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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++)

    void TestFunction() { // Do something }

Consider this code:

A a = new A();
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

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?

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Explicitly call a cleanup function (stop in your case) before deleting the class, not convenient but thats how I would do it. I always try to put as little code as possible in the destructor, just for the reason you described how destructors work –  Rolle Aug 9 '12 at 9:40
This is probably a reason most people don't bother with Java-like thread classes. This class has more than one responsibility: it is managing the thread's lifetime and the code it executes. Separate the two concerns and everything will become easy. –  R. Martinho Fernandes Aug 9 '12 at 9:41
Actually, the destructor of 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 the A 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 the A destructor has been called. –  Joachim Pileborg Aug 9 '12 at 9:45
@JoachimPileborg: destructors are called in the order I described in my question, at least that is what my debugger tells me while stepping through the code. And the destructors aren't defined as virtual. –  Wouter Huysentruit Aug 9 '12 at 9:48
@R.MartinhoFernandes: do I understand it right that if I follow the suggestion from Rolle, I have then seperated the two concerns? –  Wouter Huysentruit Aug 9 '12 at 9:56

2 Answers 2

Your destructor in MyThread should be defined as 'virtual'.

class A{
    virtual ~A(){cout<<"~A"<<endl;}

class B : public A{ 

int main(){
    A* b = new B();
    cout<<"do something"<<endl;
    delete b;
    b = NULL;
    return 0;

The result is: A B do something ~B ~A

and when it doesn't use virtual, The result is: A B do something ~A

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It will not help with the issue OP asks for though, that is that data members may have been deleted –  Rolle Aug 9 '12 at 9:44
I stepped through the code, and I first get in the destructor of A and finally in the destructor of MyThread. And they aren't defined as virtual. So what you say doesn't look like what I'm seeing. –  Wouter Huysentruit Aug 9 '12 at 9:44
The destructor being virtual only matters if you destroy it through a pointer to MyThread. Since the code is using a pointer to A, there's no problem there (you should still make it virtual to avoid that issue). –  R. Martinho Fernandes Aug 9 '12 at 9:50
Right advice, wrong reason. Having a non-virtual destructor is a problem if delete is invoked on a base class pointer. –  markh44 Aug 9 '12 at 9:50
@aasa: I see that you have modified your answer. I agree with you that I would need a virtual destructor if I did this: delete (MyThread *)a;, but I'm not doing that and this really isn't going to solve my problem here :) Anyway thanks for your effort! –  Wouter Huysentruit Aug 9 '12 at 9:57
up vote 0 down vote accepted

As Rolle and R. Martinho Fernandes suggested, I needed to separate the two concerns.

class MyThread should not start or stop itself as its responsibility should be limited to the code it executes and not to the lifetime of the thread.

So the solution was to stop the thread from an other class (the same class that started the thread) which is responsible for the lifetime of the thread.

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