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BinarySearchTree.c
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BinarySearchTree.c
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/*
This program implements the insertion of a Binary Search Tree and its functions(Searching, Finding MIN & MAX, Traversal) as well.
*/
#include <stdio.h>
#include <stdlib.h>
struct node {
struct node* left;
int data;
struct node* right;
}*root = NULL, *newNode, *current;
//creating a new node for the tree
struct node* create(int item)
{
//create node
newNode = (struct node*)malloc(sizeof(struct node*));
newNode->data = item;
newNode->left = newNode->right = NULL;
return newNode;
}
//inserting the new node to the tree
void insert(struct node* current, struct node* newNode)
{
//insert as a leaf to the node
if(root == NULL)
{
root = newNode;
return;
}
else if (current->data > newNode->data)
{
if (current->left == NULL)
current->left = newNode;
else
insert(current->left, newNode);
}
else
{
if (current->right == NULL)
current->right = newNode;
else
insert(current->right, newNode);
}
}
//finding the node with the MIN key value
void find_MIN(struct node *current)
{
if(current->left != NULL)
find_MIN(current->left);
else
printf("\nMIN node key: %d\n", current->data);
return;
}
//finding the node with the MAX key value
void find_MAX(struct node *current)
{
if(current->right != NULL)
find_MIN(current->right);
else
printf("\nMIN node key: %d\n", current->data);
return;
}
//This function traverses the tree in preorder fashion
void preorder(struct node *node)
{
if(node != NULL)
{
printf("\n%d", node->data);
preorder(node->left);
preorder(node->right);
}
}
//This function traverses the tree in inorder fashion
void inorder(struct node *node)
{
if(node != NULL)
{
inorder(node->left);
printf("\n%d", node->data);
inorder(node->right);
}
}
//This function traverses the tree in postorder fashion
void postorder(struct node *node)
{
if(node != NULL)
{
postorder(node->left);
postorder(node->right);
printf("\n%d", node->data);
}
}
//Searching whether an Node exists or not
int search(struct node *current, int se)
{
if(current == NULL)
{
return 0;
}
if(se == current->data)
{
printf("\nThe key %d is found in the tree\n", se);
return 1;
}
else if(se < current->data)
search(current->left, se);
else
search(current->right, se);
}
void main()
{
int choice, item, se, result;
struct node* new;
while(1)
{
printf("\n---------ENTER YOUR CHOICE--------------\n");
printf(" 1.BST insertion\n 2.Find MIN\n 3.Find MAX\n 4.Search for the key\n 5.Traversal(Inorder)\n 5.Traversal(Preorder)\n");
printf(" 6.Traversal(Inorder)\n 7.Traversal(Postorder)\n 8.Exit\n");
scanf("%d", &choice);
switch(choice)
{
case 1:{
printf("\nEnter the item you want to insert: ");
scanf("%d", &item);
new = create(item);
insert(root, new);
break;
}
case 2:{
if(!root)
{
printf("\nTree is Empty. Please enter nodes first\n");
break;
}
find_MIN(root);
break;
}
case 3:{
if(!root)
{
printf("\nTree is Empty. Please enter nodes first\n");
break;
}
find_MAX(root);
break;
}
case 4:{
if(!root)
{
printf("\nTree is Empty. Please enter nodes first\n");
break;
}
printf("Enter the key you want to search");
scanf("%d", &se);
result = search(root, se);
if(result == 0)
printf("Node doesnt exist");
break;
}
case 5:{
if(!root)
{
printf("\nTree is Empty. Please enter nodes first\n");
break;
}
printf("\n-------Traversal(PREORDER)-------\n");
preorder(root);
break;
}
case 6:{
if(!root)
{
printf("\nTree is Empty. Please enter nodes first\n");
break;
}
printf("\n-------Traversal(INORDER)-------\n");
inorder(root);
break;
}
case 7:{
if(!root)
{
printf("\nTree is Empty. Please enter nodes first\n");
break;
}
printf("\n-------Traversal(POSTORDER)-------\n");
postorder(root);
break;
}
case 8:{
exit(0);
}
}
}
}