5

In C++11, the two lines are equivalent. From what I see, the the advantage of the second syntax is that the return type is in class scope. Therefore, you can use both, nested types of the class directly and decltype expressions of non static members. Moreover, the function names line up nicely.

int foo(int bar);
auto foo(int bar) -> int;

The auto keyword is used here, which can also be used to automatically derive the type of local variables. However, I don't see the analogy here. In the function declaration syntax, nothing is derived. The return type is mentioned explicitly behind the arrow.

Personally, I would say that the syntax would be clearer without the auto keyword. Is there any intention behind this? Which?

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    Language designers were constrained in their choice of keywords. Even the use of the auto in deriving the type automatically is a re-purposing of the auto keyword, which was there since K&R's version of C, where it meant something completely different®. Oct 3, 2014 at 18:51
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    not only class scope, auto foo(int i, int j) -> decltype(i+j) Oct 3, 2014 at 18:52
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    @Dave Out of interest, what's the second use case of typename? I only know it as alternative to class for template arguments.
    – danijar
    Oct 3, 2014 at 18:55
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    Old function syntax starts with a type. Types involve type modifiers (like cv or the like) and types that where named before. Parser simply has to say "a type, or auto" starts a declaration now, instead of "a type". The exact details of why auto was required would probably require delving into the discussions made when the feature was added on standard mailing lists and newsgroups, and/or looking at a few compiler implementations... Oct 3, 2014 at 18:59
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    N1978 "If the return type expression comes before the argument list, parsing becomes difficult and name lookup may be less intuitive; the argument names may have other uses in an outer scope at the site of the function declaration. We suggest reusing the auto keyword to express that the return type is to follow after the argument list." There's also a reference to Bjarne Stroustrup. Draft proposal for "typeof". C++ reflector message c++std-ext-5364, October 2002., but I'm not sure if that's public.
    – dyp
    Oct 3, 2014 at 19:16

2 Answers 2

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The paper "Decltype (revision 5)", N1978 proposed the syntax for trailing-return-type (as they're now known). This was done to simplify defining function templates whose return type depends on an expression involving its arguments in chapter 3:

template <class T, class U> decltype((*(T*)0)+(*(U*)0)) add(T t, U u);

The expression (*(T*)0) is a hackish way to write an expression that has the type T and does not require T to be default constructible. If the argument names were in scope, the above declaration could be written as:

template <class T, class U> decltype(t+u) add(T t, U u);

Several syntaxes that move the return type expression after the argument list are discussed in [Str02]. If the return type expression comes before the argument list, parsing becomes difficult and name lookup may be less intuitive; the argument names may have other uses in an outer scope at the site of the function declaration.

We suggest reusing the auto keyword to express that the return type is to follow after the argument list. The return type expression is preceded by -> symbol, and comes after the argument list and potential cv-qualifiers in member functions and the exception specification:

template <class T, class U> auto add(T t, U u) -> decltype(t + u);

The reference [Str02] is "Bjarne Stroustrup. Draft proposal for "typeof". C++ reflector message c++std-ext-5364, October 2002.", but I'm not sure if that's publicly available.

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  • Please add examples of potential parsing difficulties, if you know any.
    – dyp
    Oct 3, 2014 at 19:38
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    I think that the parsing difficulties are akin to the "most vexing parse." Without the 'auto', how would the compiler know whether f(T(t), U(t), is the start of a call to f or of a declaration of f? The compiler only finds out when it encounters the "->" or the ";". There could be a very long list of very complex argument types before that, requiring unlimited look-ahead. Compiler builders don't like those parsing problems, especially if they are avoided by requiring a simple keyword at the start of the declaration.
    – Sjoerd
    Oct 3, 2014 at 20:32
0

Adding this answer to complement @dyp's excellent answer.

Here's a real-world example from some code in my project that would be very difficult to write without the trailing return type:

    template<class F, class... ArgTypes>
    auto expected_from_code(F&& f, ArgTypes&& ...args)
    -> expected_t<
    typename std::enable_if<
    !std::is_void<decltype(f(std::forward<ArgTypes>(args)...))>::value,
    decltype(f(std::forward<ArgTypes>(args)...))>::type>
    {
        using expected = expected_t<decltype(f(std::forward<ArgTypes>(args)...))>;
        try {
            return expected { f(std::forward<ArgTypes>(args)...) };
        }
        catch(...) {
            return expected { typename expected::exception_sentinel{} };
        }
    }
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    the question isn't asking why should there be a trailing return type, it is asking why a function with a trailing return type needs to have the 'auto' keyword in front.
    – YoungJohn
    Oct 3, 2014 at 19:50
  • While I think it complements the existing answer, I agree with @YoungJohn. It might fit this question better.
    – danijar
    Oct 3, 2014 at 19:52

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