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