TheAlgorithms-C/data_structures/binary_trees/threaded_binary_trees.c

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/**
* @file
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* \brief This file is a simple implementation of a Threaded Binary Tree
*
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* Threaded Binary Tree is a binary tree variant in which all left child
* pointers that are NULL (in Linked list representation) point to its
* in-order predecessor, and all right child pointers that are NULL
* (in Linked list representation) point to its in-order successor.
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* It has the following functionalities:
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* - Insertion
* - Search
* - Deletion
* - Listing of node keys inorder,preorder,postorder
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*
* -see binary_search_tree.c
*
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* \author [Amitha Nayak](https://github.com/amitnayakblr)
*/
#include <stdio.h>
#include <stdlib.h>
/**
* Node, the basic data structure of the tree
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*/
typedef struct Node
{
int data; /**< stores the number */
struct Node *llink; /**< link to left child */
struct Node *rlink; /**< link to right child */
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} node;
/**
* creates a new node
* param[in] data value to be inserted
* \returns a pointer to the new node
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*/
node *create_node(int data)
{
node *ptr = (node *)malloc(sizeof(node));
ptr->rlink = ptr->llink = NULL;
ptr->data = data;
return ptr;
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}
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/**
* inserts a node into the tree
* param[in,out] root pointer to node pointer to the topmost node of the tree
* param[in] data value to be inserted into the tree
*/
void insert_bt(node **root, int data)
{
node *new_node = create_node(data);
node *temp; // to be deleted
node *prev; // keeps track of the parent of the element deleted
if (*root == NULL)
{
*root = new_node;
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}
else
{
temp = *root;
prev = NULL;
while (temp != NULL)
{
if (new_node->data > temp->data)
{
prev = temp;
temp = temp->rlink;
}
else if (new_node->data < temp->data)
{
prev = temp;
temp = temp->llink;
}
else
{
return;
}
}
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if (new_node->data > prev->data)
{
prev->rlink = new_node;
}
else
{
prev->llink = new_node;
}
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}
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}
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/**
* searches for the element
* \param[in] root node pointer to the topmost node of the tree
* \param[in] ele value searched for
*/
void search(node *root, int ele)
{
node *temp = root;
while (temp != NULL)
{
if (temp->data == ele)
{
break;
}
else if (ele > temp->data)
{
temp = temp->rlink;
}
else
{
temp = temp->llink;
}
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}
if (temp == NULL)
{
printf("%s\n", "Element not found.");
}
else
printf("%s\n", "Element found.");
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}
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/**
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* performs inorder traversal
* param[in] curr node pointer to the topmost node of the tree
*/
void inorder_display(node *curr)
{
if (curr != NULL)
{
inorder_display(curr->llink);
printf("%d\t", curr->data);
inorder_display(curr->rlink);
}
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}
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/**
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* performs postorder traversal
* param[in] curr node pointer to the topmost node of the tree
*/
void postorder_display(node *curr)
{
if (curr != NULL)
{
postorder_display(curr->llink);
postorder_display(curr->rlink);
printf("%d\t", curr->data);
}
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}
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/**
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* performs preorder traversal
* param[in] curr node pointer to the topmost node of the tree
*/
void preorder_display(node *curr)
{
if (curr != NULL)
{
printf("%d\t", curr->data);
preorder_display(curr->llink);
preorder_display(curr->rlink);
}
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}
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/**
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* deletion of a node from the tree
* if the node isn't present in the tree, it takes no action.
* param[in,out] root pointer to node pointer to the topmost node of the tree
* param[in] ele value to be deleted from the tree
*/
void delete_bt(node **root, int ele)
{
node *temp;
node *prev;
if (*root == NULL)
return;
else
{
temp = *root;
prev = NULL;
// search
while (temp != NULL)
{
if (temp->data == ele)
{
break;
}
else if (ele > temp->data)
{
prev = temp;
temp = temp->rlink;
}
else
{
prev = temp;
temp = temp->llink;
}
}
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}
if (temp == NULL)
return;
else
{
node *replacement; // deleted node's replacement
node *t;
if (temp->llink == NULL && temp->rlink == NULL)
{
replacement = NULL;
}
else if (temp->llink == NULL && temp->rlink != NULL)
{
replacement = temp->rlink;
}
else if (temp->llink != NULL && temp->rlink == NULL)
{
replacement = temp->llink;
}
else
{
replacement = temp->rlink; // replaced with inorder successor
t = replacement;
while (t->llink != NULL)
{
t = t->llink;
}
t->llink =
temp->llink; // leftmost node of the replacement is linked to
// the left child of the deleted node
}
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if (temp == *root)
{
free(*root);
*root = replacement;
}
else if (prev->llink == temp)
{
free(prev->llink);
prev->llink = replacement;
}
else if (prev->rlink == temp)
{
free(prev->rlink);
prev->rlink = replacement;
}
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}
}
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/**
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* main function
*/
int main()
{
printf("BINARY THREADED TREE: \n");
node *root = NULL;
int choice, n;
do
{
printf("%s\n", "1. Insert into BT");
printf("%s\n", "2. Print BT - inorder");
printf("%s\n", "3. Print BT - preorder");
printf("%s\n", "4. print BT - postorder");
printf("%s\n", "5. delete from BT");
printf("%s\n", "6. search in BT");
printf("%s\n", "Type 0 to exit");
scanf("%d", &choice);
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switch (choice)
{
case 1:
printf("%s\n", "Enter a no:");
scanf("%d", &n);
insert_bt(&root, n);
break;
case 2:
inorder_display(root);
printf("\n");
break;
case 3:
preorder_display(root);
printf("\n");
break;
case 4:
postorder_display(root);
printf("\n");
break;
case 5:
printf("%s\n", "Enter a no:");
scanf("%d", &n);
delete_bt(&root, n);
break;
case 6:
printf("%s\n", "Enter a no:");
scanf("%d", &n);
search(root, n);
break;
}
} while (choice != 0);
return 0;
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}