Declarations
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:
- Function declaration
- Template declaration
- Explicit template instantiation
- Explicit template specialization
- Namespace definition
- Linkage specification
- Attribute declaration (attr
;
) (since C++11) - Empty declaration (
;
) - Block declaration (a declaration that can appear inside a block), which, in turn, can be one of the following:
-
- asm definition
- type alias declaration
- namespace alias definition
- using declaration
- using directive
- static_assert declaration
- opaque enum declaration
- simple declaration
Simple declaration is a statement that introduces, creates, and optionally initializes one or several identifiers, typically variables.
attr(optional) decl-specifier-seq(optional) init-declarator-list(optional) ;
|
(1) | ||||||||
attr(C++11) | - | optional sequence of any number of attributes |
decl-specifier-seq | - | sequence of type specifiers including the type name. It is only optional in the declarations of constructors, destructors, and user-defined type conversion functions |
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 |
Contents |
[edit] Specifiers
decl-specifier-seq is a sequence of the following whitespace-separated specifiers:
- typedef specifier. If present, the entire declaration is a typedef declaration and each declarator introduces a new type name, not an object or a function.
- function specifier (inline, virtual, explicit), only allowed in function declarations
- friend specifier, allowed in class and function declarations.
- constexpr specifier, only allowed in variable definitions, function and function template declarations, and the declaration of static data members of literal type.
- 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 withextern
orstatic
. - type specifier sequence, which can be any one of the following:
-
- class specifier
- enum specifier
- simple type specifier
(since C++11) |
-
-
- previously declared class name (optionally qualified)
- previously declared enum name (optionally qualified)
- previously declared typedef-name or type alias (since C++11) (optionally qualified)
- template name with template arguments (optionally qualified, optionally using template disambiguator)
- elaborated type specifier
-
- 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
orunsigned
can be combined withchar
,long
,short
, orint
. - -
short
orlong
can be combined withint
. - -
long
can be combined withdouble
.
|
(since C++11) |
Attributes may appear in decl-specifier-seq, in which case they apply to the type determined by the preceding specifiers.
[edit] Declarators
init-declarator-seq is a comma-separated sequence of one or more init-declarators, which have the following syntax:
declarator initializer(optional) | (1) | ||||||||
declarator | - | the declarator |
initializer | - | optional initializer (except where required, such as when initializing references or const objects). See Initialization for details. |
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, 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:
name 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) | ||||||||
D
as a pointer to the type determined by decl-specifier-seq S
.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 ::
D
with type lvalue reference to the type determined by decl-specifier-seq S
.D
with type rvalue reference to the type determined by decl-specifier-seq S
.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.
This section is incomplete Reason: explain declaration name hiding rules; how a variable/function declaration hides a class (but not a typedef) with the same name |
[edit] 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.
[edit] Examples
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 = NULL, f(), (*pf)(double); // decl-specifier-seq is int // declarator a=1 defines and initializes a variable of type int // declarator *p=NULL 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] = NULL; // 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 "= NULL" provides the initial value of this pointer.