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BinarySearchTree.ts
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BinarySearchTree.ts
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import BinaryTreeNode from './BinaryTreeNode';
import BinaryTree from './BinaryTree';
class BinarySearchTree extends BinaryTree<number> {
/**
* Recursively insert a new value in the BST.
* @param {number} value The value being inserted
*/
insert(val: number): void {
this.root = this._insertImpl(val, this.root);
}
/**
* Recursively search for a value in the BST
* @param {number} value The value to search for.
* @param {*} node The current node.
* @return {Boolean} True if value is found, false if not.
*/
search(val: number): boolean {
function searchImpl(
value: number,
node: BinaryTreeNode<number> | null,
): boolean {
if (!node) {
return false;
}
const nodeValue = node.value;
if (nodeValue === value) {
return true;
}
if (value > nodeValue) {
return searchImpl(value, node.right);
}
return searchImpl(value, node.left);
}
return searchImpl(val, this.root);
}
protected _insertImpl(
value: number,
node: BinaryTreeNode<number> | null,
): BinaryTreeNode<number> {
if (!node) {
return new BinaryTreeNode(value);
}
// Normal BST insert
// NOTE: Duplicates are sent to the left
if (value <= node.value) {
node.left = this._insertImpl(value, node.left);
} else {
node.right = this._insertImpl(value, node.right);
}
return node;
}
private _getMinimumNode(
node: BinaryTreeNode<number> | null,
): BinaryTreeNode<number> | null {
if (!node) {
return null;
}
const { left } = node;
if (!left) {
return node;
}
return this._getMinimumNode(left);
}
/**
* Recursively get the minimum value in the tree.
* @param {BinaryTreeNode} node The current node. Param is not required.
* @return {*} The minimum value.
*/
getMinimum(): number | null {
const minNode = this._getMinimumNode(this.root);
return minNode != null ? minNode.value : null;
}
/**
* Recursively get the maximum value in the tree.
* @return {*} The maximum value.
*/
getMaximum(): number | null {
function getMaximumImpl(
node: BinaryTreeNode<number> | null,
): number | null {
if (!node) {
return null;
}
const { right } = node;
if (!right) {
return node.value;
}
return getMaximumImpl(right);
}
return getMaximumImpl(this.root);
}
/**
* Recursively delete a given value from the tree.
* @param {number} value The value to delete.
* @param {BinaryTreeNode} node The current node.
* @return {BinaryTreeNode} The root node after deletion.
*/
delete(val: number): BinaryTreeNode<number> | null {
this.root = this._deleteImpl(val, this.root);
return this.root;
}
protected _deleteImpl(
value: number,
node: BinaryTreeNode<number> | null,
): BinaryTreeNode<number> | null {
if (!node) {
return null;
}
const nodeValue = node.value;
const { left } = node;
const { right } = node;
if (value < nodeValue) {
node.left = this._deleteImpl(value, left);
return node;
} else if (value > nodeValue) {
node.right = this._deleteImpl(value, right);
return node;
}
if (!left && !right) {
return null;
}
if (!left) {
return right;
}
if (!right) {
return left;
}
const tempNode: BinaryTreeNode<number> = this._getMinimumNode(
right,
) as BinaryTreeNode<number>;
node.value = tempNode.value;
node.right = this._deleteImpl(tempNode.value, right);
return node;
}
}
export default BinarySearchTree;