Consider the following example. Somewhere in my code is a name x. I have no idea if x is a type or an object (it could be both). Is there any way to get the type of x, i.e., x itself if x is a type or decltype(x) if x is an object?

I tried doing something as trivial as


but this yields an error, since int is not an expression. Is there any substitute way to do this?

I would like something like:

typedef int l;
mydecltype(l) x; // int x;
mydecltype(x) y; // int y;

How can I get this done?

  • 7
    How did you end up with a name for which you don't know whether it's a type or an object? Where does this name come from? The problem statement doesn't make sense to me; feels like an XY problem. Jul 19, 2016 at 15:02
  • I wanted to add more background but the explanation would be extremely lengthy. I am working with preprocessing directives and initialization lists on classes that inherit from other classes. In an initialization list, types and member names have the same format and I cannot get to distinguish them from the syntax. Jul 19, 2016 at 15:04
  • It is definitely an XY problem, but I wouldn't be able to describe the whole problem, as it not just as simple as "I need a filename extension" :) Jul 19, 2016 at 15:06
  • @akappa: He probably can't. It's bad design, obviously, but if it's some old project, his job description might be to do it anyhow.
    – Aziuth
    Jul 19, 2016 at 15:23
  • @akappa Might be. Now, let's play this little game: You are an employee and your boss tells you to do something stupid. What exactly are you going to do? "Nah, I won't do it, that's stupid!"? Keep that in mind when answering questions.
    – Aziuth
    Jul 21, 2016 at 8:32

1 Answer 1

namespace detail_typeOrName {
    struct probe {
        template <class T>
        operator T() const;

    template <class T>
    T operator * (T const &, probe);

    probe operator *(probe);

#define mydecltype(x) decltype((x) * detail_typeOrName::probe{})

In this code, (x) * detail_typeOrName::probe{} can be parsed two ways:

  • If x is a variable, this is x multiplied by the instance of probe.
  • If x is a type, this is the instance of probe dereferenced and cast to X.

By carefully overloading operators, both interpretations are made valid, and both return the type we seek.

Live on Coliru

  • Man, you gave me goosebumps. Jul 19, 2016 at 15:23
  • That's insanely clever! I'd never thought of abusing the dereference AND the cast operator in such a way. Hopefully, this won't break in the future and so have to be dealt by some unlucky, clueless maintainer...
    – akappa
    Jul 19, 2016 at 16:08

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