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Does anyone know why the STL containers don't have virtual destructors?

As far as I can tell, the only benefits are:

  • it reduces the size of an instance by one pointer (to the virtual method table) and
  • it makes destruction and construction a tiny bit faster.

The downside is that it's unsafe to subclass the containers in the usual way.

EDIT: Perhaps my question could be rephrased "Why weren't STL containers designed to allow for inheritance?"

Because they don't support inheritance, one is stuck with the following choices when one wants to have a new container that needs the STL functionality plus a small number of additional features (say a specialized constructor or new accessors with default values for a map, or whatever):

  • Composition and interface replication: Make a new template or class that owns the STL container as a private member and has one pass-through inline method for each STL method. This is just as performant as inheritance, avoids the cost of a virtual method table (in the cases where that matters). Unfortunately, the STL containers have fairly broad interfaces so this requires many lines of code for something that should seemingly be easy to do.
  • Just make functions: Use bare (possibly templated) file-scoped functions instead of trying to add member functions. In some ways this can be a good approach, but the benefits of encapsulation are lost.
  • Composition with public STL access: Have the owner of the STL container let users access the STL container itself (perhaps guarded through accessors). This requires the least coding for the library writer, but it's much less convenient for users. One of the big selling points for composition is that you reduce coupling in your code, but this solution fully couples the STL container with the owner container (because the owner returns a true STL container).
  • Compile-time polymorphism: Can be somewhat tricky to do write, requires some code gymnastics, and isn't appropriate for all situations.

As a side question: is there a standards-safe way of subclassing with non-virtual destructors (let's assume that I don't want to override any methods, just that I want to add new ones)? My impression is that there is no generic and safe way of doing this if one does not have the power to change the code defining the non-virtual class.

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You missed the benefit of "it discourages programmers from using inheritance inappropriately". There may be a valid reason to inherit from an STL container, but I have never found one. –  Tom Oct 30 '09 at 3:14
And to answer your question: Prefer Composition to Inheritance. –  Matthieu M. Oct 30 '09 at 7:22
Why would you want to subclass it? –  jalf Oct 30 '09 at 12:03
"In some ways [non-member functions] can be a good approach, but the benefits of encapsulation are lost". This is false. Encapsulation is completely respected when you work using only the public interface. You can either manipulate the container (like the search/sort algorithms), or you can adapt it (like std::stack). Don't mistake member-function syntax for encapsulation of abstractions, they're completely independent things. –  Steve Jessop Oct 30 '09 at 14:38
@MatthieuM. If your class is best described as a subtype of the former class then you should inherit. If you are creating a class called MyVector, which adds one method to standard std::vector<int>, then don't tell me that composition fits to this scenario. And you may gain a lot by proper use of inheritance. If STL classes don't have virtual dtors/methods to keep vtable away, then you can have the very same by using inheritance. And with composition your class will grow by the size of composition member - a cost similar to creation of vtable. –  doc Dec 14 '12 at 16:12

8 Answers 8

up vote 8 down vote accepted

I guess it follows the C++ philosophy of not paying for features that you don't use. Depending on the platform, a pointer for the virtual table could be a hefty price to pay if you don't care about having a virtual destructor.

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A virtual destructor is only useful for inheritance scenarios. STL containers are not designed to be inherited from (nor is it a supported scenario). Hence they don't have virtual destructors.

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One thing I've discovered from interviewers is that most programmers don't seem to grasp that inheritance must be designed-for by the base class. It's great seeing the lightbulb turn on when people realize, "it doesn't have a virtual destructor, because I'm not supposed to inherit from it." –  Tom Oct 30 '09 at 3:03
s/interviewers/interviews/ –  Tom Oct 30 '09 at 3:04
Can you please source the statement that STL containers are not designed for inheritance? –  doc Dec 14 '12 at 15:19
@JaredPar, your answer doesn't shed much light on why. –  Paul Draper Apr 12 at 19:29

I think Stroustrup answered this question indirectly in his fantastic paper: Why C++ is not just an ObjectOriented Programming Language:

7 Closing Remarks
Are the various facilities presented above objectoriented or not? Which ones? Using what definition of objectoriented? In most contexts, I think these are the wrong questions. What matters is what ideas you can express clearly, how easily you can combine software from different sources, and how efficient and maintainable the resulting programs are. In other words, how you support good programming techniques and good design techniques matters more than labels and buzz words. The fundamental idea is simply to improve design and programming through abstraction. You want to hide details, you want to exploit any commonality in a system, and you want to make this affordable. I would like to encourage you not to make objectoriented a meaningless term. The notion of ‘‘objectoriented’’ is too frequently debased

– by equating it with good,

– by equating it with a single language, or

– by accepting everything as objectoriented.

I have argued that there are – and must be – useful techniques beyond objectoriented programming and design. However, to avoid being totally misunderstood, I would like to emphasize that I wouldn’t attempt a serious project using a programming language that didn’t at least support the classical notion of objectoriented programming. In addition to facilities that support objectoriented programming, I want – and C++ provides – features that go beyond those in their support for direct expression of concepts and relationships.

STL was built with three conceptual tools in mind mainly. Generic Programming + Functional Style + Data Abstraction == STL Style. It is not strange that OOP is the not the best way to represent a Data Structure & Algorithms library. Although OOP is used in other parts of the standard library, the designer of STL saw that the mix of the three mentioned techniques is better than OOP alone. In short, the library wasn't designed with OOP in mind, and in C++ if you don't use it, it doesn't get bundled with your code. You don't pay for what you don't use. The classes std::vector, std::list,... are not OOP concepts in the Java/C# sense. They are just Abstract Data Types in the best interpretation.

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Verbose and somewhat off-topic answer. –  Sake Oct 30 '09 at 0:52
The real question is why do they need them?! They don't. –  AraK Oct 30 '09 at 0:59
I think this answer definitely needs an edit to correct the name of Stroustrup's article: Why C++ is not just an Object-Oriented Programming Language. –  rturrado Oct 12 '10 at 16:23
@rturrado good eyes man, I totally missed that. Thanks. –  AraK Oct 12 '10 at 16:52

Why weren't STL containers designed to allow for inheritance?

In my humble opinion they are. If they wouldn't, they had been made final. And when I look into stl_vector.h source I can see that my STL implementation uses protected inheritance of _Vector_base<_Tp, _Alloc> to grant access for derived classes:

 template<typename _Tp, typename _Alloc = allocator<_Tp> >
 class vector : protected _Vector_base<_Tp, _Alloc>

Wouldn't it use private inheritance if subclassing was not welcome?

is there a standards-safe way of subclassing with non-virtual destructors (let's assume that I don't want to override any methods, just that I want to add new ones)?

Why not use protected or private inheritance and expose desired part of interface with using keyword?

class MyVector : private std::vector<int>
     typedef std::vector<int> Parent;

        using Parent::size;
        using Parent::push_back;
        using Parent::clean;
        //and so on + of course required ctors, dtors and operators.

This approach ensures that the user of the class will not downcast instance to std::vector<int> and he is safe, since the only problem with non-virtual destructor is that it won't call derived one, when object gets deleted as an instance of parent class.

...I have also loose idea, that you may even inherit publicly if your class doesn't have a destructor. Heresy?

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As has been pointed out, the STL containers are not designed to be inheritable. No virtual methods, all data members are private, no protected getters/setters/helpers.. And as you've discovered, no virtual destructors..

I'd suggest you should really be using the containers via composition rather than implementation inheritance, in a "has-a" way rather than an "is-a" one.

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Can you please source the statement that STL containers are not designed for inheritance? Data members are almost always private. There are no virtual methods cause they are generally rare in templates programming. Lack of protected methods also isn't the reason to tell that class is not inheritable. –  doc Dec 14 '12 at 15:46

you're not supposed to blindly add a virtual destructor to every class. If that were the case, the language wouldn't allow you any other option. When you add a virtual method to a class that doesn't have any other virtual methods, you just increased the size of the class instances by the size of a pointer, typically 4 bytes. That's expensive depending on what you're doing. The size increase happens because a v-table is created to hold the list of virtual methods, and each instance needs a pointer back to the v-table. It's typically located at the first cell of the instance.

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No virtual destructor prevents the class from being subclasses correctly.

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Not really. You can subclass any class not having a virtual destructor. The only problem you will have is that destructor of inherited class will not be called in case when polymorphism is used. So not having virtual destructor does not prevent correct inheritance in any way. –  user405725 Sep 1 '10 at 17:04

In looking over the answers, it occurred to me that one good reason would be that if one had a virtual destructor, it would be odd to not have virtual methods as well. Most users expect virtual classes to have overrideable methods, so it would be a common source of (user) bugs to not have virtual methods. STL containers really do need to be fast, and virtual methods would be problematic.

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