Do we need a virtual destructor if my classes do not allocate any memory dynamically ?


class A
      int a;
      int b;


class B: public A
      int c;
      int d;


In this case do we need to mark A's destructor as virtual ?

  • @ALL I executed above code sample with valgrind, by creating derived class object dynamically (i.e. "A * a = new B;delete a;") I observed there is no memory leak. Even derived class destructor is not invoked. Why not memory leak? – BSalunke Feb 18 '14 at 14:55
  • @BSalunke same deal with my tests. For some reason valgrind does not report memory leaks. I think it should. – Kobi Mar 19 '18 at 22:42

The issue is not whether your classes allocate memory dynamically. It is if a user of the classes allocates a B object via an A pointer and then deletes it:

A * a = new B;
delete a;

In this case, if there is no virtual destructor for A, the C++ Standard says that your program exhibits undefined behaviour. This is not a good thing.

This behaviour is specified in section 5.3.5/3 of the Standard (here referring to delete):

if the static type of the operand is different from its dynamic type, the static type shall be a base class of the operand’s dynamic type and the static type shall have a virtual destructor or the behavior is undefined.

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    Although the answer is correct -- you always go to the standard -- without providing any descent explanation -- the answers should teach new programmers not to preach to (or validate the knowledge of) experienced ones. – Hassan Syed Jan 14 '10 at 17:10
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    @Autopopulated People have some very strange ideas about this one. anyone would think adding a virtual destructor added some vast overhead. given the rationalistions they will produce to avoid doing so. – anon Jan 14 '10 at 17:14
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    @Autopulated: Are you sure you can recognize a right answer when you see one? – AnT Jan 14 '10 at 17:23
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    It's undefined because the C++ Standard says it is. – anon Jan 14 '10 at 19:13
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    Terry: anything not explicitly specified in the standard or anything stated by the standard to be undefined is undefined. If you do something that is undefined, the compiler is free to do whatever it wants. In this case, it states that its undefined. "Nevertheless, there is something very troubling here. Your program's behavior is undefined -- you have no way of knowing what will happen...That means compilers may generate code to do whatever they like: reformat your disk, send suggestive email to your boss, fax source code to your competitors, whatever." -- Scott Meyers, "Effective C++" – Dan Aug 9 '10 at 23:24

The purpose of virtual destructor (i.e. the purpose of making a destructor virtual) is to facilitate the polymorphic deletion of objects through delete-expression. If your design does not call for polymorphic deletion of objects, you don't need virtual destructors. Referring to your example, if you'll ever have to delete an object of type B through a pointer of type A * (polymorphic deletion), you'll need virtual destructor as high up in the hierarchy as A. That's how it looks from a formal point of view.

(Note, BTW, as Neil said, that what's important is how you create/delete your class objects, not how classes manage their internal memory.)

As for the good programming practices... It depends on your intent and your design in the end. If your classes are not designed to be polymorphic at all (no virtual methods whatsoever), then you don't need virtual destructors. If your class is polymorphic (have at least one virtual method), then making the destructor virtual "just in case" might be a very good idea, and in this case it bears virtually zero performance/memory penalty with it.

The latter is usually expressed as a rather well-known good practice guideline: if your class has at least one virtual method, make the destructor virtual as well. Although from the formal point of view a virtual destructor might not be really needed there, it is still a pretty good guideline to follow.

Classes that have no resources but can form polymorphic hierarchies should always define empty virtual destructors, except that it is perfectly sufficient to define an explicit empty (and even pure) virtual destructor at the very base of the hierarchy. All other destructors will become virtual automatically, even if they are defined implictly by the compiler. I.e. you don't have to explicitly define an empty destructor in every class. Just the base is enough.

  • AndreyT: so classes that have no resources but can form polymorphic hierarchies should always define empty virtual destructors? – Eli Bendersky Jan 14 '10 at 17:16
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    @Eli Bendersky: Yes, exactly. Except that, of course, it is perfectly sufficient to define an explicit empty (and even pure) virtual destructor at the very base of the hierarchy. All other destructors will become virtual automatically, even if they are defined implictly by the compiler. I.e. you don't have to explicitly define an empty destructor in every class. Just the base is enough. – AnT Jan 14 '10 at 17:19
  • Great job explaining the details. – JadziaMD Jan 14 '10 at 17:22
  • @AndreyT++ thanks for that extra bit of info – Eli Bendersky Jan 14 '10 at 17:24
  • Although it is not necessary to add "virtual" when overloading a virtual fonction, I usually do so, just to keep this information in the immediate context and no force the reader (well, me :x) to trample to the base class to see if it is effectively virtual. – Matthieu M. Jan 14 '10 at 19:42

Freeing memory is not the only critical function a destructor can perform. It can also be used to reset global state for instance. Not doing this won't leak memory but could potentially cause other issues in your program.

Additionally, even if your destructor doesn't do anything useful today, it may at some point in the future. There's no real reason to avoid a virtual destructor if you have inheritance so why not just add it and sleep better at night?

  • Don't know why this was downvoted... – David Rodríguez - dribeas Jan 14 '10 at 17:13
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    (+1) Guess someone is on their usual down-voting spree again. The answer adds value. – Hassan Syed Jan 14 '10 at 17:13
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    @Autopulated yes Neil is right. But there can be more than one correct answer. Mine is certainly not incorrect. – JaredPar Jan 14 '10 at 17:20
  • Somebody downvoted me too - just to be even-handed, I suppose :-) – anon Jan 14 '10 at 17:23
  • Sad: two wrongs will never make one right – David Rodríguez - dribeas Jan 14 '10 at 17:36

The destructor of the parent class is always automatically called, and the default dtor is always generated if there's no explicit dtor declared. In your example, neither A nor B needs to have a non-trivial dtor.

If you class has virtual functions, an additional virtual dtor doesn't hurt, and is good practice. In case you class allocates memory or any other resource (like opening a file), a dtor is needed to free that resource again upon destruction.

  • You did not get the purpose of a virtual destructor. It has nothing to do with what your base class do and everything to do with how others (over which you have no control) use your class. – Matthieu M. Jan 14 '10 at 19:46
  • Aha. Maybe I didn't explain long enough... and I haven't separated discussion of virtual dtor from general presence of a non-trivial dtor. I know I don't have control over what others do with my class, but I can express some intent. A virtual destructor (or other virtual functions) tells you that you are expected to derive from that class. If a virtual dtor is missing, it might be because deriving from that class is not intended, at least not in such a way that the derived classes shall be destructed using a pointer to the base class. – tobing Jan 15 '10 at 16:33

The purpose of declaring destructor as virtual is to be able to invoke the derived class's destructor whenever you call delete on a pointer of type Base which is pointing to object of type Derived. Not doing so would result in undefined behavior.

The assumption that you need not mark destructor as virtual if you are not allocating memory dynamically implies that you do not need to call derived class destructor if you are not allocating memory dynamically, which is wrong. As you may still do several other operations in your derived class's destructor other than just deallocating the dynamically allocated memory. Examples would be closing an open file, logging some information etc.

  • It is in fact more stringent than that. Of course we all agree that in this case only A::~A() is called instead of B::~B() if the delete operator somehow use the size information of the type to know how much should be freed, what will happen ? delete is implementation defined, and this undefined behavior, so no one knows, apart from reverse engineering (or readings the specs) of a given implementation. – Matthieu M. Jan 14 '10 at 19:50
  • Thanks...i didn't know this aspect – mukeshkumar Jan 15 '10 at 4:52

If your only concern is memory, maybe you should start by protecting base class destructor (and/or maybe others). Then if something does not compile, you'll see why. Ref: boost::any ways.

  • Could you elaborate on your reference? – Benjamin Bannier Sep 25 '12 at 8:05

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