The following code fails to compile when the template parameter T is a fundamental type such as int (on gcc 4.8). Is this standard conforming behaviour? My understanding of std::declval was that it always resolves to either a T&& or T&.

template <class T>
void foo(T&& val)
  std::cout << noexcept(std::declval<typename std::decay<T>::type>() = val);

struct bar { };
bar b;
foo(b); // okay

int a;
foo(a); // error: using xvalue (rvalue reference) as lvalue

The error occurs at the point of assigning val to the std::declval expression.

It works if I remove the std::decay and use std::declval<T> directly, but I'm not sure why. The decayed type should just be int and so std::declval<int>() should have a return type of int&& shouldn't it?

  • It seems you're trying to duplicate the function of std::is_nothrow_copy_assignable?
    – kennytm
    Commented Oct 1, 2013 at 9:54
  • Almost. If T is an lvalue reference I want to check for nothrow copy assign, but if T is an rvalue reference I want to check for nothrow move assign.
    – marack
    Commented Oct 2, 2013 at 0:48

1 Answer 1


You're trying to assign to an rvalue. std::declval<int>() correctly returns a type int&&. It has no name, so it's an rvalue (more precisely, xvalue) of type int. You're then trying to assign val into this rvalue, which is illegal for fundamental types.

Here's a live example demonstrating the problem in simplified form (without declval).

  • +1 Inside foo, the type of val is int& and without decay, declval gives you int&, too. With decay, you get int& ->int -> int&&.
    – jrok
    Commented Oct 1, 2013 at 10:00
  • Ahh, of course. I should be using std::declval<std::add_lvalue_reference<T>::type>() instead. Thanks!
    – marack
    Commented Oct 2, 2013 at 0:57
  • 1
    @marack or just std::declval<T&>() :P
    – Simple
    Commented Oct 2, 2013 at 11:41
  • @Simple yes, good point. I forgot that T&& & collapses to T&. Thanks.
    – marack
    Commented Oct 2, 2013 at 23:31
  • @marack Not to mention the fact that the T in your example will never be of type U&& for any U; it will either be a non-reference U, or U&. Commented Oct 3, 2013 at 6:57

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