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Class template array

boost::array — STL compliant container wrapper for arrays of constant size

Synopsis

// In header: <boost/array.hpp>

template<typename T, std::size_t N> 
class array {
public:
  // types
  typedef T                                     value_type;            
  typedef T*                                    iterator;              
  typedef const T*                              const_iterator;        
  typedef std::reverse_iterator<iterator>       reverse_iterator;      
  typedef std::reverse_iterator<const_iterator> const_reverse_iterator;
  typedef T&                                    reference;             
  typedef const T&                              const_reference;       
  typedef std::size_t                           size_type;             
  typedef std::ptrdiff_t                        difference_type;       

  // static constants
  static const size_type static_size = N;

  // construct/copy/destruct
  template<typename U> array& operator=(const array<U, N>&);

  // iterator support
  iterator begin();
  const_iterator begin() const;
  iterator end();
  const_iterator end() const;

  // reverse iterator support
  reverse_iterator rbegin();
  const_reverse_iterator rbegin() const;
  reverse_iterator rend();
  const_reverse_iterator rend() const;

  // capacity
  size_type size();
  bool empty();
  size_type max_size();

  // element access
  reference operator[](size_type);
  const_reference operator[](size_type) const;
  reference at(size_type);
  const_reference at(size_type) const;
  reference front();
  const_reference front() const;
  reference back();
  const_reference back() const;
  const T* data() const;
  T* c_array();

  // modifiers
  void swap(array<T, N>&);
  void assign(const T&);

  // public data members
  T elems[N];
};

// specialized algorithms
template<typename T, std::size_t N> void swap(array<T, N>&, array<T, N>&);

// comparisons
template<typename T, std::size_t N> 
  bool operator==(const array<T, N>&, const array<T, N>&);
template<typename T, std::size_t N> 
  bool operator!=(const array<T, N>&, const array<T, N>&);
template<typename T, std::size_t N> 
  bool operator<(const array<T, N>&, const array<T, N>&);
template<typename T, std::size_t N> 
  bool operator>(const array<T, N>&, const array<T, N>&);
template<typename T, std::size_t N> 
  bool operator<=(const array<T, N>&, const array<T, N>&);
template<typename T, std::size_t N> 
  bool operator>=(const array<T, N>&, const array<T, N>&);

Description

array public construct/copy/destruct

  1. template<typename U> array& operator=(const array<U, N>& other);

    Effects:

    std::copy(rhs.begin(),rhs.end(), begin())

array iterator support

  1. iterator begin();
    const_iterator begin() const;

    Returns:

    iterator for the first element

    Throws:

    will not throw
  2. iterator end();
    const_iterator end() const;

    Returns:

    iterator for position after the last element

    Throws:

    will not throw

array reverse iterator support

  1. reverse_iterator rbegin();
    const_reverse_iterator rbegin() const;

    Returns:

    reverse iterator for the first element of reverse iteration
  2. reverse_iterator rend();
    const_reverse_iterator rend() const;

    Returns:

    reverse iterator for position after the last element in reverse iteration

array capacity

  1. size_type size();

    Returns:

    N
  2. bool empty();

    Returns:

    N==0

    Throws:

    will not throw
  3. size_type max_size();

    Returns:

    N

    Throws:

    will not throw

array element access

  1. reference operator[](size_type i);
    const_reference operator[](size_type i) const;

    Requires:

    i < N

    Returns:

    element with index i

    Throws:

    will not throw.
  2. reference at(size_type i);
    const_reference at(size_type i) const;

    Returns:

    element with index i

    Throws:

    std::range_error if i >= N
  3. reference front();
    const_reference front() const;

    Requires:

    N > 0

    Returns:

    the first element

    Throws:

    will not throw
  4. reference back();
    const_reference back() const;

    Requires:

    N > 0

    Returns:

    the last element

    Throws:

    will not throw
  5. const T* data() const;

    Returns:

    elems

    Throws:

    will not throw
  6. T* c_array();

    Returns:

    elems

    Throws:

    will not throw

array modifiers

  1. void swap(array<T, N>& other);

    Effects:

    std::swap_ranges(begin(), end(), other.begin())

    Complexity:

    linear in N
  2. void assign(const T& value);

    Effects:

    std::fill_n(begin(), N, value)

array specialized algorithms

  1. template<typename T, std::size_t N> void swap(array<T, N>& x, array<T, N>& y);

    Effects:

    x.swap(y)

    Throws:

    will not throw.

array comparisons

  1. template<typename T, std::size_t N> 
      bool operator==(const array<T, N>& x, const array<T, N>& y);

    Returns:

    std::equal(x.begin(), x.end(), y.begin())
  2. template<typename T, std::size_t N> 
      bool operator!=(const array<T, N>& x, const array<T, N>& y);

    Returns:

    !(x == y)
  3. template<typename T, std::size_t N> 
      bool operator<(const array<T, N>& x, const array<T, N>& y);

    Returns:

    std::lexicographical_compare(x.begin(), x.end(), y.begin(), y.end())
  4. template<typename T, std::size_t N> 
      bool operator>(const array<T, N>& x, const array<T, N>& y);

    Returns:

    y < x
  5. template<typename T, std::size_t N> 
      bool operator<=(const array<T, N>& x, const array<T, N>& y);

    Returns:

    !(y < x)
  6. template<typename T, std::size_t N> 
      bool operator>=(const array<T, N>& x, const array<T, N>& y);

    Returns:

    !(x < y)

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