35

In this code:

struct
{
    auto operator[](const char*)
    {
        return *this;
    }

} m_some_class;

What is type of auto in here?

2
  • 7
    Auto tells the compiler to work out the return type based on the return statement. Jul 9, 2020 at 7:36
  • 1
    auto is the type of the object, obviously. Jul 9, 2020 at 19:37

5 Answers 5

32

What is type of auto in here ?

The type is decltype(m_some_class) - I.e., the return value is of the same type as the variable m_some_class.


Note that the function will return a copy of *this.

If a reference to *this is wanted instead, you can use auto& or, since C++14, the more generic decltype(auto).

4
  • 1
    It's worth calling out explicitly: "This class has no identifier (name). That's rare, but it happens. Lambdas also create classes without names, and officially nullptr has no named type" Jul 9, 2020 at 19:37
  • 2
    @MooingDuck no named type, really? static_assert(std::is_same_v<std::nullptr_t,decltype(nullptr)>); compiles fine, so std::nullptr_t is the named type of nullptr.
    – Ruslan
    Jul 9, 2020 at 22:18
  • 1
    @MooingDuck The named type of nullptr (the nullptr_t) is decltype(nullptr) if I'm not mistaken. @Ruslan: I think that's it's definition actually. It's backwards - I like that. :)
    – Ted Lyngmo
    Jul 9, 2020 at 22:20
  • 6
    @Ruslan: If I recall, nullptr is a keyword, rather than an identifier (which you would otherwise have to have in a header). nullptr_t is a typedef of decltype(nullptr) defined in <cstddef> en.cppreference.com/w/cpp/language/nullptr Jul 9, 2020 at 22:22
18

For anonymous structure types, internally the compiler creates a name and the auto in your case return the structure.

You can see below, that your anonymous structure is given name __anon_1_1 and the operator[] function returns object of __anon_1_1 structure. m_some_class is instance of type __anon_1_1

cppinsights website provides a way to understand

your code

struct
{
    auto operator[](const char*)
    {
        return *this;
    }

}m_some_class;

compiler version

struct __anon_1_1
{
  inline __anon_1_1 operator[](const char *)
  {
    return __anon_1_1(*this);
  }
  
  // inline constexpr __anon_1_1() noexcept = default;
  // inline constexpr __anon_1_1(const __anon_1_1 &) noexcept = default;
};

__anon_1_1 m_some_class = __anon_1_1();
1
  • 4
    It's far from clear that that is actually the name used internally, as opposed to an artefact of the diagnostics (where some name must be generated to avoid empty space in error messages). In practice there is little reason that it wouldn't be, but this is why we do not make assumptions and instead just code to standards (i.e. deem the type to have no name). Jul 9, 2020 at 17:03
10

The line in the given code:

return *this;

returns the struct m_some_class itself, i.e. the type of the operator[] is:

decltype(m_some_class); // i.e., the type returned is the same as the struct

Also, notice that this will only return a copy instance of the struct since the passed argument isn't given any reference-to operator. Any changes made to the copy of the struct won't affect the original struct.


What's the auto keyword?

The auto keyword is typically used when the data type of something is unknown to the programmer, or it's too lengthy to type.

Also, the type defined by auto may vary depending upon the various situations. For instance:

auto len = vector.size(); // len is now defined as size_t in compile time

In some systems, the type of len may be unsigned long, and in my case, it's unsigned long long. Here, you can't explicitly define which qualifier to use correctly in this indeterminate place. Here we use the auto keyword.

5
  • 1
    The OP seems to be aware what theauto return mechanics are. The question is, what is the type for an anonymous class/struct. It is not possible to write that type by a programmer (except as Ted mentioned using decltype. (Also note that the type is not m_some_class, this is an object of the anonymous struct)
    – king_nak
    Jul 9, 2020 at 7:55
  • 1
    @TedLyngmo Now see. I've updated the answer after reading the reference.
    – Rohan Bari
    Jul 9, 2020 at 8:27
  • 1
    @RohanBari Clearer! +1
    – Ted Lyngmo
    Jul 9, 2020 at 8:31
  • @TedLyngmo Thank you for that, also I just heard of decltype() but understood a few minutes ago the usage of it. Thanks for guiding me.
    – Rohan Bari
    Jul 9, 2020 at 8:52
  • @RohanBari You are welcome. In this particular case, one could make a type alias: using foo_t = decltype(m_some_class); and then claim that the function returns a foo_t. :-)
    – Ted Lyngmo
    Jul 9, 2020 at 8:55
8

All standard references below refers to N4659: March 2017 post-Kona working draft/C++17 DIS.


TLDR: placeholder return type deduction

It is of no significance that the class is anonymous, as the return type is deduced solely from the return statement.

// Denote the type of the anonymous class as 'T'.

// Return type deduced to 'T'
auto operator[](const char*)
{
    return *this;
}

// Return type deduced to 'T&'
auto& operator[](const char*)
{
    return *this;
}

// Return type deduced to 'T&'
decltype(auto) operator[](const char*)
{
    return *this;
}

Details and relevant standard passages follows below.


Placeholder return type deduction: auto (C++11 and onwards)

From [expr.unary.op]/1 [extract, emphasis mine]:

[expr.unary.op]/1 The unary * operator performs indirection: the expression to which it is applied shall be a pointer to an object type, or a pointer to a function type and the result is an lvalue referring to the object or function to which the expression points. [...]

Thus, the result of *this is an lvalue referring to the object onto which the operator call is invoked.

From [dcl.spec.auto]/1 and [dcl.spec.auto]/2 [extract, emphasis mine]:

[dcl.spec.auto]/1 The auto and decltype(auto) type-specifiers are used to designate a placeholder type that will be replaced later by deduction from an initializer. [...]

[dcl.spec.auto]/2 The placeholder type can appear with a function declarator [...] in any context where such a declarator is valid. [...] If the declared return type of the function contains a placeholder type, the return type of the function is deduced from non-discarded return statements [...].

From [dcl.type.auto.deduct]/2 and [dcl.type.auto.deduct]/4 [extract, emphasis mine]:

[dcl.type.auto.deduct]/2 A type T containing a placeholder type, and a corresponding initializer e, are determined as follows:

  • (2.1) for a non-discarded return statement that occurs in a function declared with a return type that contains a placeholder type, T is the declared return type and e is the operand of the return statement. If the return statement has no operand, then e is void();
  • [...]

[dcl.spec.auto]/4 If the placeholder is the auto type-specifier, the deduced type T' replacing T is determined using the rules for template argument deduction. [...]

[ Example:

const auto &i = expr;

The type of i is the deduced type of the parameter u in the call f(expr) of the following invented function template:

template <class U> void f(const U& u);

 — end example ]

Thus, the return type of the member operator function

auto operator[](const char*)
{
    return *this;
}

of the anonymous type, say, T, is the deduced type of the parameter u in the call f(*this) of the following invented function template:

template <class U> void f(U u);

where, as per above, *this is an lvalue, and the return type is thus deduced as T; namely the type of the anonymous class.

Using the same argument, the return of the member operator function

auto& operator[](const char*)
{
    return *this;
}

of the anonymous type, say, T, is T&.

As per the argument above it is of no significance that the class is anonymous, as the return type is deduced solely from the return statement.


Placeholder return type deduction: decltype(auto) (C++14 and onwards)

If we were to replace the placeholder return type auto with the placeholder type decltype(auto), different rules governs how the return type is determined.

decltype(auto) operator[](const char*)
{
    return *this;
}

From [dcl.type.auto.deduct]/5 [extract, emphasis mine]:

If the placeholder is the decltype(auto) type-specifier, T shall be the placeholder alone. The type deduced for T is determined as described in [dcl.type.simple], as though e had been the operand of the decltype.

And, from [dcl.type.simple]/4, [dcl.type.simple]/4.3 applies [extract]:

For an expression e, the type denoted by decltype(e) is defined as follows:

  • [...]
  • (4.4) otherwise, if e is an lvalue, decltype(e) is T&, where T is the type of e;

as, per above, e (the return statement; *this) is a lvalue and neither [dcl.type.simple]/4.1, [dcl.type.simple]/4.2 nor [dcl.type.simple]/4.3 applies here.

Thus, the return type in the OP example modified using the decltype(auto) placeholder type is T&.

0
2

It is T, where T is the unnamed type of the class.

Even though it has no known name, the type does still exist, and can be "used" via mechanisms such as auto and decltype.

You probably want auto&, though.

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