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Showing content from https://cplusplus.com/reference/array/array/ below:

class template

<array>

template < class T, size_t N > class array;

Array class

Internally, an array does not keep any data other than the elements it contains (not even its size, which is a template parameter, fixed on compile time). It is as efficient in terms of storage size as an ordinary array declared with the language's bracket syntax ([]). This class merely adds a layer of member and global functions to it, so that arrays can be used as standard containers.

Unlike the other standard containers, arrays have a fixed size and do not manage the allocation of its elements through an allocator: they are an aggregate type encapsulating a fixed-size array of elements. Therefore, they cannot be expanded or contracted dynamically (see vector for a similar container that can be expanded).

Zero-sized arrays are valid, but they should not be dereferenced (members front, back, and data).

Unlike with the other containers in the Standard Library, swapping two array containers is a linear operation that involves swapping all the elements in the ranges individually, which generally is a considerably less efficient operation. On the other side, this allows the iterators to elements in both containers to keep their original container association.

Another unique feature of array containers is that they can be treated as tuple objects: The <array> header overloads the get function to access the elements of the array as if it was a tuple, as well as specialized tuple_size and tuple_element types.

Sequence

Elements in sequence containers are ordered in a strict linear sequence. Individual elements are accessed by their position in this sequence.

Contiguous storage

The elements are stored in contiguous memory locations, allowing constant time random access to elements. Pointers to an element can be offset to access other elements.

Fixed-size aggregate

The container uses implicit constructors and destructors to allocate the required space statically. Its size is compile-time constant. No memory or time overhead.

T

Type of the elements contained.
Aliased as member type array::value_type.

N

Size of the array, in terms of number of elements.

begin

Return iterator to beginning (public member function)

end

Return iterator to end (public member function)

rbegin

Return reverse iterator to reverse beginning (public member function)

rend

Return reverse iterator to reverse end (public member function)

cbegin

Return const_iterator to beginning (public member function)

cend

Return const_iterator to end (public member function)

crbegin

Return const_reverse_iterator to reverse beginning (public member function)

crend

Return const_reverse_iterator to reverse end (public member function)

size

Return size (public member function)

max_size

Return maximum size (public member function)

empty

Test whether array is empty (public member function)

operator[]

Access element (public member function)

at

Access element (public member function)

front

Access first element (public member function)

back

Access last element (public member function)

data

Get pointer to data (public member function)

fill

Fill array with value (public member function)

swap

Swap content (public member function)

get (array)

Get element (tuple interface) (function template)

relational operators (array)

Relational operators for array (function template)

tuple_element<array>

Tuple element type for array (class template specialization)

tuple_size<array>

Tuple size traits for array (class template specialization)

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