Declarations

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Declarations introduce (or re-introduce) names into the C++ program. Each kind of entity is declared differently. Definitions are declarations that are sufficient to use the entity identified by the name.

A declaration is one of the following:

attr(optional) declarator ;
attr (since C++11) - sequence of any number of attributes
declarator - A function declarator.
This declaration must declare a constructor, destructor, or user-defined type conversion function. It can only be used as part of a template declaration, explicit specialization, or explicit instantiation.
  • Block declaration (a declaration that can appear inside a block), which, in turn, can be one of the following:

Simple declaration

A simple declaration is a statement that introduces, creates, and optionally initializes one or several identifiers, typically variables.

decl-specifier-seq init-declarator-list(optional) ; (1)
attr decl-specifier-seq init-declarator-list; (2)
attr (since C++11) - sequence of any number of attributes
decl-specifier-seq - sequence of specifiers (see below).
init-declarator-list - comma-separated list of declarators with optional initializers. init-declarator-list is optional when declaring a named class/struct/union or a named enumeration

A structured binding declaration is also a simple declaration. (since C++17)

Specifiers

Declaration specifiers (decl-specifier-seq) is a sequence of the following whitespace-separated specifiers, in any order:

  • the inline specifier is also allowed on variable declarations.
(since C++17)
  • the friend specifier, allowed in class and function declarations.
  • the constexpr specifier, only allowed in variable definitions, function and function template declarations, and the declaration of static data members of literal type.
(since C++11)
  • the consteval specifier, only allowed in function and function template declarations.
(since C++20)
  • storage class specifier (register, static, thread_local (since C++11), extern, mutable). Only one storage class specifier is allowed, except that thread_local may appear together with extern or static.
  • Type specifiers (type-specifier-seq), a sequence of specifiers that names a type. The type of every entity introduced by the declaration is this type, optionally modified by the declarator (see below). This sequence of specifiers is also used by type-id. Only the following specifiers are part of type-specifier-seq, in any order:
(since C++11)
(since C++17)
  • the keyword class, struct, or union, followed by the identifier (optionally qualified), previously defined as the name of a class, struct, or union.
  • the keyword class, struct, or union, followed by template name with template arguments (optionally qualified, optionally using template disambiguator), previously defined as the name of a class template.
  • the keyword enum followed by the identifier (optionally qualified), previously declared as the name of an enumeration.
only one type specifier is allowed in a decl-specifier-seq, with the following exceptions:
- const can be combined with any type specifier except itself.
- volatile can be combined with any type specifier except itself.
- signed or unsigned can be combined with char, long, short, or int.
- short or long can be combined with int.
- long can be combined with double.
- long can be combined with long.
(since C++11)

Attributes may appear in decl-specifier-seq, in which case they apply to the type determined by the preceding specifiers.

The only specifier that is allowed to appear twice in a decl-specifier-seq is long (which can appear twice). All other repeats, such as const static const, or virtual inline virtual are errors.

(since C++17)

Declarators

init-declarator-list is a comma-separated sequence of one or more init-declarators, which have the following syntax:

declarator initializer(optional) (1)
declarator requires-clause (2) (since C++20)
declarator - the declarator
initializer - optional initializer (except where required, such as when initializing references or const objects). See Initialization for details.
requires-clause(C++20) - a requires-clause, which adds a constraint to a function declaration

Each init-declaractor in a init-declarator sequence S D1, D2, D3; is processed as if it were a standalone declaration with the same specifiers: S D1; S D2; S D3;.

Each declarator introduces exactly one object, reference, function, or (for typedef declarations) type alias, whose type is provided by decl-specifier-seq and optionally modified by operators such as & (reference to) or [] (array of) or () (function returning) in the declarator. These operators can be applied recursively, as shown below.

A declarator is one of the following:

unqualified-id attr(optional) (1)
qualified-id attr(optional) (2)
... identifier attr(optional) (3) (since C++11)
* attr(optional) cv(optional) declarator (4)
nested-name-specifier * attr(optional) cv(optional) declarator (5)
& attr(optional) declarator (6)
&& attr(optional) declarator (7) (since C++11)
noptr-declarator [ constexpr(optional) ] attr(optional) (8)
noptr-declarator ( parameter-list ) cv(optional) ref(optional) except(optional) attr(optional) (9)
1) The name that is declared.
2) A declarator that uses a qualified identifier (qualified-id) defines or redeclares a previously declared namespace member or class member.
4) Pointer declarator: the declaration S * D; declares D as a pointer to the type determined by decl-specifier-seq S.
5) Pointer to member declaration: the declaration S C::* D; declares D as a pointer to member of C of type determined by decl-specifier-seq S. nested-name-specifier is a sequence of names and scope resolution operators ::
6) Lvalue reference declarator: the declaration S & D; declares D as an lvalue reference to the type determined by decl-specifier-seq S.
7) Rvalue reference declarator: the declaration S && D; declares D as an rvalue reference to the type determined by decl-specifier-seq S.
8) Array declarator. noptr-declarator any valid declarator, but if it begins with *, &, or &&, it has to be surrounded by parentheses.
9) Function declarator. noptr-declarator any valid declarator, but if it begins with *, &, or &&, it has to be surrounded by parentheses. Note that the outermost function declarator may end with the optional trailing return type.

In all cases, attr is an optional sequence of attributes. When appearing immediately after the identifier, it applies to the object being declared.

cv is a sequence of const and volatile qualifiers, where either qualifier may appear at most once in the sequence.

Notes

When a block declaration appears inside a block, and an identifier introduced by a declaration was previously declared in an outer block, the outer declaration is hidden for the remainder of the block.

If a declaration introduces a variable with automatic storage duration, it is initialized when its declaration statement is executed. All automatic variables declared in a block are destroyed on exit from the block (regardless how the block is exited: via exception, goto, or by reaching its end), in order opposite to their order of initialization.

Examples

#include <string>
 
class C {
    std::string member; // decl-specifier-seq is "std::string"
                        // declarator is "member"
} obj, *pObj(&obj);
// decl-specifier-seq is "class C { std::string member; }"
// declarator "obj" defines an object of type C
// declarator "*pObj(&obj)" declares and initializes a pointer to C
 
int a = 1, *p = nullptr, f(), (*pf)(double);
// decl-specifier-seq is int
// declarator a = 1 defines and initializes a variable of type int
// declarator *p = nullptr defines and initializes a variable of type int*
// declarator (f)() declares (but doesn't define)
//                  a function taking no arguments and returning int
// declarator (*pf)(double) defines a pointer to function
//                  taking double and returning int
 
int (*(*foo)(double))[3] = nullptr;
// decl-specifier-seq is int
// 1. declarator "(*(*foo)(double))[3]" is an array declarator:
//    the type declared is "/nested declarator/ array of 3 int"
// 2. the nested declarator is "(*(*foo)(double))", which is a pointer declarator
//    the type declared is "/nested declarator/ pointer to array of 3 int"
// 3. the nested declarator is "(*foo)(double)", which is a function declarator
//    the type declared is "/nested declarator/ function taking double and returning
//        pointer to array of 3 int"
// 4. the nested declarator is "(*foo)" which is a (parenthesized, as required by
//        function declarator syntax) pointer declarator.
//    the type declared is "/nested declarator/ pointer to function taking double
//        and returning pointer to array of 3 int"
// 5. the nested declarator is "foo", which is an identifier.
// The declaration declares the object foo of type "pointer to function taking double 
//     and returning pointer to array of 3 int"
// The initializer "= nullptr" provides the initial value of this pointer.