I know, I know, the title of my message may seem provocative, since boost::mutex purposefuly do not expose lock / unlock (in order to avoid dead locks).
However the boost documentation is quite short on these aspects (to say the least), so I am asking if anyone can help me in the following use case.
Suppose you have a class Foo, which has :
- a destructor that takes some time to complete
- a method that is called by a distinct thread, but should not be called during destruction
class Foo
{
public:
virtual ~Foo()
{
//Time consuming operations here
}
//Method called by a timer belonging to a distinct class
void OnTimer()
{
//Other time consuming stuff. Should not be called during destruction !
}
};
I tried (with no success) to implement a version based on boost::mutex
//boost::mutex implementation
class Foo
{
public:
Foo()
{
}
virtual ~Foo()
{
{
boost::mutex::scoped_lock lock(mDisposingMutex);
//Time consuming operations here
}
}
//Method called by a timer belonging to a distinct class
void OnTimer()
{
{
//Imaginary code here: mutex::locked() method is private !!!
if ( ! mDisposingMutex.locked())
return;
}
//Other time consuming stuff. Should not be called during destruction !
}
private:
boost::mutex mDisposingMutex;
};
Am I totally wrong? Can anyone tell me how this is supposed to be done with boost::mutex?
Thanks !
OnTimer()
call as the first step in your destructor? Granted, a call could still come through asynchronously "at the same time", but it's not clear yet why this object undergoing destruction is still a target for these callbacks.FutureTask
class. Define an enumerated state model includingALIVE
,DESTRUCTING
, andDESTRUCTED
(maybe). Upon entry to the destructor, atomically change the state to DESTRUCTING (via CAS if you're paranoid), and (maybe) change it toDESTRUCTED
upon exit from the destructor. InOnTimer()
, only do the work if the state is ALIVE. If you need to preclude the destructor from starting whileOnTimer()
is running, you need a lock.