![[ToC]](toc.png)
![[Index]](index.png)
![[Skip Back]](skipback.png)
![[Skip Fwd]](skipfwd.png)
![[Prev]](prev.png)
![[Up]](up.png)
![[Next]](next.png)
| 8.2 Rotations |
|
Rotations are just as useful in threaded BSTs as they are in unthreaded ones. We do need to re-examine the idea, though, to see how the presence of threads affect rotations.
A generic rotation looks like this diagram taken from BST Rotations:
![[Click here for plain-text rendering]](rotation.png)
Any of the subtrees labeled a, b, and c may be in fact threads. In the most extreme case, all of them are threads, and the rotation looks like this:
![[Click here for plain-text rendering]](tavlrot.png)
As you can see, the thread from X to Y, represented by subtree b, reverses direction and becomes a thread from Y to X following a right rotation. This has to be handled as a special case in code for rotation. See Exercise 1 for details.
On the other hand, there is no need to do anything special with threads originating in subtrees of a rotated node. This is a direct consequence of the locality and order-preserving properties of a rotation (see BST Rotations). Here's an example diagram to demonstrate. Note in particular that the threads from A, B, and C point to the same nodes in both trees:
![[Click here for plain-text rendering]](tavlrot2.png)
Exercises:
1. Write functions for right and left rotations in threaded BSTs, analogous
to those for unthreaded BSTs developed in Exercise 4.3-2.
[answer]