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I would like to write a "versatile" class representing the general container storing pointers. Should I use public inheritance or containment?

template <class T>
class List : public std::vector <T *>


template <class T>
class List
   std::vector <T *> items;

May some problems occur with abstract classes (i.e. virtual destructor)?

If neither proposal is appropriate, what design should I follow (and could you include a short example)?

share|improve this question
Its naught to call a vector a list. When you say list we expect certain intrinsic behavioral patterns. Vector does not supply those behaviors. For example inserting into the middle of a list I would expect to be constant time (this is not true for vector). – Loki Astari Sep 21 '10 at 22:16
Take a look at boost::ptr_list it should do what you want. – Loki Astari Sep 21 '10 at 22:17
@Martin: He's not thinking of std::list; other languages/environments use "list" where C++ uses "vector". – Roger Pate Sep 21 '10 at 22:22

This is already done for you with Boost's pointer containers.

I do not like boost so I would like to use only C++ 0x00 standard :-).
  — Ian (comment)

If you still want to re-invent these classes, look at the design decisions they made. In particular, they don't inherit from other containers as your first code does.

In fact, just copy the code right out from Boost. This is a header-only library and should be straight-forward (i.e. few implementation-specific workarounds). Boost's license is very liberal, not even requiring you to mention Boost when distributing compiled programs.

share|improve this answer

private inheritance is a common tactic for creating classes that are implemented in terms of another. Code that uses the class can't tell that the derived class is derived from a private base, so you won't end up in the sorts of situations that might ordinarily require a virtual destructor.

Use using to import members from the private base to the derived class. For example:

template<class T>
class List:
private std::vector<T>
    using std::vector<T>::operator[];
    using std::vector<T>::size;

This is a bit crude, but it gives you some flexibility. You can start out by using private inheritance, and this saves you some typing compared to writing forwarding functions, but you can still write alternative implementations long-hand as required. And then, if/when this becomes inappropriate, you can change the implementation style -- perhaps have a vector as a member, for example, or maybe do everything by hand -- safe in the knowledge that client code won't need to change.

This is ideal for situations where you're pretty sure you'll eventually need a non-standard type of container, but have an existing container type that mostly fits the bill for now. And it's a better medium-term solution than a typedef, because there's no risk of client code accidentally (or on purpose...) using the two types interchangeably.

share|improve this answer
Rationale for -1s appreciated ;) – please delete me Sep 21 '10 at 22:26
I can't see a reason to downvote either (and I'm out of votes for the day, so tomorrow). This is a good implementation strategy to know, even though this specific case has a better answer. ;) – Roger Pate Sep 21 '10 at 22:30
@Steve: Private inheritance is encapsulation. – Roger Pate Sep 21 '10 at 22:31
Yes -- composition IS preferable, but private inheritance is a reasonable short-to-medium-term solution that shouldn't stuff you if it ends up long-term. Looks the same to client code, but it's less typing than composition, and much better than a typedef. That's a tradeoff I'm happy with, at any rate :) (As for boost, I've yet to use the compiler/platform/libraries combo that includes it out of the box, so I don't suggest it as an answer to questions that don't already refer to it explicitly.) – please delete me Sep 21 '10 at 22:45
@Steve. Why do you prefer it? – Ian Sep 21 '10 at 22:47

How about:

typedef std::vector<boost::shared_ptr<T> > List;

That is, I think it's better to use a resource managing pointer within regular container classes than to reinvent each of the container classes to add resource management capability.

share|improve this answer
Why do you think it's better? – Roger Pate Sep 21 '10 at 22:10
But, in my opinion, such soluton will be slow. I need high-performance that can not be provided by shared_ptrs ... – Ian Sep 21 '10 at 22:11
@Ian: Opinions are one thing--what do your performance measurements tell you? – Drew Hall Sep 21 '10 at 22:14
Using std::unique_ptr from C++0x is the thinest you can get without doing everything manually – David Sep 21 '10 at 22:15
@Roger: I had never looked very closely at boost::ptr_container before--thanks for the motivation to do so. I always thought the only additional feature it provided was deleting the pointers in the destructor, but now I see there's a lot more to it. – Drew Hall Sep 21 '10 at 22:46

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