I have a class that has a Start
method to start a thread that executes the virtual ThreadFunction
at a predefined interval. The Stop
method sets an event and waits until the the thread terminates (by a WaitForSingleObject
on the thread handle).
In the destructor of MyThread
, I call the Stop
method. So whenever I delete the instance, I'm sure the thread is stopped before the delete returns.
class MyThread
{
void Start();
void Stop();
~MyThread() { Stop(); }
virtual VOID ThreadFunction() { }
};
Next I have a class that derives from MyThread
:
class A : MyThread
{
virtual VOID ThreadFunction()
{
for (int i = 0; i < 1000; i++)
TestFunction();
}
void TestFunction() { // Do something }
};
Consider this code:
A a = new A();
a->Start();
delete a;
The problem is that delete a
will first call the destructor of A
before it will call the destructor of MyThread
right? So if the thread was executing the for-loop
in the ThreadFunction
, the Stop
method will be called after a
has been destructed. This can lead to an access violation, when ThreadFunction
calls TestFunction
on a destructed instance.
A solution would be to add a destructor to class A
that calls the Stop
method, like this:
class A : MyThread
{
~A()
{
Stop();
}
}
But because I have a more complex class hiërarchy, that involves multiple inherited classes, this would mean I have to call the Stop
method in each destructor, which would result in the Stop method being called plenty of times for only one instance that needs to be deleted.
Is there any other way to tackle this problem?
MyThread won't be called at all since it's not
virtual. If it was, then it would work fine since while the destructors are called the actual memory haven't been released yet, so e.g.
this` still works even when theA
destructor has been called. You have to be carefull though, since member variables may have been free'd and destructed so access to them may cause problems after theA
destructor has been called.virtual
.