Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

Consider the following:

struct A {
  typedef int foo;

struct B {};

template<class T, bool has_foo = /* ??? */>
struct C {};

I want to specialize C so that C<A> gets one specialization and C<B> gets the other, based on the presence or absence of typename T::foo. Is this possible using type traits or some other template magic?

The problem is that everything I've tried produces a compile error when instantiating C<B> because B::foo doesn't exist. But that's what I want to test!

Edit: I think ildjarn's answer is better, but I finally came up with the following C++11 solution. Man is it hacky, but at least it's short. :)

template<class T>
constexpr typename T::foo* has_foo(T*) {
  return (typename T::foo*) 1;
constexpr bool has_foo(...) {
  return false;
template<class T, bool has_foo = (bool) has_foo((T*)0)>
share|improve this question
You should have said you were interested in a C++11 solution. :-] Yours is okay, but the has_foo(T*) overload could be improved by returning bool and using expression SFINAE, so no cast is necessary at the callsite. – ildjarn Apr 27 '12 at 17:55
(T*)0) should be declval<T*>(), probably – Lol4t0 Jun 8 '13 at 20:26
up vote 6 down vote accepted

Another (C++03) approach:

template<typename T>
struct has_foo
    typedef char no;
    struct yes { no m[2]; };

    static T* make();
    template<typename U>
    static yes check(U*, typename U::foo* = 0);
    static no check(...);

    static bool const value = sizeof(check(make())) == sizeof(yes);

struct A
    typedef int foo;

struct B { };

template<typename T, bool HasFooB = has_foo<T>::value>
struct C
    // T has foo

template<typename T>
struct C<T, false>
    // T has no foo
share|improve this answer

Something like this might help: has_member.

typedef char (&no_tag)[1]; 
typedef char (&yes_tag)[2];

template< typename T > no_tag has_member_foo_helper(...);

template< typename T > yes_tag has_member_foo_helper(int, void (T::*)() = &T::foo);

template< typename T > struct has_member_foo {
        , value = sizeof(has_member_foo_helper<T>(0)) == sizeof(yes_tag)
        ); }; 

template<class T, bool has_foo = has_member_foo<T>::value> 
struct C {};
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.