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I need several STL containers, threadsafe.

Basically I was thinking I just need 2 methods added to each of the STL container objects,



I could also break it into


The way that would work is any number of locks for parallel reading are acceptable, but if there's a lock for writing then reading AND writing are blocked.

An attempt to lock for writing waits until the lockForReading semaphore drops to 0.

Is there a standard way to do this?

Is how I'm planning on doing this wrong or shortsighted?

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4 Answers 4

This is really kind of bad. External code will not recognize or understand your threading semantics, and the ease of availability of aliases to objects in the containers makes them poor thread-safe interfaces.

Thread-safety occurs at design time. You can't solve thread safety by throwing locks at the problem. You solve thread safety by not having two threads writing to the same data at the same time- in the general case, of course. However, it is not the responsibility of a specific object to handle thread safety, except direct threading synchronization primitives.

You can have concurrent containers, designed to allow concurrent use. However, their interfaces are vastly different to what's offered by the Standard containers. Less aliases to objects in the container, for example, and each individual operation is encapsulated.

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Yeah, that sounds good. If reading/writing to these shared queues is relatively infrequent/not performance critical, the avoidance of bugs is much more important to me than anything else -- where are these concurrent containers you speak of? –  bobobobo Jun 5 '11 at 19:18
@bobobobo: You can find them in Intel's Thread Building Blocks and Microsoft's Parallel Patterns Library- both proprietary. You might be able to find various implementations around using Google, or roll your own based on their publicly-available documentation, if you're brave. –  Puppy Jun 5 '11 at 19:20
Well as of now you can download TBB, open source –  bobobobo Jun 5 '11 at 19:23
@bobobobo: Oh, I thought it was commercial. Then do that, if you can. –  Puppy Jun 5 '11 at 19:26

The standard way to do this is acquire the lock in a constructor, and release it in the destructor. This is more commonly know as Resource Acquisition Is Initialization, or RAII. I strongly suggest you use this methodology rather than



Which is not exception safe. You can easily forget to unlock the mutex prior to throwing, resulting in a deadlock the next time a lock is attempted.

There are several synchronization types in the Boost.Thread library that will be useful to you, notably boost::mutex::scoped_lock. Rather than add lock() and unlock() methods to whatever container you wish to access from multiple threads, I suggest you use a boost:mutex or equivalent and instantiate a boost::mutex::scoped_lock whenever accessing the container.

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I think this has nothing to do with the question. –  Diego Sevilla Jun 5 '11 at 19:02
Boost (or the std::lock* things in C++1x) are good for C++. –  ysdx Jun 5 '11 at 19:02
@Diego suggest some changes or provide your own answer. Using RAII to lock mutexes is completely relevant to the OP's question. –  Sam Miller Jun 5 '11 at 19:04
@Sam: No, again, RAII has nothing to do. RAII speaks of when and how to lock and release mutexes. He or she is asking what is the method to provide standard thread safety to standard containers. Either adding lock/unlock (undoable) or other means. –  Diego Sevilla Jun 5 '11 at 19:08
@bobobobo: Yes, there is- the locking and unlocking of the mutex. Miller is right- RAII should be used in this situation to ensure the unlocking of the mutex, if you do choose this route. That is, you would have some kind of LockObject Lock(), which would automatically unlock when LockObject is destroyed, and not offer an explicit Unlock() call. –  Puppy Jun 5 '11 at 19:21

Is there a standard way to do this?

No, and there's a reason for that.

Is how I'm planning on doing this wrong or shortsighted?

It's not necessarily wrong to want to synchronize access to a single container object, but the interface of the container class is very often the wrong place to put the synchronization (like DeadMG says: object aliases, etc.).

Personally I think both TBB and stuff like concurrent_vector may either be overkill or still the wrong tools for a "simple" synchronization problem.

I find that ofttimes just adding a (private) Lock object (to the class holding the container) and wrapping up the 2 or 3 access patterns to the one container object will suffice and will be much easier to grasp and maintain for others down the road.

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+1 for the overkill for simple synchronization –  Sam Miller Jun 5 '11 at 20:06
Well, the point of concurrent_vector is to not have to worry about synchronization for push_back and read operations. Its not overkill. But concurrent_vector doesn't have an .erase() method, and if you are going to use .clear(), you have to be aware that is not threadsafe. So its not really as carefree as one might have hoped. –  bobobobo Jun 5 '11 at 20:41
Also, even if you use concurrent_vector, it's more likely than not that you'll still have concurrency issues at a higher level as functions in different threads will still be stepping on each other's toes as they modify the data. So Martin's design advice is quite good. –  Sumudu Fernando Jun 6 '11 at 4:11

Sam: You don't want a .lock() method because something could go awry that prevents calling the .unlock() method at the end of the block, but if .unlock() is called as a consequence of object destruction of a stack allocated variable then any kind of early return from the function that calls .lock() will be guaranteed to free the lock.

DeadMG: Intel's Threading Building Blocks (open source) may be what you're looking for.

There's also Microsoft's concurrent_vector and concurrent_queue, which already comes with Visual Studio 2010.

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Is this meant to be a comment? –  Sam Miller Jun 5 '11 at 19:39
It's meant to be THE ACCEPTED ANSWER!! –  bobobobo Jun 5 '11 at 20:37

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