Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I saw the code snippet as follows:

class UPNumber {
  UPNumber(int initValue);

  // pseudo-destructor (a const member function, because
  // even const objects may be destroyed)
  void destroy() const { delete this; } // why this line is correct???



First, I am sure that above class definition is correct. Here is my question, why we can define the function 'destroy' as above? The reason being asking is that why we can modify 'this' in a const-member function?

share|improve this question
up vote 4 down vote accepted

The const qualifier applied to a method have the effect of making the this passed to it a const pointer; in particular, in your case it will be a const UPNumber *.

Still, this is not a problem for delete: actually you can use delete on a const pointer without having to cast anything, as specified at §5.3.5 ¶2:

[Note: a pointer to a const type can be the operand of a delete-expression; it is not necessary to cast away the constness (5.2.11) of the pointer expression before it is used as the operand of the delete-expression. ]

Notice that, before the standard was completed, there have been many discussion about whether this was or wasn't a good idea, so some pre-standard compilers will issue an error when trying to delete const pointers.

The idea behind allowing this behavior is that otherwise you would have no way to delete const objects without using a const_cast; see this question for more info.

share|improve this answer

That works for the same reason that this work:

const int* upn = new int();
delete upn;

You can delete a pointer to a const-qualified object. The const-qualification on the member function just means that this has a type const UPNumber*.

share|improve this answer
@James, here, we cannot call "delete upn" b/c the destructor is private. -- thx – q0987 Feb 28 '11 at 23:34
@q0987: Class members have access to private members. The function destroy requires access to the destructor, because of the delete this expression, and has access because it's a member of the class. – GManNickG Feb 28 '11 at 23:51
@GMan: I think the OP was complaining about my example, which at first used his UPNumber class instead of int. – James McNellis Feb 28 '11 at 23:54
@James, thank you for correction:) – q0987 Feb 28 '11 at 23:54
@James: Oh, got it. – GManNickG Mar 1 '11 at 0:07

Where did you get the idea that we are modifying this? In fact, this is not an lvalue. It It cannot ever be modified, regardless of whether the member function is const or not.

Applying delete-expression to a pointer (any pointer, not just this) is not in any way considered a modification of that pointer. Moreover, the argument of delete-expression is treated as rvalue, meaning that it cannot possibly be modified by delete.

So, there are no problems with that application of delete in your code.

share|improve this answer
if I understood your point right, the const-member function ONLY promises NOT change the values pointed by this. --thx – q0987 Feb 28 '11 at 23:42
I think this is more than needs to be said about the fact that the questioner has mistakenly written "why we can modify 'this' in a const-member function?", despite meaning something more like, "why can we modify the object through this". The unspoken assumption being that deleting an object is a form of modification (and really it is, since the destructor is free to modify members on its way out). – Steve Jessop Feb 28 '11 at 23:55

As it is technically possible and defined to call delete this provided that you are careful, the constness of the "suicide" method is technically pointless, since the object must not be touched after the call.

That's why it is semantically incorrect to have a const method calling delete this.

An interesting point brought Steve Jessep's comment. Running the destructor doesn't keep an object unchanged, so applying the concept of constness is questionable.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.