I was wondering that with the availability of template-typedefs I should provide convenience wrappers for classes that transform types. Consider this (useless) example:

template< T >
struct whatever
   typedef typename std::conditional< sizeof(T) <= sizeof(void*),
                                      int, long >::type type;

here, std::conditional is transform from the title, used with typename transform<...>::type. Also, whatever itself is also a transform and used in the same way.

With the availability of template-typedefs (aka using), I could change the interface to:

template< T >
using whatever = typename std::conditional< sizeof(T) <= sizeof(void*),
                                            int, long >::type;

Which simplifies the usage. This could be done for all those cases, but due to the required (partial) specialization, you sometimes end up with an implementation class and a wrapper. In case of std::conditional, you'd probably end up with moving it to std::impl::conditional<...> and provide another wrapper as

namespace std
  namespace impl
    // "classic" implementation of std::conditional

  template< bool B, typename T, typename F >
  using conditional = typename impl::conditional< B, T, F >::type;

This leaves the question what interface/API I should provide. I see one strong point for providing the wrapper: It prevents user errors. See for example this question & answer.

For keeping the existing interface, I see the following points:

  • Consistency. That's what type traits and basically everybody is using
  • Separation of the transformer and the result of the transformation. You can pass the transformer as a type, in case of whatever above, this wouldn't be possible anymore.
  • Less code by preventing the impl solution required for specializations.

I'd like to hear arguments for or against providing the "new" interface, not merely opinions like "I like the second approach better". I'm interested in finding out about cases where one or the other approach is required or when it fails to work/scale.

To be honest, the question is mostly my lack of experience with template-typedefs, so if you do have some real-world experience, please shared the good and the bad side of it and whether or not I should consider the typename transform<...>::type API as obsolete with C++11 or not.

  • 4
    I personally am a fan of template typedefs, though I'm unsure what the right style is. :-) – templatetypedef Mar 18 '13 at 14:09
  • 1
    Some people decided to go with CamelCase for their using-aliases. template<class T> struct some_trait{ using type = ...; }; and template<class T> SomeTrait = Invoke<some_trait<T>>; with template<class T> using Invoke = typename T::type;. – Xeo Mar 18 '13 at 14:33
  • @Xeo: I prefer same identifier as the nested type so that I could write this type<some_traits<T>>; likewise iterator<container>; const_iterator<container>; that way the readability is improved without destroying the flexibility. – Nawaz Mar 18 '13 at 16:22

I always do the following:

  1. Inside some namespace (impl, detail, etc.) have the classes that do the real work.
  2. Outside, have template aliases to clean up calling code.

For example, if I were to re-write std::remove_reference, I would do it like the following:

namespace detail {
    template <typename T> struct remove_reference
        using type = T;
    template <typename T> struct remove_reference<T&>
        using type = T;
    template <typename T> struct remove_reference<T&&>
        using type = T;

template <typename T>
using remove_reference = typename detail::remove_reference<T>::type;

I didn't compile the above code, so don't shoot me if I made a typo.

A benefit is that the calling site is much more clear. One potential drawback is if you are writing higher order generic code and rely on the existence of a ::type inside of some type function, e.g.

template <template <typename...> class F, typename... Ts>
using apply = typename F<Ts...>::type;

though you can probably get away with changing the using line to

using apply = F<Ts...>;

without any harm. It all really comes down to what the rest of your code is doing. If your type functions need to have a certain interface (::type or ::value) then you need to conform to them.

  • 1
    I know I can do that, that's exactly the example I gave in the question for std::conditional, but it doesn't answer the question of whether or not I should do it. – Daniel Frey Mar 18 '13 at 14:47
  • Sorry, I added a brief benefit/drawback at the end there. – bstamour Mar 18 '13 at 14:48

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