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I am receiving updates from two different sources (network listen) upon which I get a callback to a method somewhat like this:

void onUpdate(Update* update)
    static MutexT lock;
    static hash_set<UpdateID> set;

    ScopedGuard _(lock); //lock here
    hash_set<UpdateID>::iterator it = set.find(update->id);
    if (it == set.end())

    listener->onUpdate(/*some stuff*/);

since both sources are feeding you the same updates, you want to avoid notifying on duplicates, you want to arbitrate between both sources to be up to date with the latest from whoever gives it to you first and also for missed updates if one sources is possibly unreliable. The thing is, it's expensive to lock on every update, is there a way around this lock if I definitely do not want duplicate onUpdate calls?

(Or at least a way to reduce cost?)

share|improve this question
Do both sources supply an identical stream of updates? – Kerrek SB Sep 11 '12 at 19:12
Have you considered using non-blocking sockets and doing this in a single thread? I mean, what's the gain in using multiple threads if you have a choke-point like that? – Nikolai N Fetissov Sep 11 '12 at 19:43
@Kerrek, yes except one is udp so it may drop packets, the other is tcp and is slower – Palace Chan Sep 11 '12 at 20:16
@NikolaiNFetissov Yea I see what you mean. It's really just there being a reliable tcp stream from a slow server and a faster multicast feed. I'm thinking I could have the multicast callback insert into the hash table and callback (lock free) and the slower one grab the lock to check if he's needed or not. – Palace Chan Sep 11 '12 at 20:22
Hmm... do you have a sequence number in the updates? – Kerrek SB Sep 11 '12 at 20:33
up vote 2 down vote accepted

First of all, the lock shouldn't be static, it should be a member variable.

You could make it more efficient by using a reader/writer mutex, e.g.

boost::shared_mutex          mutex_;
std::unordered_set<UpdateID> set_;

void onUpdate(const Update& update)
    boost::upgrade_lock<boost::shared_mutex> lock(mutex_);

    auto it = set_.find(;
    if(it == set_.end())
        boost::upgrade_to_unique_lock<boost::shared_mutex> unique_lock(mutex_);

    listener->onUpdate(/*some stuff*/);
share|improve this answer
In what way does this change things for OP? With your code either both threads block at lock(mutex_) (as in OP's example) or will insert twice in a race. Don't you want to re-check set_.find() after taking unique_lock(mutex_) thus making it a DCLP? – Patrick B. Sep 11 '12 at 19:34
lock(mutex_) will not block unless an upgraded "write" lock exists, thus it is more efficient than OP example and reliable (unlike DCLP). Please read about multiple-readers single-writer mutexes. – ronag Sep 11 '12 at 19:42
Why would you need to re-check find? If the item already exists insert does nothing. – ronag Sep 11 '12 at 19:45
you're right. Please edit your answer (with a minor change) so that I can take back my downvote. Sorry. – Patrick B. Sep 11 '12 at 19:52
No problem. Edited. – ronag Sep 11 '12 at 19:54

There is the double-check-locking design-pattern where you avoid expensive locking by checking the insert condition two times. But what is more expensive: locking or finding.

share|improve this answer
As far as I know there is no portable implementation of DCLP on C++. – ronag Sep 11 '12 at 19:18
@ronag Please elaborate in what way this disqualifies the DCLP being used by the OP? I more than willing to learn. – Patrick B. Sep 11 '12 at 19:21
Without knowing how the "set" is implemented there is no way to know whether DCLP will behave as intended, e.g. the thread inserting into the set could be suspended during the insert operation, but still return true for the find for another thread. You can read more about the hazards of DCLP – ronag Sep 11 '12 at 19:28
@ronag thanks for your links, I will learn a lot - tomorrow. – Patrick B. Sep 11 '12 at 19:53

So you just continually add entries to your hash table? Never removing them? What does your hash table load look like? With enough collisions, your insert/lookup performance will degrade.

If your stream has sequence numbers, I would think you'd do better to track gaps (missing sequence numbers) instead of messages you've actually seen. On the fast UDP side when sequence numbers have gaps record the missing messages in the hash table and call onUpdate() on every message you receive. On the slow TCP side, look in the hash table to see if a message fills a gap, if it does call onUpdate() and remove that message from the hash table, otherwise do nothing.

That said, a lock-free hash table is possible. Not sure they are lock-free, but Microsoft has concurrent_unordered_map (and concurrent_unordered_set) and TBB has concurrent_hash_map.

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