Weird use of `?:` in `typeid` code

Question

In one of the projects I'm working on, I'm seeing this code

struct Base {
  virtual ~Base() { }
};

struct ClassX {
  bool isHoldingDerivedObj() const {
    return typeid(1 ? *m_basePtr : *m_basePtr) == typeid(Derived);
  }
  Base *m_basePtr;
};

I have never seen typeid used like that. Why does it do that weird dance with ?:, instead of just doing typeid(*m_basePtr)? Could there be any reason? Base is a polymorphic class (with a virtual destructor).

EDIT: At another place of this code, I'm seeing this and it appears to be equivalently "superfluous"

template<typename T> T &nonnull(T &t) { return t; }

struct ClassY {
  bool isHoldingDerivedObj() const {
    return typeid(nonnull(*m_basePtr)) == typeid(Derived);
  }
  Base *m_basePtr;
};

Answer 1

I think it is an optimisation! A little known are rarely (you could say "never") used feature of typeid is that a null dereference of the argument of typeid throws an exception instead of the usual UB.

What? Are you serious? Are you drunk?

Indeed. Yes. No.

int *p = 0;
*p; // UB
typeid (*p); // throws

Yes, this is ugly, even by the C++ standard of language ugliness.

OTOH, this does not work anywhere inside the argument of typeid, so adding any clutter will cancel this "feature":

int *p = 0;
typeid(1 ? *p : *p); // UB
typeid(identity(*p)); // UB

For the record: I am not claiming in this message that automatic checking by the compiler that a pointer is not null before doing a dereference is necessarily a crazy thing. I am only saying that doing this check when the dereference is the immediate argument of typeid, and not elsewhere, is totally crazy. (Maybe is was a prank inserted in some draft, and never removed.)

For the record: I am not claiming in the previous "For the record" that it makes sense for the compiler to insert automatic checks that a pointer is not null, and to to throw an exception (as in Java) when a null is dereferenced: in general, throwing an exception on a null dereference is absurd. This is a programming error so an exception will not help. An assertion failure is called for.

Answer 2

The only effect I can see is that 1 ? X : X gives you X as an rvalue instead of plain X which would be an lvalue. This can matter to typeid() for things like arrays (decaying to pointers) but I don't think it would matter if Derived is known to be a class. Perhaps it was copied from someplace where the rvalue-ness did matter? That would support the comment about "cargo cult programming"

Regarding the comment below I did a test and sure enough typeid(array) == typeid(1 ? array : array), so in a sense I'm wrong, but my misunderstanding could still match the misunderstanding that lead to the original code!

Answer 3

I suspect some compiler was, for the simple case of

typeid(*m_basePtr)

returning typeid(Base) always, regardless of the runtime type. But turning it to an expression/temporary/rvalue made the compiler give the RTTI.

Question is which compiler, when, etc. I think GCC had problems with typeid early on, but it is a vague memory.