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One_way_right_threaded_BST.c
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One_way_right_threaded_BST.c
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#include <stdio.h>//Header file for input and output
#include <stdlib.h>
// Here structure is created with a name tree
struct tree
{
int info;// It will represent the info part of tree which is of integer type
struct tree *left; // It is a ponter of type struct which will point left tree
unsigned int rthread : 1;// This is bitfield
struct tree *right; // It is a ponter of type struct which will point right tree
};
struct tree *root = NULL;
struct tree *insertelement(struct tree *root, int item);
struct tree *createbst(struct tree *root);
void inorderbst(struct tree *root);
static int item;
int main()
{
int choice;
printf("\n ** C Program to Implement One Way Right Threaded Bst and its Traversal **\n");
do
{
printf("\n---- Main Menu -----\n");
printf("1.To Create One-Way Right-Threaded BST\n");
printf("2.To Inorder Traversed The One-Way Right-Threaded BST\n");
printf("3.To Exit\n");
printf("Enter your choice\n");
scanf("%d", &choice);
switch (choice)
{
case 1:
root = createbst(root);
printf("** One Way Right Threaded BST created successfully **\n");
break;
case 2:
printf("\nIn-Order Traversal is :\n");
inorderbst(root);
printf("**In-Order Traversal Done Successfully**\n");
break;
case 3:
exit(0);
break;
}
} while (choice <= 2);
return 0;
}
struct tree *createbst(struct tree *root)
{
int x;
do
{
printf("Enter Data items:\n");
scanf("%d", &item);
root = insertelement(root, item);
printf("press 1 to continue or any other number to stop\n");
scanf("%d", &x);
} while (x == 1);
return root;
}
struct tree *insertelement(struct tree *root, int item)
{
struct tree *newnode, *par, *save;
newnode = (struct tree *)malloc(sizeof(struct tree));
if (newnode == NULL)
{
printf("Overflow\n");
exit(0);
}
newnode->info = item;
newnode->left = NULL;
newnode->rthread = 1;
if (root == NULL)
{
root = newnode;
newnode->right = NULL;
newnode->rthread = 0;
return root;
}
par = NULL;
save = root;
while (save != NULL)
{
par = save;
if (item < save->info)
{
save = save->left;
}
else
{
if (save->rthread == 1)
{
save = NULL;
}
else
{
save = save->right;
}
}
}
if (item < par->info)
{
par->left = newnode;
newnode->right = par;
newnode->rthread = 1;
}
else
{
if (par->rthread == 1)
{
par->rthread = 0;
newnode->rthread = 1;
newnode->right = par->right;
par->right = newnode;
}
else
{
newnode->rthread = 0;
newnode->right = NULL;
par->right = newnode;
}
}
return root;
}
void inorderbst(struct tree *root)
{
struct tree *save, *par;
save = root;
do
{
par = NULL;
while (save != NULL)
{
par = save;
save = save->left;
}
if (par != NULL)
{
printf("%d\n", par->info);
save = par->right;
while (par->rthread == 1 && save != NULL)
{
printf("%d\n", save->info);
par = save;
save = save->right;
}
}
} while (save != NULL);
}