 1).getData(), 0);
} else if (flag == 1 && null ==  rChild){
rChild = new Node(dataNodes.get(minIndex + 1).getData(), 0);
} else if (flag == 1 && null ==  lChild) {
lChild = new Node(dataNodes.get(minIndex).getData(), 0);
}
for (int i = deleteIndex.size() - 1; i > 0; i--) {
dataNodes.remove(deleteIndex.get(i));
}
} else {
lChild = new Node(dataNodes.get(minIndex).getData(), 0);
rChild = new Node(dataNodes.get(minIndex + 1).getData(), 0);
}
bt.buildTree(root, lChild, rChild);
}
}
``````

BinaryTree.java

``````public class BinaryTree {

private Node root;

public BinaryTree() {
root = null;
}

public void buildTree(Node rt, Node lChild, Node rChild) {
root = rt;
root.left  = lChild;
root.right = rChild;
}

public int size() {
return(size(root));
}
private int size(Node node) {
if (node == null) return(0);
else {
return(size(node.left) + 1 + size(node.right));
}
}

public int maxDepth() {
return(maxDepth(root));
}
private int maxDepth(Node node) {
if (node==null) {
return(0);
}
else {
int lDepth = maxDepth(node.left);
int rDepth = maxDepth(node.right);

// use the larger + 1
return(Math.max(lDepth, rDepth) + 1);
}
}

public void printTree() {
printTree(root);
System.out.println();
}
private void printTree(Node node) {
if (node == null) return;
printTree(node.left);
System.out.print(node.data + "  ");
printTree(node.right);
}

public void printPostorder() {
printPostorder(root);
System.out.println();
}

public void printPostorder(Node node) {
if (node == null) return;

printPostorder(node.left);
printPostorder(node.right);

System.out.print(node.data + "  ");
}

public Node getRootNode() {
return root;
}

public int getNodeDepth() {
return root.depth;
}

public Node getRChildNode() {
return root.right;
}

public Node getLChildNode() {
return root.left;
}
}
``````

Node.java

``````public class Node {
Node left;
Node right;
String data;
int depth;

Node(String newData, int depth) {
this.left = null;
this.right = null;
this.data = newData;
this.depth = depth;
}

public Node getLeft() {
return left;
}

public void setLeft(Node left) {
this.left = left;
}

public Node getRight() {
return right;
}

public void setRight(Node right) {
this.right = right;
}

public String getData() {
return data;
}

public void setData(String data) {
this.data = data;
}

public int getDepth() {
return depth;
}

public void setDepth(int depth) {
this.depth = depth;
}
}
``````

Your tree looks weird - both child of parent node `11` is `10`. What is the point? Should not they be merged into one? Anyway please check parallel tree elated threads. Java tree data-structure?

It should help.

In general you need to create `Node` class that contains idx\value of exact node and links to two child nodes. Recursively you'll be able to build such data structure.

• It does not matter what the values are. The can be equal. Its not a BST. Oct 30 '15 at 1:15
• I am able to create node and linking two child nodes and all. But the real problem is if you look in the iteration 5. until iteration 4 the previous node was one of the children of new parent node. But in iteration 5, minValue is something else and finally in iteration 6 these two values are the children of new parent node. My problem is I have to store the entire tree in some temporary variable. But beforehand I don't know how many such temp variable I need. So I was looking for some workaround to make this tree. Oct 30 '15 at 5:57