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Suppose a class contains a type defined by a nested using whose destructor needs to be explicitly invoked. Is it necessary to use using to create a local type that doesn't include the namespace separator (::)?

In this contrived example, I want to call A::WeakPtr's destructor, like:

wp->~A::WeakPtr();

instead of like:

using AWeakPtr = A::WeakPtr;
wp->~AWeakPtr()

Is this doable? Here's a complete example.

#include <cstdlib>
#include <iostream>
#include <memory>

struct A : std::enable_shared_from_this<A> {
  using SharedPtr = std::shared_ptr<A>;
  using WeakPtr = std::weak_ptr<A>;

  A()  { std::cout << __PRETTY_FUNCTION__ << "\n"; }
  ~A() { std::cout << __PRETTY_FUNCTION__ << "\n"; }
};

int
main() {
  {
    std::unique_ptr<A::WeakPtr, void(*)(void*)>
        uwp(static_cast<A::WeakPtr*>(std::malloc(sizeof(A::WeakPtr))), std::free);
    A::WeakPtr* wp = uwp.get();

    {
      auto sp = std::make_shared<A>();
      new(wp) A::WeakPtr(sp);

      if (wp->lock())
        std::cout << "Locked\n";
      else
        std::cout << "Unlocked\n";
    }

    if (wp->lock())
      std::cerr << "EUNPOSSIBLE\n";
    else
      std::cout << "Unable to obtain lock\n";

    // Need the following 'using' statement because the following is invalid syntax:
    // wp->~A::WeakPtr();
    using AWeakPtr = A::WeakPtr;
    wp->~AWeakPtr();
    // Is there a way to call A::WeakPtr without the using statement?
  }
  std::cout << "memory held by uwp has been free(3)'ed\n";
}

It seems like there should be a way to defeat the :: namespace separator with a typename scattered in there somewhere, but it doesn't look like it's possible. Obviously it's not the end of the world if it's not possible, but my curio is getting the better of me.


UPDATE

As suggested by @DanielFrey and @DyP's fantastic answer, the correct syntax is indeed

wp->A::WeakPtr::~WeakPtr();

but this doesn't work and is a bug (#12350) in clang++ (as of 2013-09-28).

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1  
A helper function is also possible: template<class T> void destroy(T& t) { t.~T(); } –  dyp Sep 27 '13 at 22:17
    
nice question :) –  DarioOO Sep 28 '13 at 9:31

2 Answers 2

up vote 3 down vote accepted

The destructor call using a qualified-id here must consist of:

postfix-expression -> nested-name-specifier ~ class-name ()

The postfix-expression here is wp, and the part after -> forms a single qualified-id (w/o the parens).

Grammatically, the following is also possible:

postfix-expression -> nested-name-specifier ~ decltype-specifier ()

However, this second form is forbidden explicitly in [expr.prim.general]/9:

The form ~ decltype-specifier also denotes the destructor, but it shall not be used as the unqualified-id in a qualified-id.

The class-name in the first form can also be a typedef-name [class.name]/5:

A typedef-name (7.1.3) that names a class type, or a cv-qualified version thereof, is also a class-name.

For the lookup of this class-name after the ~, there's a special name lookup rule in [basic.lookup.qual]/5:

Similarly, in a qualified-id of the form:
     nested-name-specifieropt class-name :: ~ class-name
the second class-name is looked up in the same scope as the first.

This means that the second WeakPtr in A::WeakPtr :: ~WeakPtr should be found. It is a typedef-name naming a class, therefore a class-name, and it's looked up in the scope of A. gcc follows this rule, clang++3.4 does not.

Therefore, wp->A::WeakPtr :: ~WeakPtr(); as suggested by Daniel Frey (and my first, deleted comment/guess) should work.


Alternative approaches:

  1. Using a helper function:

    template<class T>
    void destroy(T& t)
    { t.~T(); }
    
  2. Using a decltype-specifier w/o a qualified-id. This one is tricky, as the type of decltype(*wp) is A::WeakPtr&, as *wp yields an lvalue. However, we can convert the the expression to a prvalue to get rid of the reference:

    wp->~decltype((A::WeakPtr)*wp)();
    // alternatively, w/o explicitly mentioning the type:
    wp->~decltype((std::remove_pointer<decltype(wp)>::type)*wp)();
    // simpler, using a helper function again:
    template<class T>  T helper(T const&);
    wp->~decltype(helper(*wp))();
    

Production:

Begin with the function call [expr.post]/1:

postfix-expression ( expression-listopt )

Where the postfix-expression here is produced via:

postfix-expression -> templateopt id-expression

This postfix-expression here maps to wp (in wp->~something()).

The id-expression contains the destructor "name" [expr.prim.general]:

id-expression:
     unqualified-id
     qualified-id

We do need a qualified-id here, so [expr.prim.general]/8:

qualified-id:
     nested-name-specifier templateopt unqualified-id
     :: identifier
     :: operator-function-id
     :: literal-operator-id
     :: template-id

Only the first one is of interest, so we look at unqualified-id s:

unqualified-id:
     identifier
     operator-function-id
     conversion-function-id
     literal-operator-id
     ~ class-name
     ~ decltype-specifier
     template-id

Where the two with a ~ can be used to call a destructor.

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1  
Could be related to this bug. –  dyp Sep 27 '13 at 22:55
    
Ah! @DyP, it is indeed that same bug. Thank you! –  Sean Sep 28 '13 at 20:19

Are you looking for

wp->A::WeakPtr::~WeakPtr();

?

share|improve this answer
    
@DyP It works here. –  Daniel Frey Sep 27 '13 at 22:37
    
Oops, sorry, there's a special name lookup rule. Now I don't know what to think about it :/ –  dyp Sep 27 '13 at 22:44
    
@DyP First of all +1 for your answer for trying to verify what is and is not standard conforming. I'm currently way too tired to check the standard, I'm going to suspend mode now ;) Also, if OP needs a work-around the helper function you suggested looks good to me as it simply avoids the problem Clang seems to have. –  Daniel Frey Sep 27 '13 at 22:59
    
@DanielFrey I tried that, but it didn't work. error: expected the class name after '~' to name a destructor. As @DyP pointed out, this is a bug in the frontend of clang. Apple LLVM version 5.0 (clang-500.2.75) (based on LLVM 3.3svn) Target: x86_64-apple-darwin12.5.0 Thread model: posix –  Sean Sep 28 '13 at 20:17
    
@Sean What compiler (+version) are you using? I tested it with GCC 4.8 and it works and I think it is standard conforming. DyP also came to the same conclusion, but he also found out Clang has a problem which requires a work-around (and he provided several work-arounds). (Just say your edited comment, so yeah, Clang needs a work-around :) –  Daniel Frey Sep 28 '13 at 20:21

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