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In the code that follows, the object sub in class C is constructed twice. The first construction calls the default ctor Sub() and the second construction uses placement new to reconstruct this object in the same address.

Therefore the destructors are also called twice. The first call uses the direct call to the Sub dtor in ~C() and the second call is invoked after the end of main(), I believe, by the atexit() function.

Given that the object sub is reconstructed at the same address, how does the compiler knows that the second destructor must be called after main() ? Where does he keep this information ?

#include <iostream>
using namespace std;

struct Table
    int i;
    Table(int j) : i(j) {}

struct Sub
    Table* pTable;
    Sub(int j) { cout << "ctor placement new" << endl; pTable = new Table(j); }
    Sub() { cout << "ctor default" << endl; pTable = 0; }
    ~Sub() { if( pTable ) cout << "dtor placement new" << endl;
             else         cout << "dtor default" << endl;
             delete pTable; pTable = 0; }

class C
    Sub sub;

    C() { new (&sub) Sub(10); }
    ~C() { (&sub)->~Sub(); }

int main()
    C c;
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3 Answers 3

up vote 1 down vote accepted

Although this is clearly undefined behavior, if you reason out what's happening, it's pretty obvious.

You create an object of class C. In that process, the default constructor of Sub is called implicitly. pTable is 0. Then, you explicitly call the int constructor, which initializes pTable. Then, in the destructor, you explicitly call Sub's destructor. pTable is set to 0 again. Then, at the end of C's destructor, Sub's destructor is called again, implicitly.

It's not at the end of main that it's happening. It's happening at the end of C's destructor.

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Where is the undefined behavior ? –  Belloc Jan 17 '12 at 18:33
@user1042389: The undefined behavior is in calling a destructor(implicitly in this case) on an already destucted(i.e. no longer valid) object. –  Benjamin Lindley Jan 17 '12 at 18:34
There is no undefined behavior here, since the second call to the constructor was made with a placement new. In fact, you are required to call the destructor explicitly in those cases. –  Belloc Jan 17 '12 at 18:38
@user1042389: The undefined behavior is not in your call to Sub's destructor. It was in the implicit call to Sub's destructor at the end of C's destructor. So, technically, the compiler caused it. But you forced its hand, since it is required to call the destructor on all sub-objects. –  Benjamin Lindley Jan 17 '12 at 18:41
C++2003, §12.4 [class.dtor], ¶14: "Once a destructor is invoked for an object, the object no longer exists; the behavior is undefined if the destructor is invoked for an object whose lifetime has ended (3.8). [Example: if the destructor for an automatic object is explicitly invoked, and the block is subsequently left in a manner that would ordinarily invoke implicit destruction of the object, the behavior is undefined. ]" –  Robᵩ Jan 17 '12 at 18:53

Your assumption about atexit() is incorrect. The destructor for sub is called by the destructor for C when the object c goes out of scope in main().

A C++ destructor always calls destructors for all its sub-objects.

Your code is invalid anyway, because you're calling the placement new operator on a chunk of memory (sub) that has already been constructed into an object. Similarly to the destructor, a C++ constructor always calls constructors for all its sub-objects.

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Why the call for the placement new is invalid ? Where does it say that an object cannot be constructed twice at the same address ? –  Belloc Jan 17 '12 at 18:21
Perhaps you're unaware of the correct syntax for calling a sub-object constructor with parameters: C(): sub(10) { } will call the Sub::Sub(int) constructor when C is constructed. –  Greg Hewgill Jan 17 '12 at 18:29
Note that no Table is created in the first constructor call. So there is no memory leak. –  Belloc Jan 17 '12 at 18:30
Okay, the main reason this is invalid is that the C::~C() destructor calls the Sub::~Sub() destructor on memory that has already been destructed. Maybe it doesn't cause a problem for your compiler, but consider a more complex case such as with virtual methods or even virtual inheritance. –  Greg Hewgill Jan 17 '12 at 19:13
"Where does it say that an object cannot be constructed twice at the same address ?" -- you need to be told that this is a bad idea? (at least, constructing it twice without an intervening destruction) –  araqnid Jan 17 '12 at 19:24

When c goes out of scope, its destructor is called. The C destructor will explicitly call the sub destructor. When the C destructor is done, the sub destructor will also be called (again), because all C++ destructors automatically call the destructors of all their internal objects.

Essentially, the code


is unnecessary, and incorrect. You should never explicitly call the destructor of a managed object.

Edit: It's valid to explicitly call the destructor on an object that was constructed via placement new. However this is only the case when the object is not managed. For example:

class C
    Sub sub[1];

    C() { new (sub) Sub(10); }
    ~C() { sub->~Sub(); }

This is not only valid, but necessary because the member of C is of type Sub[1] (or more generally Sub*), so Sub's destructor will not be called explicitly when C is destroyed.

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Since the object sub was reconstructed with a call to a placement new expression, the explicit destructor call is valid. –  Belloc Jan 17 '12 at 18:24
The object sub will still be destructed automatically when c goes out of scope –  CNeo Jan 17 '12 at 21:59
@user1042389 see my update –  CNeo Jan 18 '12 at 13:05

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