Program for AVL Tree in C

Here you will get the program for AVL tree in C.

An AVL (Adelson-Velskii and Landis) tree is a stature parity tree. These trees are double search trees in which the tallness of two kin are not allowed to vary by more than one. for example [Height of the left subtree – Height of right subtree] <= 1.

A-C program is given beneath which performs different tasks like creation, inclusion, cancellation and printing for an AVL tree.

Program

#include<stdio.h>
 
typedef struct node
{
	int data;
	struct node *left,*right;
	int ht;
}node;
 
node *insert(node *,int);
node *Delete(node *,int);
void preorder(node *);
void inorder(node *);
int height( node *);
node *rotateright(node *);
node *rotateleft(node *);
node *RR(node *);
node *LL(node *);
node *LR(node *);
node *RL(node *);
int BF(node *);
 
int main()
{
	node *root=NULL;
	int x,n,i,op;
	
	do
	{
		printf("\n1)Create:");
		printf("\n2)Insert:");
		printf("\n3)Delete:");
		printf("\n4)Print:");
		printf("\n5)Quit:");
		printf("\n\nEnter Your Choice:");
		scanf("%d",&op);
		
		switch(op)
		{
			case 1: printf("\nEnter no. of elements:");
					scanf("%d",&n);
					printf("\nEnter tree data:");
					root=NULL;
					for(i=0;i<n;i++)
					{
						scanf("%d",&x);
						root=insert(root,x);
					}
					break;
				
			case 2: printf("\nEnter a data:");
					scanf("%d",&x);
					root=insert(root,x);
					break;
					
			case 3: printf("\nEnter a data:");
					scanf("%d",&x);
					root=Delete(root,x);
					break;
			
			case 4: printf("\nPreorder sequence:\n");
					preorder(root);
					printf("\n\nInorder sequence:\n");
					inorder(root);
					printf("\n");
					break;			
		}
	}while(op!=5);
	
	return 0;
}
 
node * insert(node *T,int x)
{
	if(T==NULL)
	{
		T=(node*)malloc(sizeof(node));
		T->data=x;
		T->left=NULL;
		T->right=NULL;
	}
	else
		if(x > T->data)		// insert in right subtree
		{
			T->right=insert(T->right,x);
			if(BF(T)==-2)
				if(x>T->right->data)
					T=RR(T);
				else
					T=RL(T);
		}
		else
			if(x<T->data)
			{
				T->left=insert(T->left,x);
				if(BF(T)==2)
					if(x < T->left->data)
						T=LL(T);
					else
						T=LR(T);
			}
		
		T->ht=height(T);
		
		return(T);
}
 
node * Delete(node *T,int x)
{
	node *p;
	
	if(T==NULL)
	{
		return NULL;
	}
	else
		if(x > T->data)		// insert in right subtree
		{
			T->right=Delete(T->right,x);
			if(BF(T)==2)
				if(BF(T->left)>=0)
					T=LL(T);
				else
					T=LR(T);
		}
		else
			if(x<T->data)
			{
				T->left=Delete(T->left,x);
				if(BF(T)==-2)	//Rebalance during windup
					if(BF(T->right)<=0)
						T=RR(T);
					else
						T=RL(T);
			}
			else
			{
				//data to be deleted is found
				if(T->right!=NULL)
				{	//delete its inorder succesor
					p=T->right;
					
					while(p->left!= NULL)
						p=p->left;
					
					T->data=p->data;
					T->right=Delete(T->right,p->data);
					
					if(BF(T)==2)//Rebalance during windup
						if(BF(T->left)>=0)
							T=LL(T);
						else
							T=LR(T);\
				}
				else
					return(T->left);
			}
	T->ht=height(T);
	return(T);
}
 
int height(node *T)
{
	int lh,rh;
	if(T==NULL)
		return(0);
	
	if(T->left==NULL)
		lh=0;
	else
		lh=1+T->left->ht;
		
	if(T->right==NULL)
		rh=0;
	else
		rh=1+T->right->ht;
	
	if(lh>rh)
		return(lh);
	
	return(rh);
}
 
node * rotateright(node *x)
{
	node *y;
	y=x->left;
	x->left=y->right;
	y->right=x;
	x->ht=height(x);
	y->ht=height(y);
	return(y);
}
 
node * rotateleft(node *x)
{
	node *y;
	y=x->right;
	x->right=y->left;
	y->left=x;
	x->ht=height(x);
	y->ht=height(y);
	
	return(y);
}
 
node * RR(node *T)
{
	T=rotateleft(T);
	return(T);
}
 
node * LL(node *T)
{
	T=rotateright(T);
	return(T);
}
 
node * LR(node *T)
{
	T->left=rotateleft(T->left);
	T=rotateright(T);
	
	return(T);
}
 
node * RL(node *T)
{
	T->right=rotateright(T->right);
	T=rotateleft(T);
	return(T);
}
 
int BF(node *T)
{
	int lh,rh;
	if(T==NULL)
		return(0);
 
	if(T->left==NULL)
		lh=0;
	else
		lh=1+T->left->ht;
 
	if(T->right==NULL)
		rh=0;
	else
		rh=1+T->right->ht;
 
	return(lh-rh);
}
 
void preorder(node *T)
{
	if(T!=NULL)
	{
		printf("%d(Bf=%d)",T->data,BF(T));
		preorder(T->left);
		preorder(T->right);
	}
}
 
void inorder(node *T)
{
	if(T!=NULL)
	{
		inorder(T->left);
		printf("%d(Bf=%d)",T->data,BF(T));
		inorder(T->right);
	}
}

Output

1)Create:
2)Insert:
3)Delete:
4)Print:
5)Quit:

Enter Your Choice:1

Enter no. of elements:4

Enter tree data:7 12 4 9

1)Create:
2)Insert:
3)Delete:
4)Print:
5)Quit:

Enter Your Choice:4

Preorder sequence:
7(Bf=-1)4(Bf=0)12(Bf=1)9(Bf=0)

Inorder sequence:
4(Bf=0)7(Bf=-1)9(Bf=0)12(Bf=1)

1)Create:
2)Insert:
3)Delete:
4)Print:
5)Quit:

Enter Your Choice:3

Enter a data:7

1)Create:
2)Insert:
3)Delete:
4)Print:
5)Quit:

Enter Your Choice:4

Preorder sequence:
9(Bf=0)4(Bf=0)12(Bf=0)

Inorder sequence:
4(Bf=0)9(Bf=0)12(Bf=0)

1)Create:
2)Insert:
3)Delete:
4)Print:
5)Quit:

Enter Your Choice:5

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