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suppose I have these declarations

template<typename T> class User;
template<typename T> class Data;

and want to implement User<> for T = Data<some_type> and any class derived from Data<some_type> but also allow for other specialisations defined elsewhere.

If I didn't already have the declaration of the class template User<>, I could simply

template<typename T,
         typename A= typename std::enable_if<is_Data<T>::value>::type>
class User { /*...*/ };


template<template<typename> data>> struct is_Data
{ static const bool value = /* some magic here (not the question) */; };

However, this has two template parameters and thus clashes with the previous declaration, where User<> is declared with only one template parameter. Is there anything else I can do?


template<typename T,
         typename A= typename std::enable_if<is_Data<T>::value>::type>
class User<T> { /*...*/ };

doesn't work (default template arguments may not be used in partial specializations), nor does

template<typename T> class User<Data<T>> { /*...*/ };

as it doesn't allow types derived from Data<>, neither does

template<typename T>
class User<typename std::enable_if<is_Data<T>::value,T>::type>
{ /*...*/ };

since template parameter T is not used in partial specialization.)

share|improve this question
SFINAE can be applied to pick template specialisations, see en.cppreference.com/w/cpp/types/enable_if –  Walter Oct 12 '12 at 12:33
So it can! I learned something. –  j_random_hacker Oct 12 '12 at 12:40
Just to clarify: You want to be able to instatiate User<> for any Data<> or subclass, but not for any other type? Should User<int> fail to compile? –  John Dibling Oct 12 '12 at 13:22
@Walter In that case, why bother with a partial specialisation at all? Can't you use a static assert in the non-specialised version? –  hvd Oct 12 '12 at 13:27
Note that using std::enable_if for this kind of SFINAE is a bit roundabout. Using typename = std::true_type as the defaulted parameter you can write partial specs that matches <T, typename is_foo<T>::type> assuming is_foo is e.g. a UnaryTypeTrait in the sense of the Standard (any of the traits from <type_traits> work like that). –  Luc Danton Oct 13 '12 at 15:59

2 Answers 2

up vote 7 down vote accepted

IF the original declaration of User<> can be adapted to

template<typename, typename = void> class User;

then we can find a solution (following this example)

template<typename T>
class User<T, typename std::enable_if<is_Data<T>::value>::type>
{ /* ... */ };

However, this doesn't answer the original question, since it requires to change the original definition of User. I'm still waiting for a better answer. This could be one that conclusively demonstrates that no other solution is possible.

share|improve this answer
The solution is demonstrated correctly in the link posted, however it was not transferred/adapted correctly in this answer - it should be a partial specialization like the following: template<typename T> class User<T, typename std::enable_if<is_Data<T>::value>::type> { ... }; ... will post an "edit". –  etherice Jul 31 '13 at 12:20
@etherice thanks. fixed in edit. –  Walter Aug 2 '13 at 15:38

As you only want to implement it when a single condition is true, the easiest solution is to use a static assertion. It does not require SFINAE, gives a clear compile error if used incorrectly and the declaration of User<> does not need to be adapted:

template<typename T> class User {
  static_assert(is_Data<T>::value, "T is not (a subclass of) Data<>");
  /** Implementation. **/

See also: When to use static_assert instead of SFINAE?. The static_assert is a c++11 construct, however there are plenty workarounds available for pre-c++11 compilers, like:

#define STATIC_ASSERT(consdition,name) \
  typedef char[(condition)?1:-1] STATIC_ASSERT_ ## name

If the declaration of user<> can be changed and you want two implementations depending on the value of is_Data, then there is also a solution that does not use SFINAE:

template<typename T, bool D=is_Data<T>::value> class User;

template<typename T> class User<T, true> {
  static_assert(is_Data<T>::value, "T is not (a subclass of) Data<>"); // Optional
  /* Data implementation */

template<typename T> class User<T, false> {
  static_assert(!is_Data<T>::value, "T is (a subclass of) Data<>"); // Optional
  /* Non-data implementation */

The static assertions only checks whether the user did not accidentally specify the template argument D incorrectly. If D is not specified explicitly, then the static assertions can be omitted.

share|improve this answer
This does actually not solve the problem I had. I wanted still to allow for other specialisations of Data<T> (will edit the question to mention that). –  Walter Sep 18 '14 at 20:15

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