I have the following working code, for red-black tree rotations.

```
void BalancedTree::rotateLeft(Node* & x){
37 Node* y = x->right;
38
39 x->right = y->left;//slice y's left child
40 x->right->parent = x;
41
42 y->left = x;//switch x and y's parentship
43 Node* xp = x->parent;//for some reason, y->parent = x->parent causes logic
errors.
44 x->parent = y;
45 y->parent = xp;
46
47 if (y->parent == nil) root = y;//fix grandparent
48 else if (y->parent->parent->left == x) y->parent->parent->left = y;
49 else y->parent->parent->right = y;
50 }
```

When the line 43 and 45 was replace by (keep 44)

```
y->parent = x->parent
```

Or, just exchange line 44 and 45, the content of Node pointer by x was changed. All I wanted to do was this: change the pointer (parent) in Node (pointed by y), and let it point to x's parent.

The Node structure is:

```
struct Node{
Node* parent;
Node* left;
Node* right;
int value;
};
```

Am I missing something? Basic properties of pointers?

EDIT: page 313 Cormen's Introduction to Algorithms

```
LEFT-ROTATE(T, x)
1 y = x.right
2 x.right = y.left
3 if y.left != T.nil
4 y.left.p = x
5 y.p = x.p
6 if x.p == T.nil
7 T.root = y
8 elseif x == x.p.left
9 x.p.left = y
10 else x.p.right = y
11 y.left = x
12 x.p = y
```

EDIT2: Here is the code NOT working:

```
36 void BalancedTree::rotateLeft(Node* & x){
37 Node* y = x->right;
38
39 x->right = y->left;//slice y's left child
40 x->right->parent = x;
41
42 y->left = x;//switch x and y's parentship
43 y->parent = x->parent;
44 x->parent = y;
45
46
47 if (y->parent == nil) root = y;//fix grandparent
48 else if (y->parent->parent->left == x) y->parent->parent->left = y;
49 else y->parent->parent->right = y;
50 }
```

`xp`

. – David Heffernan May 18 '12 at 15:04