29

This one made me think:

class X;

void foo(X* p)
{
    delete p;
}

How can we possibly delete p if we do not even know whether X has visible destructor? g++ 4.5.1 gives three warnings:

warning: possible problem detected in invocation of delete operator:
warning: 'p' has incomplete type
warning: forward declaration of 'struct X'

And then it says:

note: neither the destructor nor the class-specific operator delete will be called, even if they are declared when the class is defined.

Wow... are compilers required to diagnose this situation like g++ does? Or is it undefined behavior?

3

3 Answers 3

22

From the standard [expr.delete]:

If the object being deleted has incomplete class type at the point of deletion and the complete class has a non-trivial destructor or a deallocation function, the behavior is undefined.

So, it's UB if there's nontrivial stuff to do, and it's ok if there isn't. Warnings aren't neccessary for UB.

15
  • 3
    No, it's not "UB if", it's unconditional UB. For example that class could have operator new overloaded on a separate heap and delete statement will now call wrong operator delete.
    – sharptooth
    Dec 1, 2010 at 14:17
  • 6
    I stroked out the ambiguous part. As far as I can see, the standard doesn't say that delete-ing objects of incomplete type is UB in every case, just as mentioned in the section that I quoted. Why do you think that it is UB unconditionally? (Where does the standard say this?)
    – etarion
    Dec 1, 2010 at 14:23
  • 1
    @etarion: The standard says that behavior will depend on how that class is declared which means that you can start with a class satisfying those requirements and then change it to not satisfy those requirements and now you face UB (which can be "it works" by the way). So although formally you're clean you've planted a fatal error into your code. The warning in question should be addressed - deleteing incomplete classes is a very bad idea.
    – sharptooth
    Dec 1, 2010 at 14:33
  • 1
    So it IS actually conditional UB, and not unconditional as you claimed. (I'm not arguing if it's good practice or not. The question in the OP was if a diagnosis is required - no - and if it's UB - that depends.)
    – etarion
    Dec 1, 2010 at 14:34
  • 1
    I will +1 this answer if you un-cross-out the "nontrivial" bit. It's exactly right - you can delete "something" of incomplete type provided that whoever eventually completes that type ensures it has trivial destruction and deallocation. Hopefully this will be documented somewhere, or perhaps that "whoever" is you. It's no more "unconditional UB" that it is "unconditional UB" to pass a null pointer into a forward-declared function. After all, the function could dereference it. But if the docs say it doesn't, you're fine. Or at least, it's someone else's fault if it does... Dec 1, 2010 at 16:00
7

It is undefined behavior.

However, you can make the compiler check for incomplete types, like boost:

// verify that types are complete for increased safety

template<class T> inline void checked_delete(T * x)
{
    // intentionally complex - simplification causes regressions
    typedef char type_must_be_complete[ sizeof(T)? 1: -1 ];
    (void) sizeof(type_must_be_complete);
    delete x;
}

Applying sizeof to an incomplete type should trigger an error, and I suppose if that passes with some compiler, then an array of negative size would trigger an error.

4

It is undefined behaviour, and a common gotcha when implementing the pImpl pattern. To the best of my knowledge, there is simply no such thing as a warning that the compiler is required to emit. Warnings are elective; they're there because the compiler writer thought they would be useful.

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