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I haven't done pointer arithmetic in a long time, so I figured I'd try my hand at C and do a simple Binary Search Tree. I can't get the hang of deletion, however. Something along these lines works as I expect:

typedef struct Node{
    int value;
    struct Node *left;
    struct Node *right;

typedef struct Tree{
    struct Node* root;

int main(){
    Tree *tree = createTree(); 

    treeInsert(10, tree);    // Inserts 10 at root
    treeInsert(30, tree);    // Inserts 30 to root->right
    treeInsert(5, tree);     // Inserts 5 to root->left
    treeInsert(7, tree);     // Inserts 7 to root->left->right
    treeInsert(12, tree);    // Inserts 12 to root->right->left

    // Removes Node "7" from the tree successfully
    free(tree->root->left->right);   // Free memory for this node in the tree
    tree->root->left->right = NULL;  // Set the pointer to NULL

    return 0;

I'd like to write a nodeDelete(Node *killNode) function to free the memory associated with a node, then point it to NULL, but I find it doesn't work like I expect it to.

int main(){
   // ... snip ...

   Node *kill = tree->root->left->right  // Points kill node to Node "7"
   free(kill);                           // Deallocates memory
   kill = NULL;                          // Points kill to NULL, but keeps 
                                         //   tree->root->left->right **undefined** 
   // ... snip ...

I think my problem is that I'm telling it that kill now points to NULL, which disconnects it from the node in the tree and doesn't effect the original node pointer. How can I tell it that I want to point tree->root->left->right to NULL instead of kill? Do I need a pointer-to-a-pointer in this case?

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It is really a bad style to typedef structs just not to type "struct". – user405725 Jul 26 '12 at 13:58
@VladLazarenko Is it? I had seen it suggested all over the internet and assumed it was a fairly common practice. Like I said, though, I'm new to C. I had some C++ experience in college, but I'll keep it in mind. – KChaloux Jul 26 '12 at 14:02
It is well described in Linux Coding Style (and applies to C in general, not only Linux kernel style). See Chapter 5 here — – user405725 Jul 26 '12 at 14:05
@VladLazarenko "typedef struct" is not universally considered harmful -- see the discussion here:… – Martin B Jul 26 '12 at 14:07
@VladLazarenko That is merely a style guide for the Linux kernel... in other words completely subjective. – Platinum Azure Jul 26 '12 at 14:09
up vote 2 down vote accepted

Yes, if you want to delete that node you need to set tree->root->left->right to NULL. This means that you can't just pass the value of that pointer to the deletion function.

You have two options: you can either pass a pointer to the parent of the node to be deleted, along with information about which child to delete:

nodeDelete(Node *parent, int kill_right)
    Node *kill;

    if (kill_right) {
        kill = parent->right;
        parent->right = NULL;
    } else {
        kill = parent->left;
        parent->left = NULL;


In this case you'd call nodeDelete(tree->root->left, 1);.

Alternatively you can pass a pointer to the pointer that you want to remove:

nodeDelete(Node **killptr)
    *killptr = NULL;

In this case you'd call nodeDelete(&tree->root->left->right);.

share|improve this answer
Perfect! The double-pointer method is exactly what I'm looking for. I wasn't aware & was in C. Does it work the same way as reference variables in C++? – KChaloux Jul 26 '12 at 14:10
You'll probably want to go with the second version -- it's way shorter and can delete the root node, which the first version cannot. Also, you'll probably want to delete the child nodes recursively to avoid leaking memory. – Martin B Jul 26 '12 at 14:14
@MartinB That was the plan (the recursive deletion). @caf The example works great by directly passing &tree->root->left->right to it, but it fails (memory space not nullified) if I do something like Node *kill = tree->root->left->right; and nodeDelete(&kill)... – KChaloux Jul 26 '12 at 14:16
@KChaloux: The unary & operator is in C - it returns the address of an lvalue (as in: given an addressable object a, &x is a pointer to a). However the & in C++ that can be used in a declarator is not in C, so C++-style reference variables do not exist. Note that *killptr must be used to explicitly dereference the pointer in nodeDelete(). – caf Jul 26 '12 at 14:17
@KChaloux: Yes - node deletion is fundamentally an operation that alters the parent of a node, so ultimately a reference to the parent must be supplied to nodeDelete(). Using &tree->root->left->right works because it's a reference to the .right member in the parent node; using &kill does not, because it's not a reference to any part of the parent node at all. – caf Jul 26 '12 at 14:20

Yes, you need to use a double pointer. You'll also want to make sure you recursively delete any children of the node you're deleting:

void nodeDelete(Node **killNode)

    // Free child nodes

    // Free the node itself

The null-pointer check is intentionally performed right at the beginning -- this prevents you from having to wrap the recursive calls in null-pointer check.

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