Trying to better understand std::declval, I came up with the following "toy model" code:

#include <iostream>
#include <typeinfo>

struct Bar
    Bar(double);  // some non-default ctor
    double f();   // some function of which return type we want to get

using Barref = Bar&&; // emulating std::declval<Bar>()

int main()
    // FUNKY, compiles in g++, not in clang++
    // error: unexpected type name 'Barref': expected expression
    decltype(Barref.f()) x; // (1)
    std::cout << typeid(x).name() << std::endl; // i -> int INCORRECT

    // OK, just for testing
    decltype(std::declval<Bar>().f()) y; // (2)
    std::cout << typeid(y).name() << std::endl; // d -> double CORRECT

So I'm typedef-ing Barref as a rvalue reference of type Bar&&, and use it in an a decltype expression in (1). If I understand correctly, this is exactly what std::declval does, it is a non-defined function that returns a rvalue reference to its template parameter

template<class T>
typename std::add_rvalue_reference<T>::type declval();

so we can then use the latter in unevaluated contexts, such as decltype. It is useful whenever the type has a non-default ctor, and we'd like to get some type information about some member function without the need to construct the object. Well, that's what I though my code below does. g++5.1 compiles it, but x is of type int (instead of double, as I would have guessed). However, clang++ fails to compile the code, saying

error: unexpected type name 'Barref': expected expression decltype(Barref.f()) x;

My question(s):

  1. Is the code above legal? Is my usage of decltype(Barref.f()) really the same as using decltype(std::declval<Bar>().f())? It seems a bit weird, as Barref.f() is not really a return value of a function (even if un-evaluated). I realized that even decltype(Bar.f()) compiles (g++), with no type alias whatsoever.

  2. If the code is legal, why does the type of x is int instead of double?

  • Barref is a type (well, an alias for a type). std::declval<Bar>() is an expression. Obvious GCC bug. – T.C. Jun 16 '15 at 0:12
  • @T.C. I thought the same thing, so the code shouldn't compile. I realized now that even something like decltype(Bar.something()) x; compiles, even if something is not even a member of Bar. Have no idea why g++ compiles it, and decltype as int. Very weird. – vsoftco Jun 16 '15 at 0:17
  • Reported as bug 66548 – T.C. Jun 16 '15 at 0:26
  • @T.C. you were fast :) Thanks, I didn't even think trying gcc49, which indeed fails. – vsoftco Jun 16 '15 at 0:28
  • Emulating declval would be declaring Bar&& Barref(); and then using decltype(Barref().f()) x; – Praetorian Jun 16 '15 at 4:33

Minimized to

struct Meow {};

int main(){
    decltype(Meow.purr()) d;

This is plainly invalid code, yet GCC 5.1 and trunk accept it. Not much to say about it other than "bug". Interestingly, both correctly rejects

struct Meow {};
decltype(Meow.purr()) d;
  • Weirdly after that invalid line you can write a bunch of nonsense. – 0x499602D2 Jun 16 '15 at 0:36
  • @0x499602D2 oh wow, this seems to be even more interesting ;) But as I said, d is declared as int, so I guess it's a mystery why. I first thought that the lines are non-sense non-sense, i.e. not even parseable. – vsoftco Jun 16 '15 at 0:36
  • @0x499602D2 Well, if you accept that decltype(Meow.purr()) is int (by the buggy GCC logic) then the later lines won't be nonsense. – T.C. Jun 16 '15 at 0:38

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