#include <iostream>

struct A { ~A(); };
A::~A() {
    std::cout << "Destructor was called!" << std::endl;

typedef A AB;
int main() {
    AB x;
    x.AB::~AB(); // Why does this work?

The output of the above program is:

Destructor was called!
Destructor was called!
Destructor was called!

I assume the first two lines belonging to user destructor calls, while the third line is due to the destructor being called when exiting the scope of main function.

From my understanding a typedef is an alias for a type. In this case AB is an alias for A.

Why does this apply for the name of the destructor too? A reference to the language specification is very much appreciated.

Edit: This was compiled using Apple LLVM version 9.1.0 (clang-902.0.39.1) on macOS High Sierra Version 10.13.3.

  • 1
    That code is remarkably similar to an example in §3.4.3 in C++11.
    – molbdnilo
    Sep 10, 2018 at 11:45
  • Note that the destructor doesn't formally have a name (and neither do constructors).
    – molbdnilo
    Sep 10, 2018 at 11:54
  • @molbdnilo I wrote this example some time ago. When I remember correctly, it was inspired from an entry on cppreference, so I guess they in turn took the example from the language standard. Sep 10, 2018 at 12:45
  • 1
    Btw, you invoke UB by destroying several times the same object.
    – Jarod42
    Sep 10, 2018 at 13:36

2 Answers 2


Why does this apply for the name of the destructor too?

Because standard says:


In an explicit destructor call, the destructor is specified by a ~ followed by a type-name or decltype-specifier that denotes the destructor’s class type. ...

A typedef alias is a type-name which denotes the same class as the type-name of the class itself.

The rule even has a clarifying example:

struct B {
  virtual ~B() { }
struct D : B {
  ~D() { }

D D_object;
typedef B B_alias;
B* B_ptr = &D_object;

void f() {
  D_object.B::~B();             // calls B's destructor
  B_ptr->~B();                  // calls D's destructor
  B_ptr->~B_alias();            // calls D's destructor
  B_ptr->B_alias::~B();         // calls B's destructor
  B_ptr->B_alias::~B_alias();   // calls B's destructor

Further specification about the name lookup, also with an example that applies to the question:


If a pseudo-destructor-name ([expr.pseudo]) contains a nested-name-specifier, the type-names are looked up as types in the scope designated by the nested-name-specifier. 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. [ Example:

struct C {
  typedef int I;
typedef int I1, I2;
extern int* p;
extern int* q;
p->C::I::~I();      // I is looked up in the scope of C
q->I1::~I2();       // I2 is looked up in the scope of the postfix-expression

struct A {
typedef A AB;
int main() {
  AB* p;
  p->AB::~AB();     // explicitly calls the destructor for A

— end example  ]

  • 1
    ... and the name is looked up in the global scope instead of the scope of A per [basic.lookup.qual]/6.
    – xskxzr
    Sep 10, 2018 at 11:52

Because when you write ~AB() you are not naming or calling the destructor. You are writing ~ followed by the a name of the class, and the destructor call is automatically provisioned as a result of the specified semantics of writing those tokens next to each other.

Usually this is academic but here you see why it can matter.

Similarly, by writing AB() you are not "calling a constructor", even though this looks like a function call and many language newcomers interpret the code this way. (This can lead to fun and games when attempting to call a template constructor without argument deduction: without being able to name the constructor, there's no way to provide those arguments!)

In fact, neither the constructor nor the destructor technically even have a name!

These nuances make C++ fun, right?

  • (More "fun" answer to complement the thick standardese that was actually requested) Sep 10, 2018 at 12:23
  • By that metric, C++ has order-of-magntiudes more fun-per-bit than any other popular computer language.
    – Eljay
    Sep 10, 2018 at 12:34
  • 2
    @Eljay And that's why we love it ^_^ Sep 10, 2018 at 13:15
  • I think this is not just more "fun" but also a very useful and informative answer.
    – molbdnilo
    Sep 10, 2018 at 13:21
  • @molbdnilo Well, I don't like to brag ;) (yes I do) Sep 10, 2018 at 13:25

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