ACE_Array_Map< Key, Value, EqualTo > Class Template Reference

Light weight array-based map with fast iteration, but linear (i.e. O(n)) search times. More...

#include <Array_Map.h>

List of all members.

Public Types

typedef Key key_type
typedef Value data_type
typedef std::pair< key_type,
data_type
value_type
typedef value_typeiterator
typedef value_type const * const_iterator
typedef value_typereference
typedef value_type const & const_reference
typedef value_typepointer
typedef value_type const * const_pointer
typedef ptrdiff_t difference_type
typedef size_t size_type

Public Member Functions

ACE_DECLARE_STL_REVERSE_ITERATORS ACE_Array_Map (size_type s=0)
 Default Constructor.
template<typename InputIterator>
 ACE_Array_Map (InputIterator f, InputIterator l)
 ACE_Array_Map (ACE_Array_Map const &map)
ACE_Array_Mapoperator= (ACE_Array_Map const &map)
 ~ACE_Array_Map (void)
 Destructor.
size_type size (void) const
 Return current size of map.
size_type max_size (void) const
 Maximum number of elements the map can hold.
bool is_empty (void) const
 Return true if the map is empty, else false.
bool empty (void) const
void swap (ACE_Array_Map &map)
std::pair< iterator, bool > insert (value_type const &x)
 Insert the value x into the map.
template<typename InputIterator>
void insert (InputIterator f, InputIterator l)
 Insert range of elements into map.
void erase (iterator pos)
 Remove element at position pos from the map.
size_type erase (key_type const &k)
 Remove element corresponding to key k from the map.
void erase (iterator first, iterator last)
 Remove range of elements [first, last) from the map.
void clear (void)
 Clear contents of map.
size_type count (key_type const &k)
 Count the number of elements corresponding to key k.
data_typeoperator[] (key_type const &k)
 Convenience array index operator.
Forward Iterator Accessors
Forward iterator accessors.

iterator begin (void)
iterator end (void)
const_iterator begin (void) const
const_iterator end (void) const
Reverse Iterator Accessors
Reverse iterator accessors.

reverse_iterator rbegin (void)
reverse_iterator rend (void)
const_reverse_iterator rbegin (void) const
const_reverse_iterator rend (void) const
Search Operations
Search the map for data corresponding to key k.

iterator find (key_type const &k)
const_iterator find (key_type const &k) const

Private Member Functions

void grow (size_type s)
 Increase size of underlying buffer by s.

Private Attributes

size_type size_
 Number of elements in the map.
size_type capacity_
 Current size of underlying array.
value_typenodes_
 Underlying array containing keys and data.


Detailed Description

template<typename Key, typename Value, class EqualTo = std::equal_to<Key>>
class ACE_Array_Map< Key, Value, EqualTo >

Light weight array-based map with fast iteration, but linear (i.e. O(n)) search times.

Map implementation that focuses on small footprint and fast iteration. Search times are, however, linear (O(n)) meaning that this map isn't suitable for large data sets that will be searched in performance critical areas of code. Iteration over large data sets, however, is faster than linked list-based maps, for example, since spatial locality is maximized through the use of contiguous arrays as the underlying storage.

An ACE_Array_Map is a unique associative container, meaning that duplicate values may not be added to the map. It is also pair associative (value_type is a std::pair<>). It is not a sorted container.
An STL std::map -like interface is exposed by this class portability. Furthermore, this map's iterators are compatible with STL algorithms.
Requirements and Performance Characteristics
  • Internal Structure Array
  • Duplicates allowed? No
  • Random access allowed? Yes
  • Search speed O(n)
  • Insert/replace speed O(n), can be longer if the map has to resize
  • Iterator still valid after change to container? No
  • Frees memory for removed elements? Yes
  • Items inserted by Value
  • Requirements for key type
    1. Default constructor
    2. Copy constructor
    3. operator=
    4. operator==
  • Requirements for object type
    1. Default constructor
    2. Copy constructor
    3. operator=

Member Typedef Documentation

template<typename Key, typename Value, class EqualTo = std::equal_to<Key>>
typedef Key ACE_Array_Map< Key, Value, EqualTo >::key_type

template<typename Key, typename Value, class EqualTo = std::equal_to<Key>>
typedef Value ACE_Array_Map< Key, Value, EqualTo >::data_type

template<typename Key, typename Value, class EqualTo = std::equal_to<Key>>
typedef std::pair<key_type, data_type> ACE_Array_Map< Key, Value, EqualTo >::value_type

template<typename Key, typename Value, class EqualTo = std::equal_to<Key>>
typedef value_type* ACE_Array_Map< Key, Value, EqualTo >::iterator

template<typename Key, typename Value, class EqualTo = std::equal_to<Key>>
typedef value_type const* ACE_Array_Map< Key, Value, EqualTo >::const_iterator

template<typename Key, typename Value, class EqualTo = std::equal_to<Key>>
typedef value_type& ACE_Array_Map< Key, Value, EqualTo >::reference

template<typename Key, typename Value, class EqualTo = std::equal_to<Key>>
typedef value_type const& ACE_Array_Map< Key, Value, EqualTo >::const_reference

template<typename Key, typename Value, class EqualTo = std::equal_to<Key>>
typedef value_type* ACE_Array_Map< Key, Value, EqualTo >::pointer

template<typename Key, typename Value, class EqualTo = std::equal_to<Key>>
typedef value_type const* ACE_Array_Map< Key, Value, EqualTo >::const_pointer

template<typename Key, typename Value, class EqualTo = std::equal_to<Key>>
typedef ptrdiff_t ACE_Array_Map< Key, Value, EqualTo >::difference_type

template<typename Key, typename Value, class EqualTo = std::equal_to<Key>>
typedef size_t ACE_Array_Map< Key, Value, EqualTo >::size_type


Constructor & Destructor Documentation

template<typename Key, typename Value, class EqualTo = std::equal_to<Key>>
ACE_DECLARE_STL_REVERSE_ITERATORS ACE_Array_Map< Key, Value, EqualTo >::ACE_Array_Map ( size_type  s = 0  ) 

Default Constructor.

Create an empty map with a preallocated buffer of size s.

template<typename Key, typename Value, class EqualTo>
template<typename InputIterator>
ACE_BEGIN_VERSIONED_NAMESPACE_DECL ACE_Array_Map< Key, Value, EqualTo >::ACE_Array_Map ( InputIterator  f,
InputIterator  l 
) [inline]

template<typename Key, typename Value, class EqualTo>
ACE_Array_Map< Key, Value, EqualTo >::ACE_Array_Map ( ACE_Array_Map< Key, Value, EqualTo > const &  map  )  [inline]

template<typename Key, typename Value, class EqualTo>
ACE_Array_Map< Key, Value, EqualTo >::~ACE_Array_Map ( void   )  [inline]

Destructor.


Member Function Documentation

template<typename Key, typename Value, class EqualTo>
ACE_INLINE ACE_Array_Map< Key, Value, EqualTo > & ACE_Array_Map< Key, Value, EqualTo >::operator= ( ACE_Array_Map< Key, Value, EqualTo > const &  map  )  [inline]

template<typename Key, typename Value, class EqualTo>
ACE_INLINE ACE_Array_Map< Key, Value, EqualTo >::iterator ACE_Array_Map< Key, Value, EqualTo >::begin ( void   )  [inline]

template<typename Key, typename Value, class EqualTo>
ACE_INLINE ACE_Array_Map< Key, Value, EqualTo >::iterator ACE_Array_Map< Key, Value, EqualTo >::end ( void   )  [inline]

template<typename Key, typename Value, class EqualTo>
ACE_INLINE ACE_Array_Map< Key, Value, EqualTo >::const_iterator ACE_Array_Map< Key, Value, EqualTo >::begin ( void   )  const [inline]

template<typename Key, typename Value, class EqualTo>
ACE_INLINE ACE_Array_Map< Key, Value, EqualTo >::const_iterator ACE_Array_Map< Key, Value, EqualTo >::end ( void   )  const [inline]

template<typename Key, typename Value, class EqualTo>
ACE_INLINE ACE_Array_Map< Key, Value, EqualTo >::reverse_iterator ACE_Array_Map< Key, Value, EqualTo >::rbegin ( void   )  [inline]

template<typename Key, typename Value, class EqualTo>
ACE_INLINE ACE_Array_Map< Key, Value, EqualTo >::reverse_iterator ACE_Array_Map< Key, Value, EqualTo >::rend ( void   )  [inline]

template<typename Key, typename Value, class EqualTo>
ACE_INLINE ACE_Array_Map< Key, Value, EqualTo >::const_reverse_iterator ACE_Array_Map< Key, Value, EqualTo >::rbegin ( void   )  const [inline]

template<typename Key, typename Value, class EqualTo>
ACE_INLINE ACE_Array_Map< Key, Value, EqualTo >::const_reverse_iterator ACE_Array_Map< Key, Value, EqualTo >::rend ( void   )  const [inline]

template<typename Key, typename Value, class EqualTo>
ACE_INLINE ACE_Array_Map< Key, Value, EqualTo >::size_type ACE_Array_Map< Key, Value, EqualTo >::size ( void   )  const [inline]

Return current size of map.

Returns:
The number of elements in the map.

template<typename Key, typename Value, class EqualTo>
ACE_INLINE ACE_Array_Map< Key, Value, EqualTo >::size_type ACE_Array_Map< Key, Value, EqualTo >::max_size ( void   )  const [inline]

Maximum number of elements the map can hold.

template<typename Key, typename Value, class EqualTo>
ACE_INLINE bool ACE_Array_Map< Key, Value, EqualTo >::is_empty ( void   )  const [inline]

Return true if the map is empty, else false.

template<typename Key, typename Value, class EqualTo>
ACE_INLINE bool ACE_Array_Map< Key, Value, EqualTo >::empty ( void   )  const [inline]

Return true if the map is empty, else false. We recommend using is_empty() instead since it's more consistent with the ACE container naming conventions.

template<typename Key, typename Value, class EqualTo>
void ACE_Array_Map< Key, Value, EqualTo >::swap ( ACE_Array_Map< Key, Value, EqualTo > &  map  )  [inline]

Swap the contents of this map with the given map in an exception-safe manner.

template<typename Key, typename Value, class EqualTo = std::equal_to<Key>>
std::pair<iterator, bool> ACE_Array_Map< Key, Value, EqualTo >::insert ( value_type const &  x  ) 

Insert the value x into the map.

STL-style map insertion method.

Parameters:
x std::pair containing key and datum.
Returns:
std::pair::second will be false if the map already contains a value with the same key as x.

template<typename Key, typename Value, class EqualTo>
template<typename InputIterator>
void ACE_Array_Map< Key, Value, EqualTo >::insert ( InputIterator  f,
InputIterator  l 
) [inline]

Insert range of elements into map.

template<typename Key, typename Value, class EqualTo = std::equal_to<Key>>
void ACE_Array_Map< Key, Value, EqualTo >::erase ( iterator  pos  ) 

Remove element at position pos from the map.

template<typename Key, typename Value, class EqualTo = std::equal_to<Key>>
size_type ACE_Array_Map< Key, Value, EqualTo >::erase ( key_type const &  k  ) 

Remove element corresponding to key k from the map.

Returns:
Number of elements that were erased.

template<typename Key, typename Value, class EqualTo = std::equal_to<Key>>
void ACE_Array_Map< Key, Value, EqualTo >::erase ( iterator  first,
iterator  last 
)

Remove range of elements [first, last) from the map.

Note:
[first, last) must be valid range within the map.

template<typename Key, typename Value, class EqualTo>
void ACE_Array_Map< Key, Value, EqualTo >::clear ( void   )  [inline]

Clear contents of map.

Note:
This a constant time (O(1)) operation.

template<typename Key, typename Value, class EqualTo = std::equal_to<Key>>
iterator ACE_Array_Map< Key, Value, EqualTo >::find ( key_type const &  k  ) 

Returns:
end() if data corresponding to key k is not in the map.

template<typename Key, typename Value, class EqualTo = std::equal_to<Key>>
const_iterator ACE_Array_Map< Key, Value, EqualTo >::find ( key_type const &  k  )  const

Returns:
end() if data corresponding to key k is not in the map.

template<typename Key, typename Value, class EqualTo = std::equal_to<Key>>
size_type ACE_Array_Map< Key, Value, EqualTo >::count ( key_type const &  k  ) 

Count the number of elements corresponding to key k.

Returns:
In the case of this map, the count will always be one if such exists in the map.

template<typename Key, typename Value, class EqualTo = std::equal_to<Key>>
data_type& ACE_Array_Map< Key, Value, EqualTo >::operator[] ( key_type const &  k  ) 

Convenience array index operator.

Array index operator that allows insertion and retrieval of elements using an array index syntax, such as:

map["Foo"] = 12;

template<typename Key, typename Value, class EqualTo = std::equal_to<Key>>
void ACE_Array_Map< Key, Value, EqualTo >::grow ( size_type  s  )  [private]

Increase size of underlying buffer by s.


Member Data Documentation

template<typename Key, typename Value, class EqualTo = std::equal_to<Key>>
size_type ACE_Array_Map< Key, Value, EqualTo >::size_ [private]

Number of elements in the map.

template<typename Key, typename Value, class EqualTo = std::equal_to<Key>>
size_type ACE_Array_Map< Key, Value, EqualTo >::capacity_ [private]

Current size of underlying array.

Note:
capacity_ is always greater than or equal to size_;

template<typename Key, typename Value, class EqualTo = std::equal_to<Key>>
value_type* ACE_Array_Map< Key, Value, EqualTo >::nodes_ [private]

Underlying array containing keys and data.


The documentation for this class was generated from the following files:

Generated on Wed Apr 23 02:37:58 2008 for ACE by  doxygen 1.5.5