Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

While reading this question , I came across @Johannes's answer.

template<typename> struct void_ { typedef void type; };

template<typename T, typename = void>  // Line 1
struct is_class { static bool const value = false; };

template<typename T>
struct is_class<T, typename void_<int T::*>::type> { // Line 2
  static bool const value = true; 

This construct finds if the given type is a class or not. What puzzles me is the new kind of syntax for writing this small meta program. Can anyone explain in detail:

  1. Why we need Line 1 ?
  2. What is the meaning of syntax <int T::*> as template parameter in Line 2 ?
share|improve this question

2 Answers 2

up vote 9 down vote accepted

Line 1: Choosing the partial specialization below if the test succeeds.

Line 2: int T::* is only valid if T is a class type, as it denotes a member pointer.

As such, if it is valid, void_<T>::type yields void, having this partial specialization chosen for the instantiation with a value of true. If T is not of class type, then this partial specialization is out of the picture thanks to SFINAE and it defaults back to the general template with a value of false.

Everytime you see a T::SOMETHING, if SOMETHING isn't present, be it a type, a data member or a simple pointer definition, you got SFINAE going.

share|improve this answer
Why is going through struct is_class<T, typename void_<int T::*>::type> (instead of the simpler struct is_class<T, int T::*>) needed? (The second compile but doesn't give the wanted result) – AProgrammer Jul 1 '11 at 5:58
@AProgrammer: How does the second compile if you don't know the class type? How would you choose the default, which in this case is typename = void? – Xeo Jul 1 '11 at 6:06
Why void_::type and default parameter in the first version of is_class (i.e. typename = void) needs to be same ? – iammilind Jul 1 '11 at 14:13
@iammilind: If int T::* is valid, the partial specialization will read is_class<T, void> and will be chosen thanks to the void default. That wouldn't happen if both were different. – Xeo Jul 2 '11 at 5:33

1. line 1 is used for something which is not a class, like int, long and so on ...

for example:

class foo {};

if (is_class<foo>::value) // is a class
    line_2 called
else  // if not
    line 1 called

because of there is a partial specialization so line 1 is what you have to have, otherwise you will get an error if you pass a type which is not a class (such as char *, long, int ...)

2: the key of int T::* is "::*", it is a standard operator in c++

means a pointer points to a member of a class, can be both a function or a data field, and in this case it means anyone who has a member or can work with a member pointer, this is only works for classes, structs, or unions in c++, so the result of that, you will know the parameter is or not a class.

btw, google some keywords like: c++ template, partial specialization, and type traits, or boost type traits

hope this is useful for you :)

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.