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I wonder if size functions (size, length or whatever) are thread safe? They usually just return some private size member, as I understand. I really doubt they do any sort of calculations. They all are marked as const but are they thread-safe? for example std::list::size?

I have a lock-protected function for writing and another for reading (also lock-protected) but I wonder if my count function should also be lock-protected? IMO, it looks like a waste of response time. I don't think it may break any iterators or fail if some member is being removed from the list at the same time (as same, as possible).

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count is reading. If you lock for other read operations, why wouldn't you lock for count? What makes it special? –  R. Martinho Fernandes Jan 26 '12 at 17:56

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up vote 5 down vote accepted

Yes, it needs to be protected by a lock. Let's say that your implementation's std::list::size is a 32-bit value but on your platform 32-bit reads are not atomic, they take 2 16-bit reads. In this case, a second thread may interrupt the first that was reading the size after the first read has occurred, update the size variable and then when the second 16-bit read takes place you may get a real messed up value for size.

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That explained why it's not thread-safe very well. Thank you. –  Pius Jan 26 '12 at 18:07

No, they're not thread-safe. The standard containers are simply not thread-safe, period.

There is however a limited amount of thread safety: If every thread accesses a different element, and no element is accessed by two distinct threads at any given time, then that's fine. However, any operation that mutates the container itself (insert, erase) is not thread-safe and must be synchronized. Consequently, iterators and references may lose their validity, and size() is similarly affected.

In other words,if you separate all operations that mutate the container from those that don't, then while you're not mutating, you can safely call size() from multiple threads.

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The statement that the standard containers are "simply not thread-safe, period" is very misleading! They provide a very reasonable form of thread-safety. Just because some people wish for a kind of thread-safety where they can live without caring for thrads while getting all the benefits doesn't mean they are not thread-safe! The fact that people don't understand that access even to a primitive value requires synchronization is part of the problem they have with threading. –  Dietmar Kühl Jan 26 '12 at 18:03

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