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I'm pretty unfamiliar with multithreading and synchronization and I have to add semaphore code into given pseudocode that will allow multiple threads to access the threaded binary tree with max concurrency.

The pesudocode gives the node struct that contains:

int data
node *leftchild, *rightchild, *prev, *next;

and the only function is an insert(node *root, int data) which searches to find the parent in the current tree, and then inserts the new node (given it isn't already in the tree) and changing the prev and next pointers.

I'm not sure how to best to implement the semaphores. My initial idea(s) are:

  • Lock/unlock each node as it's being searched. This is to prevent other threads from inserting while I search. Should the parent node be locked as well?

Then for insertion:

  • Lock the parent node and the current node to be able to prevent another thread from inserting at the same place at the same time.

Is there a better way to go about this? (assuming it's even correct in the first place)

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Not sure what you mean by locking single nodes in the tree. You acquire a lock on the whole tree, insert the new value, and release the lock. I wouldn't use a semaphore though, but a mutex. –  Zaphod Beeblebrox Jun 25 '14 at 0:02
A bunch of questions come to mind: How big is the tree? How many insertions vs. reads are anticipated? Is it more important for searches to be fast or writes? Are there any high-speed, real-time constraints, or could you batch writes? –  SomeCallMeTim Jun 25 '14 at 0:02
What I'm thinking is that real-world "max concurrency" is typically achieved not with processor threads but with queues and "light" threads. The high performance of NodeJS is an example. But where the data is coming from (and how quickly new data is arriving) is key to knowing whether this would give you an advantage. –  SomeCallMeTim Jun 25 '14 at 0:10
@AndreaLaforgia I have to use semaphores as part of the assignment and am planning on just using a binary semaphore to mirror a mutex lock. –  Caulay Jun 25 '14 at 0:45
@SomeCallMeTim With the given pseudocode I have and how the question is worded I interpret it as the tree being some arbitrary size containing integers >= 0, non-repeating. The only function is the insert one, so the insertions are what matters - with the search only occurring to preempt the insertion. –  Caulay Jun 25 '14 at 0:53

1 Answer 1

In this case you should use a read-write lock. Locking on individual nodes or parts of the tree will become exceptionally difficult if you later decide to switch your tree implementation and is more work then needed.

int32_t Tree_insert(Tree *tree, int32_t data) {
    int32_t ret = insert(&tree->root_node, data);
    return ret;
share|improve this answer
Thanks for the info. This is more of a hypothetical scenario where I am supposed to use semaphores to allow multiple threads access to the tree at once. I'm just not sure if what I originally suggested is the right track or not. I know it would be possible (and probably more efficient) to simply lock/unlock the entire tree to insert a node, but it isn't the focus of the exercise unfortunately –  Caulay Jun 25 '14 at 1:01
@Caulay what is the exercise's requirement? –  Zaphod Beeblebrox Jun 25 '14 at 9:33
@AndreaLaforgia I have to "use semaphores in the pseudocode so that multiple threads can share access to the data structures. Your goal is to maximize the concurrent use of the data structures". –  Caulay Jun 25 '14 at 14:51
Locks entire tree - does not maximize concurrency. –  wcochran Oct 20 '14 at 20:39

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