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I cannot use boost or the latest std::thread library. The way to go is to create a custom implementation of a scoped mutex.

In a few words when a class instance is create a mutex locks. Upon class destruction the mutex is unlocked.

Any implementation available? I don't want to re-invent the wheel.

I need to use pthreads.

  • resource acquisition is initialization == “RAII”
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up vote 10 down vote accepted

Note This is an old answer. C++11 contains better helpers that are more platform independent:

And other options like std::unique_lock, boost::unique_lock

Any RAII tutorial will do.

Here's the gist: (also on

// stub mutex_t: implement this for your operating system
struct mutex_t 
    void Acquire() {} 
    void Release() {} 

struct LockGuard
     LockGuard(mutex_t& mutex) : _ref(mutex) 
         _ref.Acquire();  // TODO operating system specific

          _ref.Release(); // TODO operating system specific
     LockGuard(const LockGuard&); // or use c++0x ` = delete`

     mutex_t& _ref;

int main()
    mutex_t mtx;

        LockGuard lock(mtx);
        // LockGuard copy(lock); // ERROR: constructor private
        // lock = LockGuard(mtx);// ERROR: no default assignment operator


Of course you can make it generic towards mutex_t, you could prevent subclassing. Copying/assignment is already prohibited because of the reference field

EDIT For pthreads:

struct mutex_t
        mutex_t(pthread_mutex_t &lock) : m_mutex(lock) {}

        void Acquire() { pthread_mutex_lock(&m_mutex);   }
        void Release() { pthread_mutex_unlock(&m_mutex); }
        pthread_mutex_t& m_mutex;
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I updated my question to request pthreads. Therefor your _ref.Acquire() will be pthread_mutex_lock(_ref)? – cateof Nov 2 '11 at 8:07
Mmm. the part to implement for your threading library was marked as such. Anyways, I added a quick implementation for pthread_mutex_t for reference. – sehe Nov 2 '11 at 8:13
You had your answer even before I specify the OS details :-) – cateof Nov 2 '11 at 8:14
I'd advise against putting the pthread_mutex_lock directly into the lockguard. I'd prefer to have one correct RIAA class that can monitor many different synchronisation primitives. It reduces code duplication, makes LockGuard unit-testable, doesn't require you to recompile all if you change the lock implementation etc. – sehe Nov 2 '11 at 8:16
@cateof: You most probably want to initialize and destroy the mutex only once, even if you want to lock/unlock many times. Initialization and destruction are more related to the mutex_t construction and destruction (if you wish, but then you probably don't want to take the mutex by reference, but rather construct it internally)... At any rate that part of the problem should not be mixed with RAII over the lock. – David Rodríguez - dribeas Nov 2 '11 at 8:36

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