ACE_Unbounded_Set< T > Class Template Reference

Implement a simple unordered set of <T> of unbounded size. More...

#include <Unbounded_Set.h>

Collaboration diagram for ACE_Unbounded_Set< T >:

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List of all members.

Public Types

typedef ACE_Unbounded_Set_Iterator<
T > 
ITERATOR
typedef ACE_Unbounded_Set_Iterator<
T > 
iterator
typedef ACE_Unbounded_Set_Const_Iterator<
T > 
CONST_ITERATOR
typedef ACE_Unbounded_Set_Const_Iterator<
T > 
const_iterator

Public Member Functions

 ACE_Unbounded_Set (ACE_Allocator *alloc=0)
 ACE_Unbounded_Set (const ACE_Unbounded_Set< T > &)
 Copy constructor.
ACE_Unbounded_Set< T > & operator= (const ACE_Unbounded_Set< T > &)
 Assignment operator.
 ~ACE_Unbounded_Set (void)
 Destructor.
int is_empty (void) const
 Returns 1 if the container is empty, otherwise returns 0.
int is_full (void) const
 Returns 0.
int insert (const T &new_item)
 Linear insertion of an item.
int insert_tail (const T &item)
int remove (const T &item)
 Linear remove operation.
int find (const T &item) const
size_t size (void) const
 Size of the set.
void dump (void) const
 Dump the state of an object.
void reset (void)
 Reset the <ACE_Unbounded_Set> to be empty.
ACE_Unbounded_Set_Iterator<
T > 
begin (void)
ACE_Unbounded_Set_Iterator<
T > 
end (void)

Public Attributes

 ACE_ALLOC_HOOK_DECLARE
 Declare the dynamic allocation hooks.

Private Member Functions

void delete_nodes (void)
 Delete all the nodes in the Set.
void copy_nodes (const ACE_Unbounded_Set< T > &)
 Copy nodes into this set.

Private Attributes

ACE_Node< T > * head_
 Head of the linked list of Nodes.
size_t cur_size_
 Current size of the set.
ACE_Allocatorallocator_
 Allocation strategy of the set.

Friends

class ACE_Unbounded_Set_Iterator< T >
class ACE_Unbounded_Set_Const_Iterator< T >

Detailed Description

template<class T>
class ACE_Unbounded_Set< T >

Implement a simple unordered set of <T> of unbounded size.

This implementation of an unordered set uses a circular linked list with a dummy node. This implementation does not allow duplicates, but it maintains FIFO ordering of insertions.

Requirements and Performance Characteristics


Member Typedef Documentation

template<class T>
typedef ACE_Unbounded_Set_Const_Iterator<T> ACE_Unbounded_Set< T >::const_iterator

template<class T>
typedef ACE_Unbounded_Set_Const_Iterator<T> ACE_Unbounded_Set< T >::CONST_ITERATOR

template<class T>
typedef ACE_Unbounded_Set_Iterator<T> ACE_Unbounded_Set< T >::iterator

template<class T>
typedef ACE_Unbounded_Set_Iterator<T> ACE_Unbounded_Set< T >::ITERATOR


Constructor & Destructor Documentation

template<class T>
ACE_Unbounded_Set< T >::ACE_Unbounded_Set ( ACE_Allocator alloc = 0  ) 

Initialize an empty set using the allocation strategy of the user if provided.

template<class T>
ACE_Unbounded_Set< T >::ACE_Unbounded_Set ( const ACE_Unbounded_Set< T > &   ) 

Copy constructor.

Initialize this set to be an exact copy of the set provided.

template<class T>
ACE_Unbounded_Set< T >::~ACE_Unbounded_Set ( void   ) 

Destructor.

Destroy the nodes of the set.


Member Function Documentation

template<class T>
ACE_Unbounded_Set_Iterator< T > ACE_Unbounded_Set< T >::begin ( void   ) 

template<class T>
void ACE_Unbounded_Set< T >::copy_nodes ( const ACE_Unbounded_Set< T > &   )  [private]

Copy nodes into this set.

template<class T>
void ACE_Unbounded_Set< T >::delete_nodes ( void   )  [private]

Delete all the nodes in the Set.

template<class T>
void ACE_Unbounded_Set< T >::dump ( void   )  const

Dump the state of an object.

template<class T>
ACE_Unbounded_Set_Iterator< T > ACE_Unbounded_Set< T >::end ( void   ) 

template<class T>
int ACE_Unbounded_Set< T >::find ( const T &  item  )  const

Performs a linear find operation.

template<class T>
int ACE_Unbounded_Set< T >::insert ( const T &  new_item  ) 

Linear insertion of an item.

Insert new_item into the set (doesn't allow duplicates). Returns -1 if failures occur, 1 if item is already present, else 0.

template<class T>
int ACE_Unbounded_Set< T >::insert_tail ( const T &  item  ) 

Constant time insert at the end of the set.

template<class T>
ACE_BEGIN_VERSIONED_NAMESPACE_DECL ACE_INLINE int ACE_Unbounded_Set< T >::is_empty ( void   )  const

Returns 1 if the container is empty, otherwise returns 0.

Constant time is_empty check.

template<class T>
ACE_INLINE int ACE_Unbounded_Set< T >::is_full ( void   )  const

Returns 0.

Always returns 0 since the set can never fill up.

template<class T>
ACE_Unbounded_Set< T > & ACE_Unbounded_Set< T >::operator= ( const ACE_Unbounded_Set< T > &   ) 

Assignment operator.

Perform a deep copy of the rhs into the lhs.

template<class T>
int ACE_Unbounded_Set< T >::remove ( const T &  item  ) 

Linear remove operation.

Remove first occurrence of item from the set. Returns 0 if it removes the item, -1 if it can't find the item, and -1 if a failure occurs.

template<class T>
void ACE_Unbounded_Set< T >::reset ( void   ) 

Reset the <ACE_Unbounded_Set> to be empty.

Delete the nodes of the set.

template<class T>
ACE_BEGIN_VERSIONED_NAMESPACE_DECL size_t ACE_Unbounded_Set< T >::size ( void   )  const

Size of the set.

Access the size of the set.


Friends And Related Function Documentation

template<class T>
friend class ACE_Unbounded_Set_Const_Iterator< T > [friend]

template<class T>
friend class ACE_Unbounded_Set_Iterator< T > [friend]


Member Data Documentation

template<class T>
ACE_Unbounded_Set< T >::ACE_ALLOC_HOOK_DECLARE

Declare the dynamic allocation hooks.

template<class T>
ACE_Allocator* ACE_Unbounded_Set< T >::allocator_ [private]

Allocation strategy of the set.

template<class T>
size_t ACE_Unbounded_Set< T >::cur_size_ [private]

Current size of the set.

template<class T>
ACE_Node<T>* ACE_Unbounded_Set< T >::head_ [private]

Head of the linked list of Nodes.


The documentation for this class was generated from the following files:
Generated on Tue Nov 21 09:22:40 2006 for ACE by  doxygen 1.4.7-1