Declarations are how names are introduced (or re-introduced) into the C++ program. Not all declarations actually declare anything, and 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:
- Attribute declaration (attr
;)
| (since C++11) |
- Empty declaration (
;) - A function declaration without adecl-specifier-seq :
|
attr (optional)declarator; | | |
|
| attr | - | (since C++11) sequence of any number ofattributes |
| declarator | - | a function declarator |
- This declaration must declare a constructor, destructor, or user-defined typeconversion function. It can only be used as part of atemplate declaration,explicit specialization, or explicit instantiation.
- block-declaration (a declaration that can appear inside ablock), which, in turn, can be one of the following:
| (since C++20) |
| (since C++11) |
[edit]Simple declaration
A simple declaration is a statement that introduces, creates, and optionally initializes one or several identifiers, typically variables.
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decl-specifier-seqinit-declarator-list (optional); | (1) | |
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attrdecl-specifier-seqinit-declarator-list; | (2) | (since C++11) |
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| decl-specifier-seq | - | sequence ofspecifiers |
| init-declarator-list | - | comma-separated list ofinit-declarator s (see below) |
| attr | - | sequence of any number ofattributes |
init-declarator-list can only be omitted when declaring a named class or a named enumeration.
The syntax ofinit-declarator is defined as follows:
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| declaratorinitializer | (1) | |
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| declaratorrequires-clause (optional)contract-specs (optional) | (2) | |
|
1) A declarator with an initializer.
2) A declarator without an initializer.
requires-clause can only appear ifdeclarator declares atemplated function. | (since C++20) |
contract-specs can only appear ifdeclarator declares a function or function template. | (since C++26) |
[edit]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. - the
constinit specifier, only allowed in declaration of a variable with static or thread storage duration. At most one of theconstexpr,consteval, andconstinit specifiers is allowed to appear in adecl-specifier-seq.
| (since C++20) |
- storage class specifier (register,(until C++17)static,thread_local,(since C++11)extern,mutable). Only one storage class specifier is allowed, except thatthread_local may appear together withextern orstatic(since C++11).
- 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 bytype-id. Only the following specifiers are part oftype-specifier-seq, in any order:
- char,char8_t,(since C++20)char16_t,char32_t,(since C++11)wchar_t,bool,short,int,long,signed,unsigned,float,double,void
| (since C++11) |
| (since C++26) |
- the keywordclass,struct, orunion, followed by the identifier (optionallyqualified), previously defined as the name of a class.
- the keywordclass,struct, orunion, followed by template name with template arguments (optionallyqualified, optionally usingtemplate disambiguator), previously defined as the name of a class template.
- the keywordenum followed by the identifier (optionallyqualified), 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.
- long can be combined withlong.
| (since C++11) |
Attributes may appear indecl-specifier-seq, in which case they apply to the type determined by the preceding specifiers.
Repetitions of any specifier in adecl-specifier-seq, such asconststaticconst, orvirtualinlinevirtual are errors, except thatlong is allowed to appear twice(since C++11).
[edit]Declarators
Eachinit-declarator in aninit-declarator-listS 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 bydecl-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.
Adeclarator is one of the following:
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| unqualified-idattr (optional) | (1) | |
|
| qualified-idattr (optional) | (2) | |
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...identifierattr (optional) | (3) | (since C++11) |
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*attr (optional)cv (optional)declarator | (4) | |
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nested-name-specifier*attr (optional)cv (optional)declarator | (5) | |
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&attr (optional)declarator | (6) | |
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&&attr (optional)declarator | (7) | (since C++11) |
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noptr-declarator[constant-expression (optional)]attr (optional) | (8) | |
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noptr-declarator(parameter-list)cv (optional)ref (optional)except (optional)attr (optional) | (9) | |
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(declarator) | (10) | |
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1) The
name that is declared.
4)Pointer declarator: the declaration
S* D; declares
D as a pointer to the type determined by
decl-specifier-seqS.
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.
It may end with the optional trailing return type.(since C++11) 10) Parenthesized declarator.
In all cases,attr is an optional sequence ofattributes. When appearing immediately after the identifier, it applies to the object being declared. | (since C++11) |
cv is a sequence ofconst 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 |
When ablock-declaration appearsinside a block, and an identifier introduced by a declaration was previously declared in an outer block, theouter 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: viaexception,goto, or by reaching its end), in order opposite to their order of initialization.
[edit]Example
Note: this example demonstrates how some complex declarations are parsed in terms of the language grammar. Other popular mnemonics are:the spiral rule, readinginside-out, anddeclaration mirrors use. There is also an automated parser athttps://cdecl.org.
#include <type_traits> struct S{int member;// decl-specifier-seq is "int"// declarator is "member"} obj,*pObj(&obj);// decl-specifier-seq is "struct S { int member; }"// declarator "obj" declares an object of type S// declarator "*pObj" declares a pointer to S,// and initializer "(&obj)" initializes it int i=1,*p= nullptr, f(),(*pf)(double);// decl-specifier-seq is "int"// declarator "i" declares a variable of type int,// and initializer "= 1" initializes it// declarator "*p" declares a variable of type int*,// and initializer "= nullptr" initializes it// declarator "f()" declares (but doesn't define)// a function taking no arguments and returning int// declarator "(*pf)(double)" declares a pointer to function// taking double and returning int int(*(*var1)(double))[3]= nullptr;// decl-specifier-seq is "int"// declarator is "(*(*var1)(double))[3]"// initializer is "= nullptr" // 1. declarator "(*(*var1)(double))[3]" is an array declarator:// Type declared is: "(*(*var1)(double))" array of 3 elements// 2. declarator "(*(*var1)(double))" is a pointer declarator:// Type declared is: "(*var1)(double)" pointer to array of 3 elements// 3. declarator "(*var1)(double)" is a function declarator:// Type declared is: "(*var1)" function taking "(double)",// returning pointer to array of 3 elements.// 4. declarator "(*var1)" is a pointer declarator:// Type declared is: "var1" pointer to function taking "(double)",// returning pointer to array of 3 elements.// 5. declarator "var1" is an identifier.// This declaration declares the object var1 of type "pointer to function// taking double and returning pointer to array of 3 elements of type int"// The initializer "= nullptr" provides the initial value of this pointer. // C++11 alternative syntax:auto(*var2)(double)->int(*)[3]= nullptr;// decl-specifier-seq is "auto"// declarator is "(*var2)(double) -> int (*)[3]"// initializer is "= nullptr" // 1. declarator "(*var2)(double) -> int (*)[3]" is a function declarator:// Type declared is: "(*var2)" function taking "(double)", returning "int (*)[3]"// ... int main(){ static_assert(std::is_same_v<decltype(var1), decltype(var2)>);}[edit]Defect reports
The following behavior-changing defect reports were applied retroactively to previously published C++ standards.
| DR | Applied to | Behavior as published | Correct behavior |
|---|
| CWG 482 | C++98 | the declarators of redeclarations could not be qualified | qualified declarators allowed |
| CWG 569 | C++98 | a single standalone semicolon was not a valid declaration | it is an empty declaration,
which has no effect |
| CWG 1830 | C++98 | repetition of a function specifier in adecl-specifier-seq was allowed | repetition is forbidden |
[edit]See also
