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What are the cons of the inheriting from the traits class template in my own (say, conatiner) template class? Is it conventional, legal?

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Most (all?) traits classes only have a static member variable, why would you want to inherit from one? –  Joachim Pileborg Feb 5 '13 at 8:33
I want this to avoid multiple lines like typedef typename traits::value_type value_type; in public : section in each of my classes. –  Orient Feb 5 '13 at 8:36
What traits? Can you post an example. –  R. Martinho Fernandes Feb 5 '13 at 8:37
See here vector class part. –  Orient Feb 5 '13 at 8:38
A lot of trait classes from <type_traits> inherit from std::integral_constant. I see no problem with it. –  jrok Feb 5 '13 at 8:39
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3 Answers

up vote 3 down vote accepted

Only traits can inherit other traits (in the strict sense of what C++ standard library calls *_traits), if they should only differ in some aspects. But there are other similar classes intended for inheriting that simplify defining the members. E.g. when defining iterator, you are probably going to inherit std::iterator to define the appropriate tag typedefs.

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Loud and clear. –  Orient Feb 5 '13 at 8:55
So you say only traits can inherit traits, but iterators may inherit what is essentially a traits type, too? Doesn't sound right to me. –  Arne Mertz Feb 5 '13 at 8:56
@ArneMertz: The point is that that's not a traits type. It's similar, but it's not called trait. –  Jan Hudec Feb 5 '13 at 9:02
I think this is wrong. It's a standard C++ idiom to inherit (publically) from a traits class, like std::iterator. (std::iterator is, I admit, a bit special, but the general principal applies.) –  James Kanze Feb 5 '13 at 10:13
@JanHudec The definition of a traits class (from the inventor of the term, Nathan Meyrs) is a class with no non-static members: all of the members are either static functions or variables, or type definitions. By this definition, instantiations of std::iterator are traits. –  James Kanze Feb 5 '13 at 10:17
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Normally, traits classes are just a bunch of typedefs. If you want to have them all in your class, you can inherit from them. Since they usually have no (nonstatic) members, they are in fact empty classes, so inheriting from them means that the Empty Base Class Optimization applies. So what the cons could be:

  1. Inheritance normally implies an is-a relationship. OO-Purists therfore might say you should not use it for pure technical resons. But in C++ that pure technical inheritance is used often, so I would not bother.
  2. If you have more than one base class, some compilers won't apply the EBCO any more, so the trait base class object that you inherit will occupy some space in your class objects, although it contains no data.

More material on inheritance, EBCO etc.:

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+1: Great links, especially the first one. –  Jan Hudec Feb 5 '13 at 9:09
There are a lot of traits classes which aren't just a bunch of typedefs. (I'm making extensive use of traits in my current work: I want to use template functions for a lot of things, but I'm interfacing to C, where each function has a distinct name. So I use traits to wrap the C functions, and can do the rest with my templates.) –  James Kanze Feb 5 '13 at 10:20
@JamesKanze yes, as the discussion to Jan's answer shows, the notion of a traits class is a bit fuzzy, but surely traits can also contain functions, I might have oversimplified that a bit. –  Arne Mertz Feb 5 '13 at 16:42
@ArneMertz FWIW, the orginal publication outside of the C++ committee was cantrip.org/traits.html. –  James Kanze Feb 5 '13 at 16:50
thx for the link :) –  Arne Mertz Feb 5 '13 at 20:51
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It depends, sort of. I would distinguish between the OO concept of inheritance, and the C++ implementation technique of derivation. (This choice of vocabulary is personal. The distinction is not often made, but IMHO, it is important to distinguish between the design concept, and the implementation technique.) In this case, I would say that you don't inherit from a traits class, since there is no isA relationship. On the other hand, while derivation is usually used to implement inheritance, it's not the only possible use. It's perfectly normal to derive from a traits class (e.g. in the way most iterators will derive from std::iterator), as long as it is clear that this derivation is not used to implement inheritance, in the OO sense. In particular, you don't want people manipulating your iterator through pointers to std::iterator.

It has been suggested (by none less than Herb Sutter) that traits classes have protected destructors, to prevent any risk of deletion through them. I'm not totally convinced. The very semantics of a traits class are such that it won't normally even occur to anyone to create a pointer to one. (When was the last time you saw an std::iterator* in any code?) (On the other hand, one may ask: why not? The protected destructor does mean that the traits class is not a POD, but I can't think of any reasonable case where this matters.)

Any way, publicly inheriting from a traits class to obtain a number of typedef is a standard C++ idiom.

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