Inserting a key into a tree in Javascript

The first insertion in a newly created binary tree creates a node at the root. Further insertions will be inserted according to the binary search tree property of left children being smaller than parent and right ones being greater than parents.

Let us look at how we can implement this algorithm in code −

Example

insertIter(data) {    let node = new this.Node(data);    // Check if the tree is empty    if (this.root === null) {       // Insert as the first element       this.root = node; return;    }    let currNode = this.root;    while (true) {       if (data < currNode.data) {          // Set the value here as we've reached a leaf node          if (currNode.left === null) {             currNode.left = node;             break;          } else {             currNode = currNode.left;          }       } else {          // Set the value here as we've reached a leaf node          if (currNode.right === null) {             currNode.right = node;             break;          } else {             currNode = currNode.right;          }       }    } }

Let us understand how this function works. First, we check if the root is a null meaning tree is empty if yes then we assign new node as root and we're done. If not, we create a currNode variable and point it to root. Then we check if our data is less than currNode or not, if it is, we check if its left child is null. If it is then we keep our data here and exit. Else we go on iterating until we reach a leaf and finally place our data there.

You can test this function using −

Example

let BST = new BinarySearchTree(); BST.insertIter(10); BST.insertIter(15); BST.insertIter(5); BST.insertIter(50); BST.insertIter(3); BST.insertIter(7); BST.insertIter(12);

We can also make this function recursive. Trees are inherently recursive structures and we can make use of this recursive property fairly easily. Let's look at a recursive version of insert −

Example

insertRec(data) {    let node = new this.Node(data);    // Check if the tree is empty    if (this.root === null) {       // Insert as the first element       this.root = node;    } else {       insertRecHelper(this.root, node);    } }

We need to create a helper function that can recurse but we don't want to expose that as a property of the class, so this function will be out of the class definition.

Example

function insertRecHelper(root, node) {    if (node.data < root.data) {       // Set the value here as we've reached a leaf node       if (root.left === null) {          root.left = node;       } else {          // Recursively call this function with the left subtree             insertRecHelper(root.left, node);       }    } else {       // Set the value here as we've reached a leaf node       if (root.right === null) {          root.right = node;       } else {          // Recursively call this function with the right subtree          insertRecHelper(root.right, node);       }    } }

You can test this using −

Example

let BST = new BinarySearchTree(); BST.insertRec(10); BST.insertRec(15); BST.insertRec(5); BST.insertRec(50); BST.insertRec(3); BST.insertRec(7); BST.insertRec(12);