mirror of
https://github.com/nillerusr/source-engine.git
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359 lines
9.8 KiB
C++
359 lines
9.8 KiB
C++
//========= Copyright Valve Corporation, All rights reserved. ============//
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//
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// Purpose: A dictionary mapping from symbol to structure
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//
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// $Header: $
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// $NoKeywords: $
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//=============================================================================//
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#ifndef UTLDICT_H
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#define UTLDICT_H
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#ifdef _WIN32
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#pragma once
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#endif
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#include "tier0/dbg.h"
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#include "tier1/utlmap.h"
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// Include this because tons of code was implicitly getting utlsymbol or utlvector via utldict.h
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#include "tier1/utlsymbol.h"
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#include "tier0/memdbgon.h"
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enum EDictCompareType
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{
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k_eDictCompareTypeCaseSensitive=0,
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k_eDictCompareTypeCaseInsensitive=1,
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k_eDictCompareTypeFilenames // Slashes and backslashes count as the same character..
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};
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//-----------------------------------------------------------------------------
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// A dictionary mapping from symbol to structure
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//-----------------------------------------------------------------------------
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#define FOR_EACH_DICT( dictName, iteratorName ) \
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for( int iteratorName=dictName.First(); iteratorName != dictName.InvalidIndex(); iteratorName = dictName.Next( iteratorName ) )
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// faster iteration, but in an unspecified order
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#define FOR_EACH_DICT_FAST( dictName, iteratorName ) \
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for ( int iteratorName = 0; iteratorName < dictName.MaxElement(); ++iteratorName ) if ( !dictName.IsValidIndex( iteratorName ) ) continue; else
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//-----------------------------------------------------------------------------
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// A dictionary mapping from symbol to structure
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//-----------------------------------------------------------------------------
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template <class T, class I = int >
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class CUtlDict
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{
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public:
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// constructor, destructor
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// Left at growSize = 0, the memory will first allocate 1 element and double in size
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// at each increment.
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CUtlDict( int compareType = k_eDictCompareTypeCaseInsensitive, int growSize = 0, int initSize = 0 );
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~CUtlDict( );
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void EnsureCapacity( int );
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// gets particular elements
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T& Element( I i );
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const T& Element( I i ) const;
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T& operator[]( I i );
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const T& operator[]( I i ) const;
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// gets element names
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char *GetElementName( I i );
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char const *GetElementName( I i ) const;
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void SetElementName( I i, char const *pName );
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// Number of elements
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unsigned int Count() const;
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// Number of allocated slots
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I MaxElement() const;
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// Checks if a node is valid and in the tree
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bool IsValidIndex( I i ) const;
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// Invalid index
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static I InvalidIndex();
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// Insert method (inserts in order)
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I Insert( const char *pName, const T &element );
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I Insert( const char *pName );
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// Find method
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I Find( const char *pName ) const;
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bool HasElement( const char *pName ) const;
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// Remove methods
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void RemoveAt( I i );
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void Remove( const char *pName );
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void RemoveAll( );
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// Purge memory
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void Purge();
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void PurgeAndDeleteElements(); // Call delete on each element.
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// Iteration methods
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I First() const;
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I Next( I i ) const;
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// Nested typedefs, for code that might need
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// to fish out the index type from a given dict
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typedef I IndexType_t;
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protected:
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typedef CUtlMap<const char *, T, I> DictElementMap_t;
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DictElementMap_t m_Elements;
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};
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//-----------------------------------------------------------------------------
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// constructor, destructor
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//-----------------------------------------------------------------------------
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template <class T, class I>
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CUtlDict<T, I>::CUtlDict( int compareType, int growSize, int initSize ) : m_Elements( growSize, initSize )
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{
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if ( compareType == k_eDictCompareTypeFilenames )
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{
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m_Elements.SetLessFunc( CaselessStringLessThanIgnoreSlashes );
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}
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else if ( compareType == k_eDictCompareTypeCaseInsensitive )
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{
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m_Elements.SetLessFunc( CaselessStringLessThan );
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}
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else
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{
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m_Elements.SetLessFunc( StringLessThan );
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}
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}
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template <class T, class I>
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CUtlDict<T, I>::~CUtlDict()
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{
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Purge();
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}
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template <class T, class I>
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inline void CUtlDict<T, I>::EnsureCapacity( int num )
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{
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return m_Elements.EnsureCapacity( num );
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}
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//-----------------------------------------------------------------------------
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// gets particular elements
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//-----------------------------------------------------------------------------
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template <class T, class I>
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inline T& CUtlDict<T, I>::Element( I i )
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{
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return m_Elements[i];
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}
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template <class T, class I>
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inline const T& CUtlDict<T, I>::Element( I i ) const
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{
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return m_Elements[i];
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}
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//-----------------------------------------------------------------------------
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// gets element names
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//-----------------------------------------------------------------------------
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template <class T, class I>
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inline char *CUtlDict<T, I>::GetElementName( I i )
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{
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return (char *)m_Elements.Key( i );
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}
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template <class T, class I>
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inline char const *CUtlDict<T, I>::GetElementName( I i ) const
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{
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return m_Elements.Key( i );
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}
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template <class T, class I>
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inline T& CUtlDict<T, I>::operator[]( I i )
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{
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return Element(i);
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}
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template <class T, class I>
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inline const T & CUtlDict<T, I>::operator[]( I i ) const
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{
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return Element(i);
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}
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template <class T, class I>
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inline void CUtlDict<T, I>::SetElementName( I i, char const *pName )
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{
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MEM_ALLOC_CREDIT_CLASS();
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// TODO: This makes a copy of the old element
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// TODO: This relies on the rb tree putting the most recently
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// removed element at the head of the insert list
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free( (void *)m_Elements.Key( i ) );
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m_Elements.Reinsert( strdup( pName ), i );
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}
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//-----------------------------------------------------------------------------
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// Num elements
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//-----------------------------------------------------------------------------
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template <class T, class I>
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inline unsigned int CUtlDict<T, I>::Count() const
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{
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return m_Elements.Count();
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}
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//-----------------------------------------------------------------------------
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// Number of allocated slots
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//-----------------------------------------------------------------------------
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template <class T, class I>
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inline I CUtlDict<T, I>::MaxElement() const
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{
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return m_Elements.MaxElement();
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}
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//-----------------------------------------------------------------------------
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// Checks if a node is valid and in the tree
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//-----------------------------------------------------------------------------
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template <class T, class I>
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inline bool CUtlDict<T, I>::IsValidIndex( I i ) const
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{
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return m_Elements.IsValidIndex(i);
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}
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//-----------------------------------------------------------------------------
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// Invalid index
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//-----------------------------------------------------------------------------
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template <class T, class I>
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inline I CUtlDict<T, I>::InvalidIndex()
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{
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return DictElementMap_t::InvalidIndex();
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}
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//-----------------------------------------------------------------------------
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// Delete a node from the tree
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//-----------------------------------------------------------------------------
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template <class T, class I>
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void CUtlDict<T, I>::RemoveAt(I elem)
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{
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free( (void *)m_Elements.Key( elem ) );
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m_Elements.RemoveAt(elem);
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}
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//-----------------------------------------------------------------------------
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// remove a node in the tree
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//-----------------------------------------------------------------------------
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template <class T, class I> void CUtlDict<T, I>::Remove( const char *search )
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{
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I node = Find( search );
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if (node != InvalidIndex())
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{
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RemoveAt(node);
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}
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}
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//-----------------------------------------------------------------------------
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// Removes all nodes from the tree
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//-----------------------------------------------------------------------------
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template <class T, class I>
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void CUtlDict<T, I>::RemoveAll()
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{
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typename DictElementMap_t::IndexType_t index = m_Elements.FirstInorder();
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while ( index != m_Elements.InvalidIndex() )
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{
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free( (void *)m_Elements.Key( index ) );
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index = m_Elements.NextInorder( index );
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}
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m_Elements.RemoveAll();
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}
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template <class T, class I>
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void CUtlDict<T, I>::Purge()
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{
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RemoveAll();
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}
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template <class T, class I>
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void CUtlDict<T, I>::PurgeAndDeleteElements()
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{
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// Delete all the elements.
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I index = m_Elements.FirstInorder();
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while ( index != m_Elements.InvalidIndex() )
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{
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free( (void *)m_Elements.Key( index ) );
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delete m_Elements[index];
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index = m_Elements.NextInorder( index );
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}
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m_Elements.RemoveAll();
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}
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//-----------------------------------------------------------------------------
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// inserts a node into the tree
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//-----------------------------------------------------------------------------
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template <class T, class I>
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I CUtlDict<T, I>::Insert( const char *pName, const T &element )
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{
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MEM_ALLOC_CREDIT_CLASS();
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return m_Elements.Insert( strdup( pName ), element );
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}
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template <class T, class I>
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I CUtlDict<T, I>::Insert( const char *pName )
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{
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MEM_ALLOC_CREDIT_CLASS();
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return m_Elements.Insert( strdup( pName ) );
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}
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//-----------------------------------------------------------------------------
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// finds a node in the tree
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//-----------------------------------------------------------------------------
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template <class T, class I>
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I CUtlDict<T, I>::Find( const char *pName ) const
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{
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MEM_ALLOC_CREDIT_CLASS();
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if ( pName )
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return m_Elements.Find( pName );
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else
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return InvalidIndex();
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}
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//-----------------------------------------------------------------------------
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// returns true if we already have this node
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//-----------------------------------------------------------------------------
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template <class T, class I>
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bool CUtlDict<T, I>::HasElement( const char *pName ) const
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{
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if ( pName )
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return m_Elements.IsValidIndex( m_Elements.Find( pName ) );
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else
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return false;
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}
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//-----------------------------------------------------------------------------
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// Iteration methods
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//-----------------------------------------------------------------------------
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template <class T, class I>
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I CUtlDict<T, I>::First() const
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{
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return m_Elements.FirstInorder();
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}
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template <class T, class I>
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I CUtlDict<T, I>::Next( I i ) const
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{
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return m_Elements.NextInorder(i);
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}
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#include "tier0/memdbgoff.h"
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#endif // UTLDICT_H
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