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C++11 supports a new function syntax:

auto func_name(int x, int y) -> int;

Currently this function would be declared as:

int func_name(int x, int y);

The new style does not seem to be widely adopted yet (say in the gcc stl)

However, should this new style be preferred everywhere in new C++11-programs, or will it only be used when needed?

Personally, I prefer the old style when possible, but a code-base with mixed styles looks pretty ugly.

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13  
It's there mostly for decltype on arguments. –  Cat Plus Plus Jun 26 '12 at 20:13
    
what CatPlusPlus says: makes not much sense using it in your example –  stijn Jun 26 '12 at 20:16
    
@Cat Plus Plus This means that you leave things as they are in C++03, unless you need to derive the return type? –  mirk Jun 26 '12 at 20:19
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3 Answers

up vote 30 down vote accepted

There are certain cases where you must use a trailing return type. Most notably, a lambda return type, if specified, must be specified via a trailing return type. Also, if your return type utilizes a decltype that requires that the argument names are in scope, a trailing return type must be used (however, one can usually use declval<T> to work around this latter issue).

The trailing return type does have some other minor advantages. For example, consider a non-inline member function definition using the traditional function syntax:

struct my_awesome_type
{
    typedef std::vector<int> integer_sequence;

    integer_sequence get_integers() const;
}; 

my_awesome_type::integer_sequence my_awesome_type::get_integers() const
{
    // ...
}

Member typedefs are not in scope until after the name of the class appears before ::get_integers, so we have to repeat the class qualification twice. If we use a trailing return type, we don't need to repeat the name of the type:

auto my_awesome_type::get_integers() const -> integer_sequence
{
    // ...
}

In this example, it's not such a big deal, but if you have long class names or member functions of class templates that are not defined inline, then it can make a big difference in readability.

In his "Fresh Paint" session at C++Now 2012, Alisdair Meredith pointed out that if you use trailing return types consistently, the names of all of your functions line up neatly:

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

I've used trailing return types everywhere in CxxReflect, so if you're looking for an example of how code looks using them consistently, you can take a look there (e.g, the type class).

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It does not look like there is a consensus yet, but it is interesting to look at CxxReflect with the new style. –  mirk Jun 27 '12 at 8:22
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In addition to what others said, the trailing return type also allows to use this, which is not otherwise allowed

struct A {
  std::vector<int> a;

  // OK, works as expected
  auto begin() const -> decltype(a.begin()) { return a.begin(); }

  // FAIL, does not work: "decltype(a.end())" will be "iterator", but 
  // the return statement returns "const_iterator"
  decltype(a.end()) end() const { return a.end(); }
};

In the second declaration, we used the traditional style. However since this is not allowed at that position, the compiler does not implicitly use it. So the a.end() uses the statically declared type of a to determine what end overload of vector<int> it is going to call, which ends up being the non-const version.

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See this nice article: http://www.cprogramming.com/c++11/c++11-auto-decltype-return-value-after-function.html Very good example when to use this syntax without decltype in game:

class Person
{
public:
    enum PersonType { ADULT, CHILD, SENIOR };
    void setPersonType (PersonType person_type);
    PersonType getPersonType ();
private:
    PersonType _person_type;
};

auto Person::getPersonType () -> PersonType
{
    return _person_type;
}

And brilliant explanation also stolen from Alex Allain's article "Because the return value goes at the end of the function, instead of before it, you don't need to add the class scope."

Compare to this possible case when one by accident forget about class scope, and, for bigger disaster, another PersonType is defined in global scope:

typedef float PersonType; // just for even more trouble
/*missing: Person::*/
PersonType Person::getPersonType ()
{
    return _person_type;
}
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1  
I'm not sure that this falls into the "disaster" category: if the type is wrong, the code won't compile. Runtime errors can have disastrous consequences; compile-time errors, not so much. –  James McNellis Jun 26 '12 at 23:59
1  
@JamesMcNellis compare the compiler output: prog.cpp:13:12: error: prototype for 'PersonType Person::getPersonType()' does not match any in class 'Person' vs. prog.cpp:13:1: error: 'PersonType' does not name a type The first error from compiler is, at least for me, worse to understand. –  PiotrNycz Jun 27 '12 at 7:37
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