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I realise this is ill-advised, and I'm not proposing to do it, but I'm curious as to whether the following is actually formally illegal:

#include <iostream>

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

int main()
    X *x = new X;
    //delete x;
    ::operator delete(x);
    return 0;

It's my understanding that delete x; is equivalent to invoking the destructor and then calling ::operator delete(x);, but is it legal for me to do that manually according to the standard? I know this is a valid thing to when using placement new, but what about in the non-placement case? My hunch is that it might be illegal because delete (and not operator delete) has to be performed for each new, but I'd be interested to know for sure.

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are you asking whether delete x; is equivalent to invoking destructor and then operator delete(x); for this particular code sample, or in general? –  Ben Voigt Dec 12 '10 at 22:56
@Ben: In this particular code sample -- but I'm also interested in the general case (for which I now assume the answer is no). –  Stuart Golodetz Dec 13 '10 at 9:50
Glad I asked this question -- there's actually a lot more to the answer than I was imagining. –  Stuart Golodetz Dec 13 '10 at 9:53

5 Answers 5

up vote 3 down vote accepted

I'm pretty sure that this is not standard compliant. Nowhere in the standard (that I'm aware of) does it say that the operand of delete p; is passed directly to the deallocation function, and for delete [] it almost certainly isn't passed through unchanged.

It will probably work on all practical implementations, however.

For certain, you shouldn't be calling the global deallocation function explicitly. It's fine in your example, which doesn't have user-defined allocation and deallocation functions, but not in the general case (actually, is there any syntax for calling the class-specific deallocation function if it exists, and the global one otherwise?).

Also, in the general case, the pointer passed to the deallocation function is definitely not the operand of delete. Consider:

struct A
  virtual ~A() {}

struct B1 : virtual A {};

struct B2 : virtual A {};

struct B3 : virtual A {};

struct D : virtual B1, virtual B2, virtual B3 {};

struct E : virtual B1, virtual D {};

int main( void )
  B3* p = new D();
  p->~B3(); // should be ok, calling virtually
  operator delete(p); // definitely NOT OK

  return 0;
share|improve this answer
+1, I think I'm definitely in agreement on the "shouldn't" aspect of it all :) The guys in comp.lang.c++ also mentioned that user-defined operator new and operator delete would cause problems, so it seems like a dumb thing to do even if it were legal. As to the syntax question -- I know you can call T::operator delete to get T's class-specific one provided it exists. There may well be some template metaprogramming one can do to make sure the global one is called otherwise, but I'm not an expert on that. It's probably an SFINAE thing of some sort if it is possible I'd guess. –  Stuart Golodetz Dec 12 '10 at 21:26
"I'm pretty sure that this is not standard compliant." Do you mean that the specific code in the question is not guaranteed to work? Do you mean that new X may not call operator new (sizeof (X))? –  curiousguy Nov 1 '11 at 1:44
@curiousguy; I mean that new X is allowed to have other side effects besides calling the allocation function and the constructor, which require a later matching delete expression. –  Ben Voigt Nov 1 '11 at 3:22
"allowed to have other side effects" like what? allowed where? "which require a later matching delete expression" I am not sure what this could mean. Leaking memory? –  curiousguy Nov 1 '11 at 4:56
@curiousguy: section 5.3.5: "The elete-expression operator destroys a most derived object (1.8) or array created by a new-expression." And then goes on to say that delete on a non-null pointer acquired any other way is undefined behavior. Obviously you can just call new and never call delete (for a small number of objects intended to live until the process terminates). The question is whether it's legal to call an operator delete() deallocation function on a pointer you didn't get by calling operator new() directly –  Ben Voigt Nov 1 '11 at 13:39

If you are going this way, you should replace

X *x = new X;


X* x = static_cast<X*>(::operator new(sizeof(X)));

try { new(x) X; }
catch (...) { ::operator delete(x); throw; }

which should be (please correct me if I'm wrong) consistant with your destruction approach, and pretty much equivalent in functionality to new.

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Thanks - that's using placement new though (I know that's valid). I was more curious as to whether it was illegal to mix and match the two. –  Stuart Golodetz Feb 11 '11 at 23:40
I am pretty sure this is exactly what new does - unless there is some new overloading going on. –  curiousguy Nov 1 '11 at 1:45

I believe that you don't invoke undefined behaviour if you call the destructor and free the memory.

share|improve this answer
Thanks -- it's not the definitive answer I was looking for, but I appreciate the opinion. I've asked this on comp.lang.c++ in case anyone can enlighten me with chapter & verse from the standard. –  Stuart Golodetz Dec 12 '10 at 20:01
Call the destructor and free the memory, yes. But you have to free the right memory by calling the right deallocation function and passing the right pointer. Which is a LOT more complicated in the general case, than the code in this question suggests. –  Ben Voigt Dec 12 '10 at 22:51


Answer, and reply to a comment

There may well be some template metaprogramming one can do to make sure the global one is called otherwise, but I'm not an expert on that. It's probably an SFINAE thing of some sort if it is possible I'd guess.

struct B {
    virtual ~B();

struct D : B {
    operator new (size_t);
    operator delete (void*);

B *p = new D;

decltype(typeid(*p))::operator delete (...); // hypothetical C++++

Meta this!

share|improve this answer
This uses the static type of *p, which is B, right? And thus calls the wrong deallocator? In fact it shouldn't even compile, because B has no member operator delete. –  Ben Voigt Nov 1 '11 at 5:39
@BenVoigt Hum, you took it literally? *p:: that's not even C++! –  curiousguy Nov 1 '11 at 6:42
I suppose not, but decltype(*p):: is. –  Ben Voigt Nov 1 '11 at 13:28
@BenVoigt 1) T::operator delete would probably not be well-formed for a type T without an operator delete. 2) The "regular expression" (T::|::)operator delete will perhaps not compile either. 3) decltype(*p) is B, I don't want to call either the non-existent B::operator delete or ::operator delete, but D::operator delete. 4) Do you think decltype(typeid(*p))::operator delete would work? –  curiousguy Nov 1 '11 at 13:40
@BenVoigt See updated answer. –  curiousguy Nov 1 '11 at 13:45

I thought that

::operator delete(x);

is the same as

delete x;

if the delete method is not overridden by X?

share|improve this answer
It's not. The delete operator calls the destructor, if the pointer is not null, and then calls the deallocation function, if the pointer is not null and maybe even if it is. The parameter passed to the deallocation function is not specified in the standard. –  Ben Voigt Dec 12 '10 at 20:46

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