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I am trying to remove the left child (10) of a sample binary search tree using two methods:

  • Method1: By passing pointer to a pointer to the current node.
  • Method2: By passing address of the pointer to the current node. This does not removes the node, but calling delete corrupts the pointer arrangement, causing a crash while printing the nodes.

The tree looks like this and I am trying to delete 10 and replace it with 5


I have some understanding of pointers. But still, I am not clear with this behavior of pointers.

#include <iostream>
class Node
    Node(int key) : leftChild(0), rightChild(0), m_key (key){}

    Node *leftChild;
    Node *rightChild;
    int m_key;

Node* build1234(int, int, int, int);
void print(Node *);
void print1234(Node *);

void removeLeft(Node **nodePtr)
    Node *oldPtr = *nodePtr;
        *nodePtr = (*nodePtr)->leftChild;
        delete oldPtr;

int main()
    Node *demo1 = build1234(10, 20, 30, 5);
    Node *demo2 = build1234(10, 20, 30, 5);

    //Method1 - 10 is correctly removed with 5
    Node **nodePtr = &demo1;
    nodePtr = &(*nodePtr)->leftChild;

    //Method2 - 10 is not removed
    Node *node = demo2;
    node = node->leftChild;
    return 0;

Node* build1234(int B, int A, int C, int D)
    Node *root = new Node(A);
    root->leftChild = new Node(B);
    root->rightChild = new Node(C);
    root->leftChild->leftChild = new Node(D);
    return root;
void print(Node *node)
        std::cout << "[" << node->m_key << "]";

void print1234(Node *node)
    std::cout << std::endl;

Note: This question is not about BST, but pointers. If you see the two calls to removeLeft(nodePtr) and the removeLeft(&node) in the main() function.

  1. How are these two different?
  2. Why the second method fails to achieve the desired result?
share|improve this question
up vote 0 down vote accepted

In the first case, you are passing an address of a pointer that exists in the tree, so you are modifying the contents of the tree directly.

In the second case, you are passing an address of a variable that is local to main() instead. The tree is not modified, and deleting from the address is accessing stack memory, which is why it crashes

share|improve this answer
Can you elaborate a bit more? removeNode(nodePtr) vs removeNode(&node). I agree that nodePtr and &node are different but *nodePtr and node are pointing to the same location. – pankaj Oct 30 '11 at 15:46
After a lot of thought :) and pen/paper work, I have understood what you are trying to say. – pankaj Oct 30 '11 at 18:54

You're overthinking it. All you need is a function removeLeft(Node*) that unhooks the left node and deletes it, recursively:

void removeLeft(Node * p)
  removeBoth(p->leftChild); // recurse, OK if null

  delete p->leftChild;  // OK if already null
  p->leftChild = 0;     // necessary to make recursion terminate

void removeBoth(Node * p)
  if (!p) return;

share|improve this answer
If I am deleting node(10) in the given binary searching tree, it should be replaced with node(5). Your code is deleting up the entire tree. – pankaj Oct 30 '11 at 15:55
That's true. Your question didn't say that you want to reconstitute the tree. What if 10 has two children? – Kerrek SB Oct 30 '11 at 15:59
Sorry, if my question was not clear. It is not about BST, but pointers. If you see the two calls to removeLeft() in the main() function. One of them works fine and the second one does not. – pankaj Oct 30 '11 at 16:04

If you are bad with pointers consider using smart pointers.
When using smart pointers use shared_ptr<Node> instead of Node * and make_shared(new Node); instead of new Node and remove all deletes. now you can handle pointers without caring for deletes and memory corruption.

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