# Deletion in AVL Tree

As you know how avl should be balanced after deletion of a node, I'll get to point. For starting, Im considering deleting a node with no children.

For Example a Tree:

``````        10
/     \
5      17
/  \    /  \
2  9   12  20
\           \
3          50
``````

Lets say deletevalue(12);

Then Tree should be after deletion:

``````        10
/     \
5      17
/  \       \
2  9       20
\           \
3          50
``````

Now, we see tree is balanced at node 17, because by formula, its Balance Factor = height( left subtree [left tree is null so -1] ) - height (right subtree) = -2

So we balance the tree by checking if its right-right case or right-left case.

``````If BalanceFactor(17's right) = -1
perform SingleLeftRotation(17);
else if BalanceFactor(17's right) = -1
perform DoubleRightLeftRotation(17);
``````

Similar is case if Balance Factor of 17 is 2, i.e. it is left high, then its respective rotations. //for bF(17) = 2

``````If BalanceFactor(17's left) = 1
perform SingleLeftRotation(17);
else if BalanceFactor(17's left) = -1
perform DoubleLeftRightRotation(17);
``````

After balancing, tree should become this:

``````          10
/     \
5      20
/  \    /  \
2  9   17  50
\
3
``````

This is deletion I have designed.

From main function, I call

``````bool deletevalue(WA value)
{
AvLNode<WA> *temp = search(root, value);    //calling search function to find node which has user-specified data & stored its address in temp pointer
if(temp!=0) //if temp node is not null then
{
if(temp->left==0 && temp->right==0) //if temp node don't have any children
{   deletewithNochild(root, value); }   //call to respective function
else if( (temp->left!=0 && temp->right==0) || (temp->left==0 && temp->right!=0) )   //if temp node has any 1 child, left or right
{   deletewithOneChild(temp);   }   //call to respective function
else if(temp->left!=0 && temp->right!=0)    //if temp node has 2 children
{   deletewith2Child(temp);     }   //call to respective function

return true;    //for prompting respective output message
}
else
return false;   //for prompting respective output message
}
``````

as our required node has no child so, following function is envoked.

``````void deletewithNochild(AvLNode<WA> *temp, WA value) //temp is node which is to be deleted
{
if(value == root->key)  //if temp is root node then
{
delete root;    //free memory of root node
root = 0;   //nullify root
}
else    //if temp is some other node
{
if (value < temp->key)
{
deletewithNochild(temp->left, value);
}
else if (value > temp->key)
{
deletewithNochild(temp->right, value);
}
else if (value == temp->key)
{
AvLNode<WA> *father = findfather(temp, root);   //calling findfather func to find father of temp node & store its address in father node pointer

if(father->left==temp)  //if temp is left child of its father
{
delete temp;    //free memory of temp node
father->left=0; //nullify father's left
}
else if(father->right==temp)    //if temp is right child of its father
{
delete temp;    //free memory of temp node
father->right=0;//nullify father's right
}
return;
}
cout<<"\nBalancing";
if ( balancefactor(temp) == 2)  //if temp is left higher, ie. temp's Balance Factor = 2, then
{
cout<<"\t2 ";
if ( balancefactor(temp->left) == 1 ) //if temp's left node has Balance Factor 1 then
{
SingleRightRotation(temp);  //send temp node for rotation because temp is unbalance
}
else if ( balancefactor(temp->left) == -1 ) //if temp's left node has Balance Factor -1, then
{
DoubleLeftRightRotation(temp);  //send temp for double rotation because temp is unbalance
}
}
else if ( balancefactor(temp) == -2 )   //if temp is right higher, ie. temp's Balance Factor = -2, then
{
cout<<"\t-2 ";
if ( balancefactor(temp->right) == -1 ) //if temp's left node has Balance Factor -1 then
{
SingleLeftRotation(temp);   //send temp node for rotation because temp is unbalance
}
else if ( balancefactor(temp->right) == 1 ) //if temp's right node has Balance Factor 1, then
{
DoubleRightLeftRotation(temp);  //send temp for double rotation because temp is unbalance
}
}

}
}
``````

Here are two utility functions of HEIGHT of node & BALANCE FACTOR of node

``````int heightofnode(AvLNode<WA> *temp) const
{
return temp==NULL ? -1 : temp->height;
}

int balancefactor(AvLNode<WA> *temp) const
{
return ( heightofnode(temp->left) - heightofnode(temp->right) );
}
``````

My output, when I delete 12 becomes (Breadth First Travers) -->> [10] [9] [17]

Kindly help me out, is there any problem with recursion? I have dry-runned again & again but can't understand. Deleteion must be done through recursion otherwise balancing tree would be a bigger hell. Thanks in advance for giving time. :-)

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