Prottoy2938 · September 3, 2024 10:02
diff --git a/binarySearchTree.js b/binarySearchTree.js
 // A binary tree is a tree data structure in which each node has at most two children, which are referred to as the left child and the right child.
 // Left child is always less than it's parent and the right child is always bigger than it's parent.

 class Node {
  constructor(value) {
    this.value = value;
    this.right = null;
    this.left = null;
  }
 }

 class BinarySearchTree {
  constructor() {
    this.root = null;
  }
  //inserts a number into the tree. Returns the entire tree.
  insert(value) {
    const newNode = new Node(value);
    if (!this.root) {
      this.root = newNode;
      return this;
    }
    let current = this.root;
    const rnLoop = true;
    while (rnLoop) {
      if (value === current.value) return undefined;
      if (value < current.value) {
        if (!current.left) {
          current.left = newNode;
          return this;
        }
        current = current.left;
      } else {
        if (!current.right) {
          current.right = newNode;
          return this;
        }
        current = current.right;
      }
    }
  }
  //finds the given number and returns it. If its not found, returns `null` or `undefined`.
  find(value) {
    if (!this.root) return null;
    let current = this.root;
    const rnLoop = true;
    while (rnLoop) {
      if (!current) return undefined;
      if (value === current.value) return current;
      if (value < current.value) {
        current = current.left;
      } else {
        current = current.right;
      }
    }
  }
  //checks if a given number exists in the tree. If its in the tree, returns `true`, otherwise `false`
  contains(value) {
    if (!this.root) return null;
    let current = this.root;
    const rnLoop = true;
    while (rnLoop) {
      if (!current) return false;
      if (value === current.value) return true;
      if (value < current.value) {
        current = current.left;
      } else {
        current = current.right;
      }
    }
  }
 }




 //EXAMPLES==================================================================================

 const binarySearchTree = new BinarySearchTree();
 binarySearchTree.insert(10); //returns the entire list
 binarySearchTree.insert(6); //returns the entire list
 binarySearchTree.insert(2);
 binarySearchTree.insert(20);
 binarySearchTree.insert(34);
 binarySearchTree.insert(69);
 binarySearchTree.insert(4);
 binarySearchTree.find(4); //returns `Node {value: 2, right: Node, left: null}`
 binarySearchTree.find(20);
 binarySearchTree.find(123); //returns `undefined`
 binarySearchTree.contains(6); //returns `true`
 binarySearchTree.contains(123); //returns `false`
	// A binary tree is a tree data structure in which each node has at most two children, which are referred to as the left child and the right child.
	// Left child is always less than it's parent and the right child is always bigger than it's parent.

	class Node {
	constructor(value) {
	this.value = value;
	this.right = null;
	this.left = null;
	}
	}

	class BinarySearchTree {
	constructor() {
	this.root = null;
	}
	//inserts a number into the tree. Returns the entire tree.
	insert(value) {
	const newNode = new Node(value);
	if (!this.root) {
	this.root = newNode;
	return this;
	}
	let current = this.root;
	const rnLoop = true;
	while (rnLoop) {
	if (value === current.value) return undefined;
	if (value < current.value) {
	if (!current.left) {
	current.left = newNode;
	return this;
	}
	current = current.left;
	} else {
	if (!current.right) {
	current.right = newNode;
	return this;
	}
	current = current.right;
	}
	}
	}
	//finds the given number and returns it. If its not found, returns `null` or `undefined`.
	find(value) {
	if (!this.root) return null;
	let current = this.root;
	const rnLoop = true;
	while (rnLoop) {
	if (!current) return undefined;
	if (value === current.value) return current;
	if (value < current.value) {
	current = current.left;
	} else {
	current = current.right;
	}
	}
	}
	//checks if a given number exists in the tree. If its in the tree, returns `true`, otherwise `false`
	contains(value) {
	if (!this.root) return null;
	let current = this.root;
	const rnLoop = true;
	while (rnLoop) {
	if (!current) return false;
	if (value === current.value) return true;
	if (value < current.value) {
	current = current.left;
	} else {
	current = current.right;
	}
	}
	}
	}




	//EXAMPLES==================================================================================

	const binarySearchTree = new BinarySearchTree();
	binarySearchTree.insert(10); //returns the entire list
	binarySearchTree.insert(6); //returns the entire list
	binarySearchTree.insert(2);
	binarySearchTree.insert(20);
	binarySearchTree.insert(34);
	binarySearchTree.insert(69);
	binarySearchTree.insert(4);
	binarySearchTree.find(4); //returns `Node {value: 2, right: Node, left: null}`
	binarySearchTree.find(20);
	binarySearchTree.find(123); //returns `undefined`
	binarySearchTree.contains(6); //returns `true`
	binarySearchTree.contains(123); //returns `false`