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In this question of mine, @DeadMG says that reinitializing a class through the this pointer is undefined behaviour. Is there any mentioning thereof in the standard somewhere?


#include <iostream>

class X{
  int _i;
  X() : _i(0) { std::cout << "X()\n"; }
  X(int i) : _i(i) { std::cout << "X(int)\n"; }

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

  void foo(){
    new (this) X(5);

  void print_i(){
    std::cout << _i << "\n";

int main(){
  X x;
  // mock random stack noise
  int noise[20];

Example output at Ideone (I know that UB can also be "seemingly correct behaviour").
Note that I did not call the destructor outside of the class, as to not access an object whose lifetime has ended. Also note, that @DeadMG says that directly calling the destructor is okay as-long-as it's called once for every constructor.

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This structure (calling the destructor then a constructor with placement new) was a somewhat popular way to implement the assignment operator until it was found exception unsafe. I don't remember anybody said it was UB in absence of exception. There are probably cases with virtual functions and multiple inheritance that are UB. –  AProgrammer Jun 3 '11 at 7:23
If it's UB it would only be because of the use of this. If this is the case you could still get around it by taking a copy of this before calling the destructor. –  Luc Danton Jun 3 '11 at 7:31
+1 AProgrammer. As a matter of fact, the C++0x standard (FDIS) contains an example of manual destruction + placement construction, so it is probably not that bad. It is in §9.5/4 as the way to change the active member of an union when some of the members have non-trivial constructors/destructors: u.m.~M(); new (&u.n) N; now, the examples does not do it from inside a method, but I don't know whether this makes any difference. –  David Rodríguez - dribeas Jun 3 '11 at 7:33
@curiousguy A pointer to the storage would remain valid. I was speculating as to whether there were rules on the use of this as a keyword, not on its particular value. That is to say, I was considering whether before I could access the value (which is obviously correct due to other requirements), would the use of this be allowed at all? –  Luc Danton Sep 30 '11 at 1:17
@LucDanton this is just a keyword used to get the value of the implicit parameter of non-static member functions. Even in programs where this->~T();, delete this;, or new (this) T; are never used, this can refer to an object that is not yet fully constructed, in some case such as no sub-object construction has even began. –  curiousguy Sep 30 '11 at 2:13

2 Answers 2

up vote 8 down vote accepted

That would be okay if it didn't conflict with stack unwinding.

You destroy the object, then reconstruct it via the pointer. That's what you would do if you needed to construct and destroy an array of objects that don't have a default constructor.

The problem is this is exception unsafe. What if calling the constructor throws an exception and stack is unwound and the destructor is called for the second time?

   X x;
   x.foo(); // here ~X succeeds, then construction fails
} //then the destructor is invoked for the second time.

That aspect specifically would be undefined behavior.

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Ahh, good point about the exception safety. Can you think of any way to make that exception safe? –  Xeo Jun 3 '11 at 7:30
What would make the member function special for this? (Nobody pretend for instance that delete this is an UB.) –  AProgrammer Jun 3 '11 at 7:32
@Xeo Wrap the constructor call in a try ... catch block and handle the exception in a way that doesn't invoke UB. std::abort comes to mind here. Or, since this is a member, invoke a private nothrow constructor that puts the object in an unusable but destroyable state and then (re)throw. The user won't be able to see the object in that state and stack unwinding will work. But please don't consider this last solution as a practical thing to do (most of the time). –  Luc Danton Jun 3 '11 at 7:33
@Xeo: I don't think it can be made exception safe in the general case. The problem being that before you construct, you must have destructed, and if the constructor fails, the state is not the original state any more. In a class with a nothrow move constructor you can avoid the problem altogether: construct a local variable, once constructed move it to *this. In that case it will be exception safe (assuming that the destructor is also nothrow). –  David Rodríguez - dribeas Jun 3 '11 at 7:37
Ah, and BTW, if you implement a move constructor, you better make it nothrow. Doing otherwise is a recipe for disaster. I.e. you would have problems with some STL containers: vector will move object from one location to another during the buffer growth, if one of the move operations throw, the vector will be left in an inconsistent state with some of the objects in the original vector invalidated and some correct... I have not looked at the details of unordered_map, but my guess is that a similar problem would arise. –  David Rodríguez - dribeas Jun 3 '11 at 8:19

Apart from @sharptooth's answer. I am just wondering for 2 more cases. At least they are worth mentioning.

(1) If the foo() was invoked using a pointer on heap which was allocated using malloc(). The constructor is not called. Can it be safe ?

(2) What if the derived class is calling foo(). Will it be a good behavior ? e.g.

struct Y : X {};  // especially when there is virtual ~X()
int main ()
  Y y;
share|improve this answer
(1) assuming you mean a pointer to memory allocated using malloc, then it's UB to call a function member on it unless placement new was used to create an object. Then it's the responsability of the user to explicitly call the destructor before freeing the memory. –  Luc Danton Jun 3 '11 at 8:10
(2) since the destructor of X is not virtual, this->~X() correctly destroys the X subobject of Y, which is then recreated. If the destructor were virtual, foo could use this->X::X() to do the same thing. –  Luc Danton Jun 3 '11 at 8:12
(2) At the end of the function (main), y.~Y() will be called. After calling y.foo(), the memory at y contains an X; calling y.~Y() is undefined behavior. (@Luc Danton You cannot "reconstruct" the base class of a derived class without the derived class ceasing to exist as such.) –  James Kanze Jun 3 '11 at 10:34
@JamesKanze Thanks for the clarification; AProgrammer showed how this could go wrong indeed. –  Luc Danton Jun 3 '11 at 10:38
Both of the cases in the answer above result in UB. In general, the idiom is to be avoided, because there are so many different ways it can end up causing UB. –  James Kanze Jun 3 '11 at 10:52

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