The specification of std::decay in N4296 leaves the following note:

[ Note: This behavior is similar to the lvalue-to-rvalue (4.1), array-to-pointer (4.2), and function-to-pointer (4.3) conversions applied when an lvalue expression is used as an rvalue, but also strips cv-qualifiers from class types in order to more closely model by-value argument passing. — end note ]

It seems to me that ideally std::decay would model by-value argument passing exactly, but for some reason it's not defined that way.

I think it could be defined in terms of template argument deduction in which case the implementation could also be defined to leverage template argument deduction to exactly model by-value argument passing.

template <typename T>
struct decay {

  template <typename U>
  static U impl(U);


  using type = decltype(impl(std::declval<T>()));


  1. What are the differences between std::decay and by-value argument passing?
  2. Is std::decay designed to not model by-value argument passing exactly?
  3. Would the implementation above model it exactly?
  • 3
    One key difference is that your implementation will not work if T is non-copyable, whereas decay will still do something reasonable. Hence models but not is.
    – Barry
    May 24, 2015 at 2:22

1 Answer 1


std::decay was proposed in N2069, the motivating example was std::make_pair return a pair of decay-ed types, which is very nearly how std::make_pair is implemented in C++11 (there is a slight exception for reference_wrapper). Note how the proposal originally did not remove cv-qualifiers or top-level reference - I assume this is simply an oversight.

As to the reason it simply models by-value argument passing instead of duplicates it, I can only guess that it may be that the latter is too restrictive. Consider:

struct A {
    A(const A& ) = delete;

using T1 = std::decay<A>::type; // T1 == A
using T2 = your_decay<A>::type; // compile error
                                // use of deleted function A(const A&)

I cannot speak as to whether or not it was explicitly specified in this way to allow for decay-ing noncopyable types - but it seems better design to allow this to compile.

  • In cases where the above implementation and std::decay compile (no early or late errors), can they ever return a different type? Or is std::decay a strict extension? May 25, 2015 at 14:17
  • 1
    @Yakk I believe it's a strict extension.
    – Barry
    May 25, 2015 at 15:43

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