I'm putting together functions for a binary search tree and ran into a wall. I'm working on each situation that might be encountered when a node holding a specified value needs to be removed from the tree. I'm uncertain how to handle freeing the node if it does not have a left and right child. The function must return a node. Do I back up, examine each left and right child, and remove the value while it's in a child? But then if the value is in the root, wouldn't I have a similar problem with how to remove it? Just by way of explanation, the program uses a void pointer then casts the TYPE val in a separate function compare() which evaluates both values and returns -1 for <, 0 for ==, and 1 for >.

```
struct Node *_removeNode(struct Node *cur, TYPE val)
{
if (compare(cur->val, val) == 0) { //if val == cur->val
if (cur->right != NULL && cur->left != NULL) { //if cur has right and left
cur = _leftMost(cur->right);
free(_leftMost(cur->right));
}
else if (cur->right == NULL && cur->left != NULL) { //if cur has left
cur = cur->left;
free(cur->left);
}
else if (cur->right != NULL && cur->left == NULL){ //if cur has right
cur = cur->right;
free(cur->right);
}
else if (cur->right == NULL && cur->left == NULL){ //if cur has no child
//free cur if cur = val
}
}
else if (compare(cur->val, val) == -1) {
cur->right = _removeNode(cur->right, val);
}
else if (compare(cur->val, val) == 1) {
cur->left = _removeNode(cur->left, val);
}
return cur;
}
```

curitself has the value then justreturnthecurin that no child case.. – Koushik Feb 19 '13 at 9:14