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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;
};
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6  
Have you tried it without that? –  Luke Jul 22 '11 at 20:45
13  
Could it be legacy by chance? (Maybe it wasn't always 1 ? ...) –  user166390 Jul 22 '11 at 20:45
4  
The thing is that the conditional will always evaluate to true, and the two branches yield the exact same value. Can you look at the version control's history (if any) and see if it was something else in the past? –  In silico Jul 22 '11 at 20:46
1  
I agree with @pst: Most likely legacy. –  NotMe Jul 22 '11 at 20:47
1  
It looks like either a very clever way to defeat some over-zealous compiler optimisation or cargo cult programming. –  biziclop Jul 22 '11 at 20:47

4 Answers 4

up vote 37 down vote accepted

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.

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2  
What? Are you serious? Are you drunk? –  Sicarius Noctis Sep 27 '11 at 0:10
1  
+100 Nice catch! –  Christian Rau Sep 27 '11 at 0:15
1  
+1, this is the solution. –  Johannes Schaub - litb Sep 27 '11 at 7:24
    
Nice explanation. I just hope I remember this whenever I come across this 'idiom'; chances are I won't (I rarely see or use typeid). –  Michael Burr Dec 18 '11 at 20:58
    
The standard requires an exception to be thrown when the argument to the typeid expression is an lvalue. The arbitrary use of of the ternary operator in this case does not change that behavior, and a conforming compiler must throw. –  David Rodríguez - dribeas Aug 14 '12 at 4:22

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!

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7  
10  
§5.16/4: "If the second and third operands are lvalues and have the same type, the result is of that type and is an lvalue." –  ildjarn Jul 22 '11 at 21:23
2  
I think Visual C++ gets this wrong though (goes to dig through Connect issue reports). Ahh, here's an example of (incorrect) rvalue conversion with the conditional operator: connect.microsoft.com/VisualStudio/feedback/details/279444/… –  Ben Voigt Jul 22 '11 at 22:24

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.

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This behaviour is covered by [expr.typeid]/2 (N3936):

When typeid is applied to a glvalue expression whose type is a polymorphic class type, the result refers to a std::type_info object representing the type of the most derived object (that is, the dynamic type) to which the glvalue refers. If the glvalue expression is obtained by applying the unary * operator to a pointer and the pointer is a null pointer value, the typeid expression throws an exception of a type that would match a handler of type std::bad_typeid exception.

The expression 1 ? *p : *p is always an lvalue. This is because *p is an lvalue, and [expr.cond]/4 says that if the second and third operand to the ternary operator have the same type and value category, then the result of the operator has that type and value category also.

Therefore, 1 ? *m_basePtr : *m_basePtr is an lvalue with type Base. Since Base has a virtual destructor, it is a polymorphic class type.

Therefore, this code is indeed an example of "When typeid is applied to a glvalue expression whose type is a polymorphic class type" .


Now we can read the rest of the above quote. The glvalue expression was not "obtained by applying the unary * operator to a pointer" - it was obtained via the ternary operator. Therefore the standard does not require that an exception be thrown if m_basePtr is null.

The behaviour in the case that m_basePtr is null would be covered by the more general rules about dereferencing a null pointer (which are a bit murky in C++ actually but for practical purposes we'll assume that it causes undefined behaviour here).


Finally: why would someone write this? I think curiousguy's answer is the most plausible suggestion so far: with this construct, the compiler does not have to insert a null pointer test and code to generate an exception, so it is a micro-optimization.

Presumably the programmer is either happy enough that this will never be called with a null pointer, or happy to rely on a particular implementation's handling of null pointer dereference.

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