9.0 KiB
[dcl.array]
9 Declarations [dcl]
9.3 Declarators [dcl.decl]
9.3.4 Meaning of declarators [dcl.meaning]
9.3.4.5 Arrays [dcl.array]
In a declaration T D where D has the form
D1 [ constant-expressionopt ] attribute-specifier-seqopt
and the type of the contained declarator-id in the declaration T D1 is âderived-declarator-type-list Tâ, the type of the declarator-id in D is âderived-declarator-type-list array of N Tâ.
The constant-expression shall be a converted constant expression of type std::size_t ([expr.const]).
Its value N specifies the array bound, i.e., the number of elements in the array;N shall be greater than zero.
In a declaration T D where D has the form
D1 [ ] attribute-specifier-seqopt
and the type of the contained declarator-id in the declaration T D1 is âderived-declarator-type-list Tâ, the type of the declarator-id in D is âderived-declarator-type-list array of unknown bound of Tâ, except as specified below.
A type of the form âarray of N Uâ or âarray of unknown bound of Uâ is an array type.
The optional attribute-specifier-seq appertains to the array type.
U is called the array element type; this type shall not be a reference type, a function type, an array of unknown bound, orcv void.
[Note 1:
An array can be constructed from one of the fundamental types (except void), from a pointer, from a pointer to member, from a class, from an enumeration type, or from an array of known bound.
â end note]
[Example 1:
float fa[17], *afp[17]; declares an array of float numbers and an array of pointers to float numbers.
â end example]
Any type of the form âcv-qualifier-seq array of N Uâ is adjusted to âarray of N cv-qualifier-seq Uâ, and similarly for âarray of unknown bound of Uâ.
[Example 2: typedef int A[5], AA[2][3];typedef const A CA; // type is âarray of 5 const int''typedef const AA CAA; // type is âarray of 2 array of 3 const int'' â end example]
[Note 2:
An âarray of N cv-qualifier-seq Uâ has cv-qualified type; see [basic.type.qualifier].
â end note]
An object of type âarray of N Uâ consists of a contiguously allocated non-empty set of N subobjects of type U, known as the elements of the array, and numbered 0 to N-1.
In addition to declarations in which an incomplete object type is allowed, an array bound may be omitted in some cases in the declaration of a function parameter ([dcl.fct]).
An array bound may also be omitted when an object (but not a non-static data member) of array type is initialized and the declarator is followed by an initializer ([dcl.init], [class.mem], [expr.type.conv], [expr.new]).
In these cases, the array bound is calculated from the number of initial elements (say, N) supplied ([dcl.init.aggr]), and the type of the array is âarray of N Uâ.
Furthermore, if there is a reachable declaration of the entity that specifies a bound and has the same host scope ([basic.scope.scope]), an omitted array bound is taken to be the same as in that earlier declaration, and similarly for the definition of a static data member of a class.
[Example 3: extern int x[10];struct S {static int y[10];};
int x[]; // OK, bound is 10int S::y[]; // OK, bound is 10void f() {extern int x[]; int i = sizeof(x); // error: incomplete object type}namespace A { extern int z[3]; }int A::z[] = {}; // OK, defines an array of 3 elements â end example]
[Note 3:
When several âarray ofâ specifications are adjacent, a multidimensional array type is created; only the first of the constant expressions that specify the bounds of the arrays can be omitted.
[Example 4:
int x3d[3][5][7]; declares an array of three elements, each of which is an array of five elements, each of which is an array of seven integers.
The overall array can be viewed as a three-dimensional array of integers, with rank 3 ×5 ×7.
Any of the expressionsx3d,x3d[i],x3d[i][j],x3d[i][j][k] can reasonably appear in an expression.
The expressionx3d[i] is equivalent to*(x3d + i); in that expression,x3d is subject to the array-to-pointer conversion ([conv.array]) and is first converted to a pointer to a 2-dimensional array with rank5 ×7 that points to the first element of x3d.
Then i is added, which on typical implementations involves multiplyingi by the length of the object to which the pointer points, which is sizeof(int)×5 ×7.
The result of the addition and indirection is an lvalue denoting the ith array element ofx3d (an array of five arrays of seven integers).
If there is another subscript, the same argument applies again, sox3d[i][j] is an lvalue denoting the jth array element of the ith array element ofx3d (an array of seven integers), andx3d[i][j][k] is an lvalue denoting the kth array element of the jth array element of the ith array element ofx3d (an integer).
â end example]
The first subscript in the declaration helps determine the amount of storage consumed by an array but plays no other part in subscript calculations.
â end note]
[Note 4:
Conversions affecting expressions of array type are described in [conv.array].
â end note]
[Note 5:
The subscript operator can be overloaded for a class ([over.sub]).
For the operator's built-in meaning, see [expr.sub].
â end note]