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Let's say I have the following code:

class Example
    ~Example() { }
    friend class Friend;

class Friend
    void Member();

void Friend::Member()
    std::printf("Example's destructor is %s.\n",
        IsDestructorPrivate<Example>::value ? "private" : "public");

Is it possible to implement the IsDestructorPrivate template above to determine whether a class's destructor is private or protected?

In the cases I'm working with, the only times I need to use this IsDestructorPrivate are within places that have access to such a private destructor, if it exists. It doesn't necessarily exist. It is permissible for IsDestructorPrivate to be a macro rather than a template (or be a macro that resolves to a template). C++11 is fine.

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why would you create private destructor? – user1935024 Aug 14 '14 at 20:50
AFAIK there is no way to check accessibility. And ideally you should not write code that depends on that. – Cheers and hth. - Alf Aug 14 '14 at 20:51
@mohaned for singleton-like behaviour maybe? – vsoftco Aug 14 '14 at 20:51
@mohaned here is a better answer: – vsoftco Aug 14 '14 at 20:53
@mohaned - why would you create private destructor? So that you can control how clients create/destroy instances of your class. – PaulMcKenzie Aug 14 '14 at 20:54

1 Answer 1

up vote 10 down vote accepted

You could use the std::is_destructible type trait like the example below:

#include <iostream>
#include <type_traits>

class Foo {
  ~Foo() {}

int main() {
  std::cout << std::boolalpha << std::is_destructible<Foo>::value << std::endl;


std::is_destructible<T>::value will be equal to false if the destructor of T is deleted or private and true otherwise.

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Damn. That doesn't exist in Visual Studio 2010 and plain doesn't work in Visual Studio 2013.… – Myria Aug 15 '14 at 1:33
Also, the Standard seems unclear on whether std::is_destructible is, in fact, supposed to even return false for private/protected destructors. – Myria Aug 15 '14 at 1:34
@Myria as you've already discovered Visual studio is buggy on using std::is_destructible type trait. IMHO though, I think the standard is clear that std::is_destructible<T>::value will return false if destructor is not accessible since it requires that expression std::declval<U&>().˜U() is well-formed when treated as an unevaluated operand, where in the case of ~U() is inaccessible is not. Alternatively, in visual studio you could use boost to overcome this misfeature. – 101010 Aug 15 '14 at 2:07
Before posting this, I checked the Git repository copy of the standard; that wording was unclear. I didn't see anything specifying ''in which context'' the well-formedness of the expression is checked. std::declval<U&>().~U() is well-formed in class U or friend scope. For example, – Myria Aug 15 '14 at 19:46
An expression is well defined if it doesn't make the program ill defined. To that end, if expression std::declval<U&>().~U() is evaluated in a context where destructor of U is accessible (e.g., a member function of U, a declared friend of U etc.) then it is well formed and is going to be evaluated to void. If it is evaluated in context where destructor of U is inaccessible expression is ill-formed because simply the program can't compile. Type-traits use SFINAE. That is, if std::is_destructible<T>::value is evaluated in a context where T's destructor's is inaccessible... – 101010 Aug 15 '14 at 23:51

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