If I do

struct A{};
struct C:private A{};

typedef char (&yes)[1];
typedef char (&no)[2];

template <typename B, typename D>
struct Host
 operator B*() const;
 operator D*();

template <typename B, typename D>
struct is_base_of
template <typename T> 
static yes check(D*, T);
static no check(B*, int);

static const bool value = sizeof(check(Host<B,D>(), int())) == sizeof(yes);

int main(){

I get a 1. I would like to get a 0 when C is a private A, and a 1 when C is a public A.

[the code is derived from How does `is_base_of` work? ]

  • A little off-topic, but can you really offer a bounty of X if your reputation is less than X? – Eitan T May 22 '12 at 10:56
  • I deleted my answer that says basically, "you cant" with templates, and an alternative to templates that could do it. – Ira Baxter May 22 '12 at 17:43

Do you have access to a compiler with C++11 support?

If so, you can combine Chad's use of static_cast with decltype to create a very simple type trait implementation (as demonstrated in this question). As per Jonathan Wakely's suggestion, the references have been replaced with pointers to avoid false positives when D defines an operator B&().

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

template<typename B, typename D, typename Sfinae = void>
struct is_base_of: std::false_type {};

template<typename B, typename D>
struct is_base_of<B, D,
    typename AnyReturn< decltype( static_cast<B*>( std::declval<D*>() ) ) >::type
>: std::true_type {};

When using gcc 4.7:

struct Base {};
struct PublicDerived  : public  Base {};
struct PrivateDerived : private Base {};

int main()
    std::cout << is_base_of<Base, PublicDerived >::value << std::endl; // prints 1
    std::cout << is_base_of<Base, PrivateDerived>::value << std::endl; // prints 0
    return 0;
  • 1
    Good answer, but is_base_of<A,B> gives the wrong result if B has operator A&() i.e. conversion to A. That can be solved by changing it to convert pointers instead i.e. static_cast<B*>( std::declval<D*>() ) – Jonathan Wakely May 21 '12 at 20:35
  • This works with gcc 4.6.3 as well, but gcc 4.5.1 fails to compile for PrivateDerived: error: 'Base' is an inaccessible base of 'PrivateDerived'. I've had zero luck trying to get this (or any variant of this) to work in VS 2010. It appears that it cannot handle the combination of decltype and static_cast in templates, potentially producing the wrong result or even crashing the compiler. I won't be able to check VS 2011 as it doesn't support XP. – Michael Pierce May 22 '12 at 17:29
  • Assuming the behavior in this answer is based on DR339, this is supported in GCC 4.4 and later, as well as Clang 2.9 and later, but not in VC10 or VC11. However, it is not required that access checking is part of the substitution process, which is why it fails when using GCC 4.5.1. – Michael Pierce May 22 '12 at 18:45

Do you need something that can be evaluated at runtime, or will a simple compile time error suffice?

struct A {};
struct B : private A {};

int main()
   B b;

   // gives error C2243: 'static_cast' : conversion from 'B *' to 'A &' exists, but is inaccessible
   A& a = static_cast<A&>(b);

   return 0;
  • 1
    thank you,but I need it the value at compile time, not an error, in order to set a template. Imagine template <class C,bool b=is_base_of<A,C>::value> struct x{}; – Fabio Dalla Libera Mar 27 '12 at 19:14

In order to apply the compile-time overload resolution trick to detect access specifiers, you would at least need that access specifiers are considered at the time overload resolution is done. This is not the case with C++03, so it cannot be done. I believe C++11 changes this so with some artificial conversions and SFINAE you would be able to implement it.

Update: I'm going over n3242 Overload Resolution section, and I cannot find anything that would indicate that access specifiers are considered for overload resultion at C++11.

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