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/**
* @file llassoclist.h
* @brief LLAssocList class header file
*
* Copyright (c) 2001-$CurrentYear$, Linden Research, Inc.
* $License$
*/
#ifndef LL_LLASSOCLIST_H
#define LL_LLASSOCLIST_H
//------------------------------------------------------------------------
// LLAssocList is an associative list container class.
//
// The implementation is a single linked list.
// Both index and value objects are stored by value (not reference).
// If pointer values are specified for index and/or value, this
// container does NOT assume ownership of the referenced objects,
// and does NOT delete() them on removal or destruction of the container.
//
// Note that operations are generally not optimized, and may of them
// are O(n) complexity.
//------------------------------------------------------------------------
#include <iostream>
template<class INDEX_TYPE, class VALUE_TYPE>
class LLAssocList
{
private:
// internal list node type
class Node
{
public:
Node(const INDEX_TYPE &index, const VALUE_TYPE &value, Node *next)
{
mIndex = index;
mValue = value;
mNext = next;
}
~Node() { }
INDEX_TYPE mIndex;
VALUE_TYPE mValue;
Node *mNext;
};
// head of the linked list
Node *mHead;
public:
// Constructor
LLAssocList()
{
mHead = NULL;
}
// Destructor
~LLAssocList()
{
removeAll();
}
// Returns TRUE if list is empty.
BOOL isEmpty()
{
return (mHead == NULL);
}
// Returns the number of items in the list.
U32 length()
{
U32 count = 0;
for ( Node *node = mHead;
node;
node = node->mNext )
{
count++;
}
return count;
}
// Removes item with the specified index.
BOOL remove( const INDEX_TYPE &index )
{
if (!mHead)
return FALSE;
if (mHead->mIndex == index)
{
Node *node = mHead;
mHead = mHead->mNext;
delete node;
return TRUE;
}
for ( Node *prev = mHead;
prev->mNext;
prev = prev->mNext )
{
if (prev->mNext->mIndex == index)
{
Node *node = prev->mNext;
prev->mNext = prev->mNext->mNext;
delete node;
return TRUE;
}
}
return FALSE;
}
// Removes all items from the list.
void removeAll()
{
while ( mHead )
{
Node *node = mHead;
mHead = mHead->mNext;
delete node;
}
}
// Adds a new item to the head of the list,
// removing any existing item with same index.
void addToHead( const INDEX_TYPE &index, const VALUE_TYPE &value )
{
remove(index);
Node *node = new Node(index, value, mHead);
mHead = node;
}
// Adds a new item to the end of the list,
// removing any existing item with the same index.
void addToTail( const INDEX_TYPE &index, const VALUE_TYPE &value )
{
remove(index);
Node *node = new Node(index, value, NULL);
if (!mHead)
{
mHead = node;
return;
}
for ( Node *prev=mHead;
prev;
prev=prev->mNext )
{
if (!prev->mNext)
{
prev->mNext=node;
return;
}
}
}
// Sets the value of a specified index.
// If index does not exist, a new value will be added only if
// 'addIfNotFound' is set to TRUE.
// Returns TRUE if successful.
BOOL setValue( const INDEX_TYPE &index, const VALUE_TYPE &value, BOOL addIfNotFound=FALSE )
{
VALUE_TYPE *valueP = getValue(index);
if (valueP)
{
*valueP = value;
return TRUE;
}
if (!addIfNotFound)
return FALSE;
addToTail(index, value);
return TRUE;
}
// Sets the ith value in the list.
// A new value will NOT be addded, if the ith value does not exist.
// Returns TRUE if successful.
BOOL setValueAt( U32 i, const VALUE_TYPE &value )
{
VALUE_TYPE *valueP = getValueAt(i);
if (valueP)
{
*valueP = value;
return TRUE;
}
return FALSE;
}
// Returns a pointer to the value for the specified index,
// or NULL if no item found.
VALUE_TYPE *getValue( const INDEX_TYPE &index )
{
for ( Node *node = mHead;
node;
node = node->mNext )
{
if (node->mIndex == index)
return &node->mValue;
}
return NULL;
}
// Returns a pointer to the ith value in the list, or
// NULL if i is not valid.
VALUE_TYPE *getValueAt( U32 i )
{
U32 count = 0;
for ( Node *node = mHead;
node;
node = node->mNext )
{
if (count == i)
return &node->mValue;
count++;
}
return NULL;
}
// Returns a pointer to the index for the specified index,
// or NULL if no item found.
INDEX_TYPE *getIndex( const INDEX_TYPE &index )
{
for ( Node *node = mHead;
node;
node = node->mNext )
{
if (node->mIndex == index)
return &node->mIndex;
}
return NULL;
}
// Returns a pointer to the ith index in the list, or
// NULL if i is not valid.
INDEX_TYPE *getIndexAt( U32 i )
{
U32 count = 0;
for ( Node *node = mHead;
node;
node = node->mNext )
{
if (count == i)
return &node->mIndex;
count++;
}
return NULL;
}
// Returns a pointer to the value for the specified index,
// or NULL if no item found.
VALUE_TYPE *operator[](const INDEX_TYPE &index)
{
return getValue(index);
}
// Returns a pointer to the ith value in the list, or
// NULL if i is not valid.
VALUE_TYPE *operator[](U32 i)
{
return getValueAt(i);
}
// Prints the list contents to the specified stream.
friend std::ostream &operator<<( std::ostream &os, LLAssocList &map )
{
os << "{";
for ( Node *node = map.mHead;
node;
node = node->mNext )
{
os << "<" << node->mIndex << ", " << node->mValue << ">";
if (node->mNext)
os << ", ";
}
os << "}";
return os;
}
};
#endif // LL_LLASSOCLIST_H
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