I am thinking of making a class which represents ownership of a synchronization primitive, something like this:

class CCriticalSectionLock
    CCriticalSectionLock( CCriticalSection &cs ) : cs( cs )
    { cs.Enter(); }
    { cs.Leave(); }
    CCriticalSection &cs;

This looks like a good way to be able to take ownership during a function and ensure ownership is released even if there are multiple exit points or exceptions. It does, however, raise some subtle issues about exactly when the compiler will have various things evaluated. Consider the following use:

int MyMethod( void )
    not_locked(); // do something not under lock

    CCriticalSectionLock myLock( someCriticalSection );

    locked(); // do something under lock

    return ...; // some expression

AFAIK, C++ lifetime rules would guarantee that not_locked() would be called before the lock is taken, and that locked() would be called while the lock is held.

However, what I am not so clear on is exactly when the expression being returned would be evaluated with respect to the point at which the lock destructor is called. Is it guaranteed that the expression will be evaluated before the destructor? I would think so but I'm not 100% sure, and if not it could lead to very subtle, intermittent, hard-to-find bugs!


1 Answer 1


If they weren't, that would be very problematic.

Indeed, consider the following code :

int function(){

    MyClass myObject;
    return 5 + myObject.getNumericalValue();

with getNumericalValue() a simple member function that returns an int based on computations on member variable. If the expression was evaluated after the destruction of myObject, you would have undefined behavior, and using locals would be impossible in return statement (which isn't the case).

In your case, the lock will be destroyed after the evaluation of the return statement.

To add some strictness to that, let me quote the standard (§3.7.3/3, emphasis mine) :

If a variable with automatic storage duration has initialization or a destructor with side effects, it shall not be destroyed before the end of its block, nor shall it be eliminated as an optimization even if it appears to be unused

The end of the block, for a function, is after the return statement.

  • Good point on being able to use a local in the return; I had considered that too but wondered if any optimization might be able to reorder it in the event the return didn't reference the local.
    – Kevin
    Sep 27, 2013 at 11:45

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