DataStructuresAndAlgorithms/Codes/Practical-D19.cpp

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// WARNING: THIS CODE HAS NOT BEEN TESTED.
// IT WILL TAKE 1-2 MONTHS TO PERFECT THE CODE.
// IF YOU FACE ANY ERRORS, UNEXPECTED BEHAVIOUR OR HAVE ANY SUGGESTIONS,
// LET US KNOW BY CREATING AN ISSUE ON OUR KSKA GIT REPOSITORY.
/*
Problem Statement: A Dictionary stores keywords & its meanings. Provide facility for adding new keywords, deleting keywords, updating values of any entry. Provide facility to display whole data sorted in ascending/ Descending order. Also find how many maximum comparisons may require for finding any keyword. Use Height balance tree and find the complexity for finding a keyword.
Code from Data Structures and Algorithms (SPPU - Second Year - Computer Engineering - Content) repository on KSKA Git: https://git.kska.io/sppu-se-comp-content/DataStructuresAndAlgorithms/
*/
// BEGINNING OF CODE
#include<iostream>
#include<cstring>
#include<cstdlib>
#define MAX 50
#define SIZE 20
using namespace std;
struct AVLnode
{
public:
char cWord[SIZE],cMeaning[MAX];
AVLnode *left,*right;
int iB_fac,iHt;
};
class AVLtree
{
public:
AVLnode *root;
AVLtree()
{
root=NULL;
}
int height(AVLnode*);
int bf(AVLnode*);
AVLnode* insert(AVLnode*,char[SIZE],char[MAX]);
AVLnode* rotate_left(AVLnode*);
AVLnode* rotate_right(AVLnode*);
AVLnode* LL(AVLnode*);
AVLnode* RR(AVLnode*);
AVLnode* LR(AVLnode*);
AVLnode* RL(AVLnode*);
AVLnode* delet(AVLnode*,char x[SIZE]);
void inorder(AVLnode*);
};
AVLnode *AVLtree::delet(AVLnode *curr,char x[SIZE])
{
AVLnode *temp;
if(curr==NULL)
return(0);
else
if(strcmp(x,curr->cWord)>0)
{
curr->right=delet(curr->right,x);
if(bf(curr)==2)
if(bf(curr->left)>=0)
curr=LL(curr);
else
curr=LR(curr);
}
else
if(strcmp(x,curr->cWord)<0)
{
curr->left=delet(curr->left,x);
if(bf(curr)==-2)
if(bf(curr->right)<=0)
curr=RR(curr);
else
curr=RL(curr);
}
else
{
if(curr->right!=NULL)
{
temp=curr->right;
while(temp->left!=NULL)
temp=temp->left;
strcpy(curr->cWord,temp->cWord);
curr->right=delet(curr->right,temp->cWord);
if(bf(curr)==2)
if(bf(curr->left)>=0)
curr=LL(curr);
else
curr=LR(curr);
}
else
return(curr->left);
}
curr->iHt=height(curr);
return(curr);
}
AVLnode* AVLtree :: insert(AVLnode*root,char newword[SIZE],char newmeaning[MAX])
{
if(root==NULL)
{
root=new AVLnode;
root->left=root->right=NULL;
strcpy(root->cWord,newword);
strcpy(root->cMeaning,newmeaning);
}
else if(strcmp(root->cWord,newword)!=0)
{
if(strcmp(root->cWord,newword)>0)
{
root->left=insert(root->left,newword,newmeaning);
if(bf(root)==2)
{
if (strcmp(root->left->cWord,newword)>0)
root=LL(root);
else
root=LR(root);
}
}
else if(strcmp(root->cWord,newword)<0)
{
root->right=insert(root->right,newword,newmeaning);
if(bf(root)==-2)
{
if(strcmp(root->right->cWord,newword)>0)
root=RR(root);
else
root=RL(root);
}
}
}
else
cout<<"\nRedundant AVLnode";
root->iHt=height(root);
return root;
}
int AVLtree :: height(AVLnode* curr)
{
int lh,rh;
if(curr==NULL)
return 0;
if(curr->right==NULL && curr->left==NULL)
return 0;
else
{
lh=lh+height(curr->left);
rh=rh+height(curr->right);
if(lh>rh)
return lh+1;
return rh+1;
}
}
int AVLtree :: bf(AVLnode* curr)
{
int lh,rh;
if(curr==NULL)
return 0;
else
{
if(curr->left==NULL)
lh=0;
else
lh=1+curr->left->iHt;
if(curr->right==NULL)
rh=0;
else
rh=1+curr->right->iHt;
return(lh-rh);
}
}
AVLnode* AVLtree :: rotate_right(AVLnode* curr)
{
AVLnode* temp;
temp=curr->left;
curr->left=temp->right;
temp->left=curr;
curr->iHt=height(curr);
temp->iHt=height(temp);
return temp;
}
AVLnode* AVLtree :: rotate_left(AVLnode* curr)
{
AVLnode* temp;
temp=curr->right;
curr->right=temp->left;
temp->left=curr;
curr->iHt=height(curr);
temp->iHt=height(temp);
return temp;
}
AVLnode* AVLtree :: RR(AVLnode* curr)
{
curr=rotate_left(curr);
return curr;
}
AVLnode* AVLtree :: LL(AVLnode* curr)
{
curr=rotate_right(curr);
return curr;
}
AVLnode* AVLtree :: RL(AVLnode* curr)
{
curr->right=rotate_right(curr->right);
curr=rotate_left(curr);
return curr;
}
AVLnode* AVLtree::LR(AVLnode* curr)
{
curr->left=rotate_left(curr->left);
curr=rotate_right(curr);
return curr;
}
void AVLtree :: inorder(AVLnode* curr)
{
if(curr!=NULL)
{
inorder(curr->left);
cout<<"\n\t"<<curr->cWord<<"\t"<<curr->cMeaning;
inorder(curr->right);
}
}
int main()
{
int iCh;
AVLtree a;
AVLnode *curr=NULL;
char cWd[SIZE],cMean[MAX];
cout<<"\n--------------------------------------";
cout<<"\n\tAVL TREE IMPLEMENTATION";
cout<<"\n--------------------------------------";
do
{ cout<<"\n--------------------------------";
cout<<"\n\t\tMENU";
cout<<"\n--------------------------------";
cout<<"\n1.Insert\n2.Inorder\n3.Delete\n4.Exit";
cout<<"\n--------------------------------";
cout<<"\nEnter your choice :";
cin>>iCh;
switch(iCh)
{
case 1: cout<<"\nEnter Word : ";
cin>>cWd;
/*for(int i;cMean[i]!='\0';i++)
{
if(cMean[i]>='A'&& cMean[i]<='Z')
{
cMean[i]=cMean[i]+32;
}
}
cout<<cMean;*/
cout<<"\nEnter Meaning : ";
cin.ignore();
cin.getline(cMean,MAX);
a.root=a.insert(a.root,cWd,cMean);
break;
case 2: cout<<"\n\tWORD\tMEANING";
a.inorder(a.root);
break;
case 3: cout<<"\nEnter the word to be deleted : ";
cin>>cWd;
curr=a.delet(a.root,cWd);
if(curr==NULL)
cout<<"\nWord not present!";
else
cout<<"\nWord deleted Successfully!";
curr=NULL;
break;
case 4: exit(0);
}
}while(iCh!=4);
return 0;
}
// END OF CODE
// EXPERIMENTAL CODE