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I am writing a utility class in an application in which they may or may not be future derivations. I dont have any virtual functions (the general guideline for using virtual dtors), and so given my memory restrictions I choose not to have a virtual destructor in this utility class.

A few programmers later - someone adds to my utility class by deriving from it. Now if, anywhere in the code my new class in new'd and deleted the correct dtor will not be called as the base class dtor was not made virtual (see example code).

Other than going back and changing the base class - what solutions are there in this case?

#include <iostream>
using namespace std;

class utility {
  int i, j;

    utility () { cout << "utility ctor\n";};
   ~utility () { cout << "utility dtor\n";};
    void dosomething () { cout << "haha\n";};

class addtoutility: public utility  {
  char *ch;

   addtoutility () { ch= new char(); cout << "added ctor\n";};
  ~addtoutility () { delete ch; cout << "added dtor\n";};
   void andnowaddsomefunctionality () {};

int main () {
  utility *u  = new addtoutility();
  //lots of interesthing code
  delete u;
share|improve this question
If someone is going to derive from a non-virtual base, then we would hope they would be careful to never use base-class pointers for their objects. – SoapBox Nov 24 '11 at 22:01
I wonder why anyone would want to derive from utility in the first place... is there any use for that? Does anyone know a better example, closer to real code? – Timbo Nov 24 '11 at 22:07
Inheritance is not to reuse code, but rather to be used by existing code (i.e. you should not derive to reuse the base class, but so that code that works with your base will work with the new type). From that standpoint, if the class does not have any virtual function, it should not be derived, and that is where the problem lays. – David Rodríguez - dribeas Nov 24 '11 at 23:09

Your base class is not polymorphic so there is little value to having a pointer-to-base in any case. Your base class documents the fact that it is not polymorphic by not using the virtual keyword anywhere.

If someone wants to use it as the base class to a polymorhpic hierarchy then they can add a virtual destructor to the first class they derive from it and, where necessary, hold pointers to that base class type.

You can't prevent programmers who come later from digging their own traps but there is nothing wrong with a non-polymorhphic class and you don't need to do anything to it to "make it safe".

As evidence that this is common and acceptable practice, you need only take a look at the standard library. There are many classes (strictly, the majority of them are class templates) with no virtual functions and no virtual destructor.

share|improve this answer
Indeed, it's whoever writes the derived class that should check if they can safely use their base classes, not the other way around. – André Caron Nov 24 '11 at 21:59
Ok, thx!- I wanted to make sure that's the case (as in the writer of the base class is not responsible n its common practice, STL is a good example!). Scott Meyers presents a similar situation in Effective C++ (2nd ed) item 14, but does not present a solution or come out and say its not the base class writers responsibility - I guess its implied ;) – user993833 Nov 25 '11 at 1:42
  • Delete it through a pointer of the correct type. Since none of the other methods are virtual there really is no point to treating it polymorphically.


addtoutility *u  = new addtoutility();

delete u;
  • Make it virtual. If you're worried about the overhead then it's likely negligible.
  • Use static inheritance using CRTP. The only problem is that this may take up more memory than a vtable.
share|improve this answer
One way to ensure you delete it through the correct pointer type is to manage it using unique_ptr or shared_ptr (and, of course, only allocate it dynamically when you really need to). – Mike Seymour Nov 24 '11 at 22:27
overhead might be negligible, specially if the compiler sees that nothing inherits from it --whether it is negligible or not is one issue, but the compiler cannot make any assumption based on the fact that there are no derived types. The whole purpose of virtual functions is that someone can create a derived class with a final overrider later and it will work. The compiler must allow now for this to happen in the future – David Rodríguez - dribeas Nov 24 '11 at 23:11
@DavidRodríguez-dribeas Not even multi-pass compilers that perform whole program optimization? (I realize that compilers don't do this, but is there anything preventing them from?) – Pubby Nov 24 '11 at 23:20
@Pubby: If you compile statically all libraries the compiler would have a chance (I wonder whether it would actually be allowed, and more so, whether compiler writers would even care to byte off a few bits there). If you compile to libraries, the compiler must keep the vptr in case that there is a derived type in a different translation unit... I would really not expect this to be optimized at all – David Rodríguez - dribeas Nov 24 '11 at 23:35
@Pubby: After a quick think about it, the answer is that it would be insane to try and perform that optimization. The size of the type is used by the compiler whenever an instance of the type is created, or a member of that type is defined in a different class. If the compiler were to remove the vptr, it would have to walk over all uses of the type and fix them to match the new size. For the case of members of different types, that would in turn mean revisiting all uses of those types..., and all that assuming that the program does not have any side effect that depends on those sizes. – David Rodríguez - dribeas Nov 25 '11 at 0:15

If you can't modify the code of the base class at all, you can add a function to the derived class like Destroy(). Kind of annoying but we do it all the time if you think of Win32 objects like Brush.

share|improve this answer
It would be nice to know why someone down voted this. Did I misunderstand the question? – Godwin Nov 24 '11 at 22:00
I didn't downvote this answer but I do admit to not understanding how it helps. Perhaps you could expand on it? If the function is in the derived class then it implies you have to have a pointer to the derived class to use it anyway, but in this case a straight delete is safe too. – Charles Bailey Nov 24 '11 at 22:04
I guess the downvoter's point is that having to cast to the derived class and then explicitly call a Destroy method is just as bad as having to cast to the derived class and calling its destructor. You don't gain anything with that approach. – Timbo Nov 24 '11 at 22:04
Ok, it looks like I misunderstood what to OP was asking. – Godwin Nov 24 '11 at 22:38

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