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class Manager {
public:

    list<Employee> getEmployees() {
        // Do I need to lock here?
        return emps_;
    }
    void addEmp(Employee emp); //Here I have lock
private:
    list<Employee> emps_;
};

Instance Manager is shared between multiple threads. Do I need to add lock to the getEmployees member function?

I am pretty sure that i need a lock since the complete list is copied , so any modification that will be done in the meantime (until copy will finished ) can break the copy operation.

I am just asking this because i got few opinion that there is no need to lock.

Edit:

Since its clear now that need to lock , my question is how to do this with minimum overhead. By doing below solution you copy the list twice.:

list<Employee> getEmployees() {
    pthread_mutex_lock( &mutex1 );
    list<Emp> tmp  = emps_; //Copy 1 
    pthread_mutex_unlock( &mutex1 );
    return tmp;//Copy 2
}
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You need to read about multithreading and think about this. Why would you want a lock there? How would a it help? Could you redesign the API to actually solve your problem? The question in multithreading is rarely as simple as "Should I have a lock here? Yes/No". Voting to close as "overly broad". Sorry! –  Magnus Hoff Sep 25 '12 at 9:04
    
@MagnusHoff - as i add to the question i am pretty sure that lock needed , but i have an argue on it, and you can see that even professional peoples , like oachim Pileborg from answer below think that this is not required lock, so this question need to be asked. –  Avihai Marchiano Sep 25 '12 at 9:14
1  
Well, the answer to the question "Is the copy constructor of std::list thread safe?" is clear: No, it's not thread safe. –  Magnus Hoff Sep 25 '12 at 9:16
1  
@user1495181: read about RVO (return value optimization), your compiler is likely to not do a redundant copy of the container. –  Mat Sep 25 '12 at 9:57
1  
Since you are using C++, consider the scoped std::lock class. –  Joachim Pileborg Sep 25 '12 at 11:15
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2 Answers

up vote 13 down vote accepted

The whole list is copied, but the source of the copy may be under modification. stdlib containers support fully-concurrent unlocked read access. Writes on the other hand...

if you're going to be writing to this list when the copy is potentially being made, you need to lock it down. a SWMR (Single Writer Multi Reader) lock is ideal for this, btw, especially if you have a dozens or even hundreds of threads that need to be making copies, with only the occasional write needed. Even then, starvation of the writer-request is a real-concern to be addressed by the implementation of the locking class, but not for the scope of your question here (no pun intended).

Regarding your update, I'm a massive fan of scope-released locks when they are appropriate, and they are so in your case. I.e. a scope-object wrapper around your mutex that latches it on entry, and unlatches it on scope-exit.

I'm quite sure the boost:: guys have such a thing easily accessible, and for that matter C++11 may too (I've not taken that plunge yet due to work schedules; no downtime ugh). But you want something like this:

list<Employee> getEmployees() 
{
    scope_lock latch(&mtx);
    return emps_;
}

The scope_lock above is just a simple class that latches the mutex on construction, and unlatches it on destruction. This protects against the very-real possibility that an exception thrown in your copy-construction will not perma-hang your mutex. Think of it as an overt-abuse of automatic destruction to unlock a mutex where a finally{} block would be ideally suited (again, if thats in C++11 whoopee; I really need to get out more).

I hope that makes sense. For small get'ers like that such things are ideal. Again, many toolkits including boost will likely have such things built in, and if any boost guys read this please cowboy-up and lend a pointer. The example above is about as trivial a scope lock ideal as you can get.

Finally, for a SWMR, the logic is exactly the same. the only difference is the lock will take an additional argument of whether you're requesting read-or-write access.

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One last - i am using in this - lock_guard<mutex> guard(mtx_); is this ok? is this will unlocked only after the return value was copied? –  Avihai Marchiano Sep 25 '12 at 9:50
    
template-based lock-wrapper with auto-unlock on destruction? perfect. I've not used it but so long as it throws an exception on failure to lock the mutex, it will be a nice fit for your usage. As I said, just make sure the same mutex is latched under writes as well. –  WhozCraig Sep 25 '12 at 9:50
    
With regards to a scoped lock: it's almost necessary, since copying a list can throw. –  James Kanze Sep 25 '12 at 10:28
2  
@user1495181 Destructors of local variables are called after any return value has been copied out. –  James Kanze Sep 25 '12 at 10:32
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In your case I would say that a lock is not needed, at least not with the code you show us. The reason is that the whole list is copied, so each thread that call the function will get its own private copy of the list.

share|improve this answer
7  
But it is quite conceivable that the lock should be held while copying, is it not? –  Magnus Hoff Sep 25 '12 at 9:05
    
@MagnusHoff: Depends on how you define thread safety and use case. Always-Lock-On-Every-Read can be a total performance killer, but sometimes it might be needed. –  phresnel Sep 25 '12 at 9:09
    
@phresnel: Exactly. And we don't have that information, which is why I voted to close. :) –  Magnus Hoff Sep 25 '12 at 9:11
    
@MagnusHoff what kind of information is missing? –  Avihai Marchiano Sep 25 '12 at 9:32
    
@phresnel His "read" does a deep copy of a list. The hit for taking a lock in this case will be marginal. –  James Kanze Sep 25 '12 at 10:30
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