shafiqshams · February 15, 2017 09:18
diff --git a/BSTDeletion_CPP.cpp b/BSTDeletion_CPP.cpp
 /* Deleting a node from Binary search tree */
 #include<iostream>
 using namespace std;
 struct Node {
 	int data;
 	struct Node *left;
 	struct Node *right;
 };
 //Function to find minimum in a tree. 
 Node* FindMin(Node* root)
 {
 	while(root->left != NULL) root = root->left;
 	return root;
 }

 // Function to search a delete a value from tree.
 struct Node* Delete(struct Node *root, int data) {
 	if(root == NULL) return root; 
 	else if(data < root->data) root->left = Delete(root->left,data);
 	else if (data > root->data) root->right = Delete(root->right,data);
 	// Wohoo... I found you, Get ready to be deleted	
 	else {
 		// Case 1:  No child
 		if(root->left == NULL && root->right == NULL) { 
 			delete root;
 			root = NULL;
 		}
 		//Case 2: One child 
 		else if(root->left == NULL) {
 			struct Node *temp = root;
 			root = root->right;
 			delete temp;
 		}
 		else if(root->right == NULL) {
 			struct Node *temp = root;
 			root = root->left;
 			delete temp;
 		}
 		// case 3: 2 children
 		else { 
 			struct Node *temp = FindMin(root->right);
 			root->data = temp->data;
 			root->right = Delete(root->right,temp->data);
 		}
 	}
 	return root;
 }
 
 //Function to visit nodes in Inorder
 void Inorder(Node *root) {
 	if(root == NULL) return;
 
 	Inorder(root->left);       //Visit left subtree
 	printf("%d ",root->data);  //Print data
 	Inorder(root->right);      // Visit right subtree
 }
 
 // Function to Insert Node in a Binary Search Tree
 Node* Insert(Node *root,char data) {
 	if(root == NULL) {
 		root = new Node();
 		root->data = data;
 		root->left = root->right = NULL;
 	}
 	else if(data <= root->data)
 		root->left = Insert(root->left,data);
 	else 
 		root->right = Insert(root->right,data);
 	return root;
 }

 int main() {
 	/*Code To Test the logic
 	  Creating an example tree
 	                    5
 			   / \
 			  3   10
 			 / \   \
 			1   4   11
    */
 	Node* root = NULL;
 	root = Insert(root,5); root = Insert(root,10);
 	root = Insert(root,3); root = Insert(root,4); 
 	root = Insert(root,1); root = Insert(root,11);

 	// Deleting node with value 5, change this value to test other cases
 	root = Delete(root,5);

 	//Print Nodes in Inorder
 	cout<<"Inorder: ";
 	Inorder(root);
 	cout<<"\n";
 }
	/* Deleting a node from Binary search tree */
	#include<iostream>
	using namespace std;
	struct Node {
	int data;
	struct Node *left;
	struct Node *right;
	};
	//Function to find minimum in a tree.
	Node* FindMin(Node* root)
	{
	while(root->left != NULL) root = root->left;
	return root;
	}

	// Function to search a delete a value from tree.
	struct Node* Delete(struct Node *root, int data) {
	if(root == NULL) return root;
	else if(data < root->data) root->left = Delete(root->left,data);
	else if (data > root->data) root->right = Delete(root->right,data);
	// Wohoo... I found you, Get ready to be deleted
	else {
	// Case 1: No child
	if(root->left == NULL && root->right == NULL) {
	delete root;
	root = NULL;
	}
	//Case 2: One child
	else if(root->left == NULL) {
	struct Node *temp = root;
	root = root->right;
	delete temp;
	}
	else if(root->right == NULL) {
	struct Node *temp = root;
	root = root->left;
	delete temp;
	}
	// case 3: 2 children
	else {
	struct Node *temp = FindMin(root->right);
	root->data = temp->data;
	root->right = Delete(root->right,temp->data);
	}
	}
	return root;
	}

	//Function to visit nodes in Inorder
	void Inorder(Node *root) {
	if(root == NULL) return;

	Inorder(root->left); //Visit left subtree
	printf("%d ",root->data); //Print data
	Inorder(root->right); // Visit right subtree
	}

	// Function to Insert Node in a Binary Search Tree
	Node* Insert(Node *root,char data) {
	if(root == NULL) {
	root = new Node();
	root->data = data;
	root->left = root->right = NULL;
	}
	else if(data <= root->data)
	root->left = Insert(root->left,data);
	else
	root->right = Insert(root->right,data);
	return root;
	}

	int main() {
	/*Code To Test the logic
	Creating an example tree
	5
	/ \
	3 10
	/ \ \
	1 4 11
	*/
	Node* root = NULL;
	root = Insert(root,5); root = Insert(root,10);
	root = Insert(root,3); root = Insert(root,4);
	root = Insert(root,1); root = Insert(root,11);

	// Deleting node with value 5, change this value to test other cases
	root = Delete(root,5);

	//Print Nodes in Inorder
	cout<<"Inorder: ";
	Inorder(root);
	cout<<"\n";
	}