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This is what I have done so far:

class mutexLocker
{
    private:
    /* Declaration of a Mutex variable `mutexA`. */
    pthread_mutex_t &mutexA;

    /* `mutexStatus` holds the return value of the function`pthread_mutex_lock `. 
    This value has to be returned to the callee so we need to preserve it in a class
    variable. */
    int             mutexStatus;

    /* We need to decide how to deal with the situation when one thread tries to lock then
    mutex repeatedly. If the mutex is of type recursive, then there won't be any problem for 
    sure, but otherwise the case may result in a deadlock. */
    pthread_t       calleeThreadId;

    public:
    /* Constructor attempts to lock the desired mutex variable. */
    mutexLocker (pthread_mutex_t argMutexVariable, pthread_t threadId) 
    : mutexA (argMutexVariable, calleeThreadId)
    {
        /* Return value is needed in order to know whether the mutex has been 
        successfully locked or not. */
        int mutexStatus = pthread_mutex_lock (&argMutexVariable);
    }

    /* Since the constructor can't return anything, we need to have a separate function
    which returns the status of the lock. */
    int getMutexLockStatus ()
    {
        return mutexStatus;
    }

    /* The destructor will get called automatically whereever the callee's scope ends, and
    will get the mutex unlocked. */
    ~mutexLocker ()
    {
        pthread_mutex_unlock (&mutexA);
    }
};

What other functionalities should be provided in a DIY mutex locker class?

share|improve this question
    
Is there a reason you want to implement your own instead of using the lock classes available in Boost or in the C++11 standard library? –  Joachim Pileborg Aug 16 '12 at 6:10
2  
"What other functionalities should be provided in a DIY mutex locker class?" is an extremely subjective question and "will likely solicit debate, arguments, polling, or extended discussion" - hence voting to close as non-constructive. –  paxdiablo Aug 16 '12 at 6:11
1  
@JoachimPileborg I didn't know that C++ standard has any mutex locker class! I did search Google on this before. I'll look again. –  TheIndependentAquarius Aug 16 '12 at 6:14
    
@paxdiablo How should I reform this question to make it specific? –  TheIndependentAquarius Aug 16 '12 at 6:14
4  
See e.g. std::lock_guard. These are new in the C++11 standard, so if you have an older compiler it might not have support for it. VC++ 2010 should have it, as well as GCC 4.4. –  Joachim Pileborg Aug 16 '12 at 6:20

3 Answers 3

up vote 5 down vote accepted

I fully agree with Slavik81's comments about not creating functionality you don't have a use case for.

Nevertheless referencing the Boost implementations of lock classess may be a good starting point in terms of understanding common requirements of their interfaces: http://www.boost.org/doc/libs/1_42_0/doc/html/thread/synchronization.html#thread.synchronization.locks

In terms of the standard C++11 introduces std::lock_guard: http://en.cppreference.com/w/cpp/thread/lock_guard

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Thanks for link, I'll look in. But isn't it good to rebuild this for learning? Will rebuilding this not contribute to understanding the basics of threads and all? –  TheIndependentAquarius Aug 16 '12 at 6:51
    
There's no harm in writing one for your own personal understanding but beyond this I'd typically stick with std::lock_guard if you're using C++11 otherwise boost::lock_guard as it's well tested and commonly understood. –  Graeme Aug 16 '12 at 6:55

You're approaching this a little backwards. You write code to solve problems you're facing. Don't write code to solve problems you don't have. "You aren't gonna need it" is a good principle.

No other functionalities should be provided unless you have a problem that could be solved with them. I assume you don't have such a problem, given that you haven't mentioned any. Thus, no other functionalities should be added yet.

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First, Graeme and Slavik81's answers are both really good (+1).

Now, as far as what to add:

  • you may want additional error support, depending how you handle errors. For example, if your team throws exceptions if the lock failed, the class could create and throw the exception.
  • as a diagnostic, you may want to verify the client tested that the acquisition succeeded (e.g. assert in the dtor if they never verified the lock succeeded).
  • you may want a 'retry' acquisition functionality. it's better to retry before throwing an exception, imo. Personally, I just consider it a programmer's error if EBUSY -- don't hold long locks!
  • also stash your pthread_mutex_t in a class - prohibit copying, assignment, and such. pass that to your locker.
  • some clients may want a simple method to test success, rather than evaluating the status. depends on how you use it.
  • do not unlock in the dtor if you did not acquire the lock
  • check the result of the unlock. determine error handling in this scenario.

perhaps more importantly - determine what to remove:

  • no copying. explicitly deleting the copy ctor expresses intent.
  • delete operator= -- expresses intent.
  • delete moves
  • calleeThreadId: remove unless you find useful. specifically, consider how you would actually implement this error detection you are proposing -- the locker seems to be the wrong place for the data, imo. i prefer to keep these lockers minimally small, focused, and simple.
  • extra mile: prevent heap allocations; e.g. delete primary variants of operator new/delete.
  • if you don't retry, then the status could be const.
  • threadID, if you decide to keep it, could also be const.

Finally, pass the mutex by reference in the (although i assume it is a typo).

share|improve this answer
    
You said: "calleeThreadId - remove unless you find useful." I thought that would help in detecting whether there has been a recursive call on a non recursive mutex. And I'll be grateful if you could explain the remaining points in detail. You meant that I shouldn't copy the function argument mutex to class variable mutex? –  TheIndependentAquarius Aug 16 '12 at 7:08
    
@AnishaKaul ok - expanded –  justin Aug 16 '12 at 7:33
    
but what is the problem if we copy/assign safely? Haven't I done it safely? –  TheIndependentAquarius Aug 16 '12 at 7:36
    
@AnishaKaul as you have written it, they are (implicitly) impossible to copy/assign -- so it is safe at this time. however, if they did exist, it would result in imbalances -- if follow the program's flow, mutexStatus would be overwritten, and there would be too many unlocks when copied (because the the implicit copy would not lock -- which could also result in a deadlock, depending on the mutex type). –  justin Aug 16 '12 at 7:44

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