The 2nd edition of C++ Templates - The Complete Guide features the following code at page 435

#include <string>
#include <type_traits>

template<typename T, typename = void>
struct HasBeginT : std::false_type {};

template<typename T>
struct HasBeginT<T, std::void_t<decltype(std::declval<T>().begin())>>
    : std::true_type {};

and comments that decltype(std::declval<T>().begin()) is used to test whether it is valid to call .begin() on a T.

This all makes sense, I think...

What staggers me is the comment in the footnote:

Except that decltype(call-expression) does not require a nonreference, non-void return type to be complete, unlike call expressions in other contexts. Using decltype(std::declval<T>().begin(), 0) instead does add the requirement that the return type of the call is complete, because the returned value is no longer the result of the decltype operand.

I don't really understand it.

In an attempt to play with it, I tried to see what it behaves with a void member begin, with the following code

struct A {
    void begin() const;

struct B {

static_assert(HasBeginT<A>::value, "");
static_assert(!HasBeginT<B>::value, "");

but both assertions pass with or without the , 0.


Your demo uses void begin() const; to test the following

... instead does add the requirement that the return type of the call is complete ...

But a void return type is not the same as an incomplete return type. For that you could try

struct X;

struct A {
    X begin() const;

Here, X is indeed incomplete, and now the , 0 matters. With it, the first static_assert won't pass, but it passes without the , 0.


  • 2
    ... because the comma may be overloaded. Sep 27 at 17:39
  • Yeah, the answer truly tells how I misread/misunderstood the text. But know that I know how I should read it, I still don't understand how it works. Why does the comme have that effect?
    – Enlico
    Sep 27 at 17:41
  • 1
    @Enlico Actually, I'm not sure why it has that effect. StoryTeller's comment seems to hint at that, but I'm not sure I get why. I'll see if I can work it out. You could edit the question to ask why, but that should probably be a different question.
    – cigien
    Sep 27 at 17:58
  • @cigien in the case no worries and stay tuned, I'll ask another question
    – Enlico
    Sep 27 at 18:05
  • @Enlico cppreference says "The type need not be complete or have an available destructor, and can be abstract. This rule doesn't apply to sub-expressions: in decltype(f(g())), g() must have a complete type, but f() need not." So it's not just comma, but any subexpression. I still don't know why the rule exists.
    – cigien
    Sep 27 at 18:08

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