# Iteratively inserting into a binary tree

I came across some threads on StackOverflow but none of them quite cleared my doubts.

So the problem is simple. I need to iteratively insert elements into a binary tree. And this is my code.

``````BST newNode(int x)
{
BSTNodePtr node = (BSTNodePtr) malloc(sizeof(struct TreeNode));
node->Element = x;
node->Left = NULL;
node->Right = NULL;

return node;

}

BST Insert(int x, BST T)
{
BST temp_node = T;
while( T != NULL)   {
if (x < T->Element)
T = T->Left;
else if (x >= T->Element)
T = T->Right;
}

T = newNode(x);

return temp_node;

}
``````

However, when I'm finding the height of this tree I am always getting 0. The height code is

``````int Height(BST T)
{
if (T == NULL)
return 0;

return 1+(max(Height(T->Left), Height(T->Right)));
}
``````

and this works perfectly fine when I do insertion recursively (using a function with the exact same signature)

What am I missing?

-
"I came across some threads on StackOverflow" - Pun intended? :P – user529758 Sep 23 '12 at 5:55
haha. Maybe. :) – wrahool Sep 23 '12 at 5:56

Here's My implementation of the aforementioned problem:

``````bst* newNode(int x)
{
bst* T = new bst;
T->value = x;
T->left_child = T->right_child = NULL;
return T;
}

bst* bst_insert_iter(bst* T,int val)
{
if (T == NULL)
T = newNode(val);

else
{

bst *temp_node = T;

bool flag = true;

while(flag)
{
if (val <= temp_node->value)
{
if (temp_node->left_child == NULL)
{
temp_node->left_child=newNode(val);
flag = false;
}
else
temp_node = temp_node->left_child;
}

else
{
if (temp_node->right_child == NULL)
{
temp_node->right_child=newNode(val);
flag = false;
}
else
temp_node = temp_node->right_child;
}
}

}
return T;
}
``````
-

You have the bug in your insert function. As I may assume, initially your tree is empty. so the first time you insert a node, the second argument is NULL, right? Then this function always returns NULL to you as you always pass a NULL value.

-
Okay. So what changes do I need to make? – wrahool Sep 23 '12 at 6:06

Here:

``````BST Insert(int x, BST T)
{
BST temp_node = T;
while( T != NULL)   {
if (x < T->Element)
T = T->Left;
else if (x >= T->Element)
T = T->Right;
}

T = newNode(x);

return temp_node;

}
``````

You navigate the tree until you hit `T == NULL`. Then you create a node and assign the pointer to it to `T`. Then you return the original value of `T`. You don't modify your tree at all. No node in it is made to point to the newly created node. `T` is just a local variable.

-
Okay, so do I need to keep track of the parent pointer at all times? And then set the `parent->Left` or `parent->Right` as the new node? – wrahool Sep 23 '12 at 6:07
You should do exactly that. – Alexey Frunze Sep 23 '12 at 6:25
but I don't have a parent pointer in my structure. – wrahool Sep 23 '12 at 6:30
Create one then. – Alexey Frunze Sep 23 '12 at 6:36

Couldn't solve the problem that way. This code, however, seems to work.

``````BST Insert(int x, BST T)
{
BST temp=T;
BST node=(BST)malloc(sizeof(struct TreeNode));
node->Element=x;
node->Left=NULL;
node->Right=NULL;
if (T==NULL)
{
T=node;
return(T);
//printf("%d\n",T->Element);
}
else
{
while(1)
{
if (temp->Element>=node->Element && temp->Left==NULL)
{
temp->Left=node;
break;
}
else if (temp->Element>=node->Element && temp->Left!=NULL)
{

temp=temp->Left;
}
else if (temp->Element<node->Element && temp->Right==NULL)
{
temp->Right=node;
break;
}
else
{
temp=temp->Right;
}
}
return(T);
}
}
``````
-