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I have a templated class in which multiple threads have their own copy of variables (buffers, mutexes, condition-variables).

template<size_t N> // N = number of threads
class Foo
    void thread_job(const int id);
    std::vector<std::thread> threads; // initialized via push_back(std::thread)
    std::string thread_buffer[N];
    std::mutex mu[N];
    std::condition_variable cond[N];

I understand these variables to be a collection of separate objects, so that threads can acquire locks for specific elements without interfering with others:

void Foo<N>::thread_job(const int id)
    std::lock_guard<std::mutex> locker{mu[id]};

Let's say I wanted to move away from defining the number of threads at compile-time and instead store thread-related variables in a dynamic container like a std::vector. Would a thread have to lock the whole container before accessing one of its elements?

If so, do you have suggestions on how to avoid this issue? I can only think of creating arrays with more elements than would conceivably used and sticking to the array approach, e.g.:

std::string thread_buffer[64];
std::mutex mu[64];
std::condition_variable cond[64];
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1 Answer 1

Would a thread have to lock the whole container before accessing one of its elements?

No, as long as you can guarantee that another thread does not modify said container at the same time.

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My design cannot guarantee that, it would kill most of the parallelism. So I'm really looking for a dynamic alternative to regular arrays. – Adrian Jan 26 '14 at 19:33

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