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248 lines
6.4 KiB
248 lines
6.4 KiB
//========= Copyright © 1996-2005, Valve Corporation, All rights reserved. ============// |
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// |
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// Purpose: |
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// |
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// $Header: $ |
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// $NoKeywords: $ |
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//=============================================================================// |
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#ifndef UTLMAP_H |
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#define UTLMAP_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 "utlrbtree.h" |
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//----------------------------------------------------------------------------- |
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// |
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// Purpose: An associative container. Pretty much identical to std::map. |
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// |
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//----------------------------------------------------------------------------- |
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// This is a useful macro to iterate from start to end in order in a map |
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#define FOR_EACH_MAP( mapName, iteratorName ) \ |
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for ( int iteratorName = (mapName).FirstInorder(); (mapName).IsUtlMap && iteratorName != (mapName).InvalidIndex(); iteratorName = (mapName).NextInorder( iteratorName ) ) |
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// faster iteration, but in an unspecified order |
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#define FOR_EACH_MAP_FAST( mapName, iteratorName ) \ |
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for ( int iteratorName = 0; (mapName).IsUtlMap && iteratorName < (mapName).MaxElement(); ++iteratorName ) if ( !(mapName).IsValidIndex( iteratorName ) ) continue; else |
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struct base_utlmap_t |
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{ |
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public: |
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static const bool IsUtlMap = true; // Used to match this at compiletime |
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}; |
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#if defined( GNUC ) && defined( DEBUG ) |
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const bool base_utlmap_t::IsUtlMap SELECTANY; |
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#endif |
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template <typename K, typename T, typename I = unsigned short> |
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class CUtlMap : public base_utlmap_t |
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{ |
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public: |
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typedef K KeyType_t; |
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typedef T ElemType_t; |
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typedef I IndexType_t; |
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// Less func typedef |
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// Returns true if the first parameter is "less" than the second |
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typedef bool (*LessFunc_t)( const KeyType_t &, const KeyType_t & ); |
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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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// LessFunc_t is required, but may be set after the constructor using SetLessFunc() below |
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CUtlMap( int growSize = 0, int initSize = 0, LessFunc_t lessfunc = 0 ) |
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: m_Tree( growSize, initSize, CKeyLess( lessfunc ) ) |
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{ |
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} |
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CUtlMap( LessFunc_t lessfunc ) |
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: m_Tree( CKeyLess( lessfunc ) ) |
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{ |
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} |
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void EnsureCapacity( int num ) { m_Tree.EnsureCapacity( num ); } |
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// gets particular elements |
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ElemType_t & Element( IndexType_t i ) { return m_Tree.Element( i ).elem; } |
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const ElemType_t & Element( IndexType_t i ) const { return m_Tree.Element( i ).elem; } |
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ElemType_t & operator[]( IndexType_t i ) { return m_Tree.Element( i ).elem; } |
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const ElemType_t & operator[]( IndexType_t i ) const { return m_Tree.Element( i ).elem; } |
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KeyType_t & Key( IndexType_t i ) { return m_Tree.Element( i ).key; } |
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const KeyType_t & Key( IndexType_t i ) const { return m_Tree.Element( i ).key; } |
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// Num elements |
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unsigned int Count() const { return m_Tree.Count(); } |
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// Max "size" of the vector |
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IndexType_t MaxElement() const { return m_Tree.MaxElement(); } |
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// Checks if a node is valid and in the map |
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bool IsValidIndex( IndexType_t i ) const { return m_Tree.IsValidIndex( i ); } |
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// Checks if the map as a whole is valid |
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bool IsValid() const { return m_Tree.IsValid(); } |
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// Invalid index |
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static IndexType_t InvalidIndex() { return CTree::InvalidIndex(); } |
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// Sets the less func |
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void SetLessFunc( LessFunc_t func ) |
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{ |
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m_Tree.SetLessFunc( CKeyLess( func ) ); |
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} |
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// Insert method (inserts in order) |
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IndexType_t Insert( const KeyType_t &key, const ElemType_t &insert ) |
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{ |
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Node_t node; |
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node.key = key; |
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node.elem = insert; |
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return m_Tree.Insert( node ); |
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} |
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IndexType_t Insert( const KeyType_t &key ) |
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{ |
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Node_t node; |
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node.key = key; |
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return m_Tree.Insert( node ); |
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} |
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// Find method |
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IndexType_t Find( const KeyType_t &key ) const |
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{ |
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Node_t dummyNode; |
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dummyNode.key = key; |
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return m_Tree.Find( dummyNode ); |
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} |
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// Remove methods |
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void RemoveAt( IndexType_t i ) { m_Tree.RemoveAt( i ); } |
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bool Remove( const KeyType_t &key ) |
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{ |
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Node_t dummyNode; |
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dummyNode.key = key; |
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return m_Tree.Remove( dummyNode ); |
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} |
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void RemoveAll( ) { m_Tree.RemoveAll(); } |
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void Purge( ) { m_Tree.Purge(); } |
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// Purges the list and calls delete on each element in it. |
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void PurgeAndDeleteElements(); |
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// Iteration |
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IndexType_t FirstInorder() const { return m_Tree.FirstInorder(); } |
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IndexType_t NextInorder( IndexType_t i ) const { return m_Tree.NextInorder( i ); } |
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IndexType_t PrevInorder( IndexType_t i ) const { return m_Tree.PrevInorder( i ); } |
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IndexType_t LastInorder() const { return m_Tree.LastInorder(); } |
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// If you change the search key, this can be used to reinsert the |
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// element into the map. |
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void Reinsert( const KeyType_t &key, IndexType_t i ) |
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{ |
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m_Tree[i].key = key; |
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m_Tree.Reinsert(i); |
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} |
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IndexType_t InsertOrReplace( const KeyType_t &key, const ElemType_t &insert ) |
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{ |
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IndexType_t i = Find( key ); |
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if ( i != InvalidIndex() ) |
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{ |
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Element( i ) = insert; |
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return i; |
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} |
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return Insert( key, insert ); |
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} |
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void Swap( CUtlMap< K, T, I > &that ) |
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{ |
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m_Tree.Swap( that.m_Tree ); |
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} |
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struct Node_t |
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{ |
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Node_t() |
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{ |
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} |
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Node_t( const Node_t &from ) |
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: key( from.key ), |
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elem( from.elem ) |
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{ |
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} |
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KeyType_t key; |
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ElemType_t elem; |
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}; |
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class CKeyLess |
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{ |
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public: |
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CKeyLess( LessFunc_t lessFunc ) : m_LessFunc(lessFunc) {} |
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bool operator!() const |
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{ |
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return !m_LessFunc; |
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} |
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bool operator()( const Node_t &left, const Node_t &right ) const |
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{ |
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return m_LessFunc( left.key, right.key ); |
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} |
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LessFunc_t m_LessFunc; |
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}; |
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typedef CUtlRBTree<Node_t, I, CKeyLess> CTree; |
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CTree *AccessTree() { return &m_Tree; } |
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protected: |
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CTree m_Tree; |
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}; |
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//----------------------------------------------------------------------------- |
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// Purges the list and calls delete on each element in it. |
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template< typename K, typename T, typename I > |
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inline void CUtlMap<K, T, I>::PurgeAndDeleteElements() |
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{ |
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for ( I i = 0; i < MaxElement(); ++i ) |
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{ |
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if ( !IsValidIndex( i ) ) |
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continue; |
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delete Element( i ); |
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} |
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Purge(); |
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} |
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//----------------------------------------------------------------------------- |
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// This is horrible and slow and meant to be used only when you're dealing with really |
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// non-time/memory-critical code and desperately want to copy a whole map element-by-element |
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// for whatever reason. |
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template < typename K, typename T, typename I > |
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void DeepCopyMap( const CUtlMap<K,T,I>& pmapIn, CUtlMap<K,T,I> *out_pmapOut ) |
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{ |
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Assert( out_pmapOut ); |
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out_pmapOut->Purge(); |
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FOR_EACH_MAP_FAST( pmapIn, i ) |
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{ |
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out_pmapOut->Insert( i, pmapIn[i] ); |
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} |
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} |
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#endif // UTLMAP_H
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