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552 lines
13 KiB
C++
552 lines
13 KiB
C++
//========= Copyright Valve Corporation, All rights reserved. ============//
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//
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// Purpose:
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//
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// $NoKeywords: $
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//=============================================================================//
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#ifndef UTLQUEUE_H
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#define UTLQUEUE_H
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#ifdef _WIN32
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#pragma once
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#endif
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#include "utlmemory.h"
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//#define TEST_UTLQUEUE
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enum QueueIter_t { QUEUE_ITERATOR_INVALID = 0xffffffff };
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// T is the type stored in the queue
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template< class T, class M = CUtlMemory< T > >
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class CUtlQueue
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{
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public:
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CUtlQueue( int growSize = 0, int initSize = 0 );
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CUtlQueue( T *pMemory, int numElements );
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// return the item from the front of the queue and delete it
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T RemoveAtHead();
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bool RemoveAtHead( T &removedElement );
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// return the item from the end of the queue and delete it
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T RemoveAtTail();
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bool RemoveAtTail( T &removedElement );
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// return item at the front of the queue
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T const& Head() const;
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// return item at the end of the queue
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T const& Tail() const;
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// Add a new item to the end of the queue
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void Insert( T const &element );
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// checks if an element of this value already exists on the stack, returns true if it does
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bool Check( T const element ) const;
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// iterators may be invalidated by Insert()
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QueueIter_t First() const;
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QueueIter_t Next( QueueIter_t it ) const;
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QueueIter_t Last() const;
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QueueIter_t Previous( QueueIter_t it ) const;
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bool IsValid( QueueIter_t it ) const;
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T const& Element( QueueIter_t it ) const;
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// Returns the count of elements in the queue
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int Count() const;
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// Return whether the queue is empty or not, faster than Count().
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bool IsEmpty() const;
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// doesn't deallocate memory
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void RemoveAll();
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// Memory deallocation
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void Purge();
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protected:
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QueueIter_t Next_Unchecked( QueueIter_t it ) const;
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QueueIter_t Previous_Unchecked( QueueIter_t it ) const;
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M m_memory;
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// if m_head == m_tail == QUEUE_ITERATOR_INVALID, then the queue is empty
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QueueIter_t m_head;
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QueueIter_t m_tail;
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#ifdef TEST_UTLQUEUE
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friend void CUtlQueue_Test();
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#endif
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};
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//-----------------------------------------------------------------------------
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// The CUtlQueueFixed class:
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// A queue class with a fixed allocation scheme
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//-----------------------------------------------------------------------------
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template< class T, size_t MAX_SIZE >
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class CUtlQueueFixed : public CUtlQueue< T, CUtlMemoryFixed<T, MAX_SIZE > >
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{
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typedef CUtlQueue< T, CUtlMemoryFixed<T, MAX_SIZE > > BaseClass;
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public:
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// constructor, destructor
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CUtlQueueFixed( int growSize = 0, int initSize = 0 ) : BaseClass( growSize, initSize ) {}
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CUtlQueueFixed( T* pMemory, int numElements ) : BaseClass( pMemory, numElements ) {}
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};
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template< class T, class M >
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inline CUtlQueue<T, M>::CUtlQueue( int growSize, int initSize ) :
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m_memory( growSize, initSize ), m_head( QUEUE_ITERATOR_INVALID ), m_tail( QUEUE_ITERATOR_INVALID )
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{
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}
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template< class T, class M >
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inline CUtlQueue<T, M>::CUtlQueue( T *pMemory, int numElements ) :
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m_memory( pMemory, numElements ), m_head( QUEUE_ITERATOR_INVALID ), m_tail( QUEUE_ITERATOR_INVALID )
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{
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}
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template <class T, class M>
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inline T CUtlQueue<T, M>::RemoveAtHead()
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{
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T temp;
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RemoveAtHead( temp );
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return temp;
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}
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template <class T, class M>
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inline bool CUtlQueue<T, M>::RemoveAtHead( T &removedElement )
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{
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Assert( m_head != QUEUE_ITERATOR_INVALID );
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if ( m_head == QUEUE_ITERATOR_INVALID )
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{
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Construct( &removedElement );
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return false;
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}
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QueueIter_t it = m_head;
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removedElement = m_memory[ it ];
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Destruct( &m_memory[ it ] );
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if ( m_head == m_tail )
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{
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m_head = m_tail = QUEUE_ITERATOR_INVALID;
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}
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else
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{
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m_head = Next_Unchecked( m_head );
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}
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return true;
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}
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template <class T, class M>
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inline T CUtlQueue<T, M>::RemoveAtTail()
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{
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T temp;
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RemoveAtTail( temp );
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return temp;
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}
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template <class T, class M>
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inline bool CUtlQueue<T, M>::RemoveAtTail( T &removedElement )
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{
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Assert( m_tail != QUEUE_ITERATOR_INVALID );
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if ( m_tail == QUEUE_ITERATOR_INVALID )
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{
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Construct( &removedElement );
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return false;
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}
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removedElement = m_memory[ m_tail ];
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Destruct( &m_memory[ m_tail ] );
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if ( m_head == m_tail )
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{
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m_head = m_tail = QUEUE_ITERATOR_INVALID;
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}
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else
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{
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m_tail = Previous_Unchecked( m_tail );
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}
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return true;
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}
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template <class T, class M>
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inline T const& CUtlQueue<T, M>::Head() const
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{
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Assert( m_head != QUEUE_ITERATOR_INVALID );
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if ( m_head == QUEUE_ITERATOR_INVALID )
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{
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static T dummy;
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return dummy;
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}
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return m_memory[ m_head ];
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}
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template <class T, class M>
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inline T const& CUtlQueue<T, M>::Tail() const
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{
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Assert( m_tail != QUEUE_ITERATOR_INVALID );
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if ( m_tail == QUEUE_ITERATOR_INVALID )
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{
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static T dummy;
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return dummy;
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}
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return m_memory[ m_tail ];
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}
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template <class T, class M>
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void CUtlQueue<T, M>::Insert( T const &element )
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{
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if ( m_tail == QUEUE_ITERATOR_INVALID )
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{
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// empty
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m_memory.EnsureCapacity( 1 );
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m_head = m_tail = QueueIter_t( 0 );
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}
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else
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{
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// non-empty
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QueueIter_t nextTail = Next_Unchecked( m_tail );
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if ( nextTail == m_head ) // if non-empty, and growing by 1 appears to make the queue of length 1, then we were already full before the Insert
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{
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int nOldAllocCount = m_memory.NumAllocated();
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m_memory.Grow();
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int nNewAllocCount = m_memory.NumAllocated();
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int nGrowAmount = nNewAllocCount - nOldAllocCount;
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nextTail = Next_Unchecked( m_tail ); // if nextTail was 0, then it now should be nOldAllocCount
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if ( m_head != QueueIter_t( 0 ) )
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{
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// if the queue wraps around the end of m_memory, move the part at the end of memory to the new end of memory
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Q_memmove( &m_memory[ m_head + nGrowAmount ], &m_memory[ m_head ], ( nOldAllocCount - m_head ) * sizeof( T ) );
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#ifdef _DEBUG
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Q_memset( &m_memory[ m_head ], 0xdd, nGrowAmount * sizeof( T ) );
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#endif
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m_head = QueueIter_t( m_head + nGrowAmount );
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}
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}
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m_tail = nextTail;
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}
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CopyConstruct( &m_memory[ m_tail ], element );
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}
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template <class T, class M>
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bool CUtlQueue<T, M>::Check( T const element ) const
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{
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for ( QueueIter_t it = First(); it != QUEUE_ITERATOR_INVALID; it = Next( it ) )
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{
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if ( m_memory[ it ] == element )
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return true;
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}
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return false;
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}
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template <class T, class M>
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QueueIter_t CUtlQueue<T, M>::First() const
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{
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return m_head;
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}
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template <class T, class M>
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QueueIter_t CUtlQueue<T, M>::Next( QueueIter_t it ) const
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{
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if ( it == QUEUE_ITERATOR_INVALID )
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return QUEUE_ITERATOR_INVALID;
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if ( it == m_tail )
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return QUEUE_ITERATOR_INVALID;
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Assert( IsValid( it ) );
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if ( !IsValid( it ) )
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return QUEUE_ITERATOR_INVALID;
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return Next_Unchecked( it );
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}
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template <class T, class M>
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QueueIter_t CUtlQueue<T, M>::Last() const
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{
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return m_tail;
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}
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template <class T, class M>
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QueueIter_t CUtlQueue<T, M>::Previous( QueueIter_t it ) const
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{
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if ( it == QUEUE_ITERATOR_INVALID )
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return QUEUE_ITERATOR_INVALID;
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if ( it == m_head )
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return QUEUE_ITERATOR_INVALID;
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Assert( IsValid( it ) );
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if ( !IsValid( it ) )
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return QUEUE_ITERATOR_INVALID;
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return Previous_Unchecked( it );
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}
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template <class T, class M>
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QueueIter_t CUtlQueue<T, M>::Next_Unchecked( QueueIter_t it ) const
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{
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return it == m_memory.Count() - 1 ? QueueIter_t( 0 ) : QueueIter_t( it + 1 );
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}
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template <class T, class M>
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QueueIter_t CUtlQueue<T, M>::Previous_Unchecked( QueueIter_t it ) const
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{
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return it == 0 ? QueueIter_t( m_memory.Count() - 1 ) : QueueIter_t( it - 1 );
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}
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template <class T, class M>
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bool CUtlQueue<T, M>::IsValid( QueueIter_t it ) const
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{
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if ( it == QUEUE_ITERATOR_INVALID )
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return false;
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if ( m_head == QUEUE_ITERATOR_INVALID )
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return false;
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if ( m_head <= m_tail )
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return it >= m_head && it <= m_tail;
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return ( it >= m_head && it < m_memory.Count() ) || ( it >= 0 && it <= m_tail );
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}
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template <class T, class M>
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T const& CUtlQueue<T, M>::Element( QueueIter_t it ) const
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{
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Assert( it != QUEUE_ITERATOR_INVALID );
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if ( it == QUEUE_ITERATOR_INVALID )
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{
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static T dummy;
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return dummy;
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}
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Assert( IsValid( it ) );
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return m_memory[ it ];
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}
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template <class T, class M>
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int CUtlQueue<T, M>::Count() const
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{
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if ( m_head == QUEUE_ITERATOR_INVALID )
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{
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Assert( m_tail == QUEUE_ITERATOR_INVALID );
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return 0;
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}
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Assert( m_tail != QUEUE_ITERATOR_INVALID );
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if ( m_head <= m_tail )
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return m_tail + 1 - m_head;
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return m_tail + 1 - m_head + m_memory.Count();
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}
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template <class T, class M>
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bool CUtlQueue<T, M>::IsEmpty() const
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{
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Assert( ( m_head == QUEUE_ITERATOR_INVALID ) == ( m_tail == QUEUE_ITERATOR_INVALID ) );
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return ( m_head == QUEUE_ITERATOR_INVALID );
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}
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template <class T, class M>
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void CUtlQueue<T, M>::RemoveAll()
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{
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m_head = m_tail = QUEUE_ITERATOR_INVALID;
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}
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template <class T, class M>
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void CUtlQueue<T, M>::Purge()
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{
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m_head = m_tail = QUEUE_ITERATOR_INVALID;
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m_memory.Purge();
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}
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#ifdef TEST_UTLQUEUE
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#include <stdlib.h>
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struct Data_t
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{
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Data_t( int i = 0xffffffff ) : m_id( i ) {}
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Data_t( const Data_t &that ) : m_id( that.m_id ) {}
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~Data_t() { m_id = 0xdddddddd; }
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Data_t &operator=( const Data_t &that ) { m_id = that.m_id; return *this; }
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int m_id;
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};
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inline void CUtlQueue_Test()
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{
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CUtlQueue< Data_t > queue;
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for ( int n = 1; n < 100; ++n )
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{
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Assert( queue.Count() == 0 );
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Assert( queue.m_head == QUEUE_ITERATOR_INVALID );
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Assert( queue.m_tail == QUEUE_ITERATOR_INVALID );
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int w = rand() % n;
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for ( int i = 0; i < w; ++i )
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{
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queue.Insert( Data_t( i ) );
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}
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if ( w > 0 )
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{
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Assert( queue.Head().m_id == queue.First() );
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Assert( queue.Tail().m_id == queue.Last() );
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Assert( queue.Head().m_id == 0 );
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Assert( queue.Tail().m_id == w - 1 );
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}
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Assert( queue.Count() == w );
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for ( int j = 0; j < n; ++j )
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{
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queue.Insert( Data_t( w + j ) );
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if ( j == 0 )
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{
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Assert( queue.Count() == w + j + 1 );
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for ( int i = 0; i < w; ++i )
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{
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queue.RemoveAtHead();
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}
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}
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Assert( queue.Count() == j + 1 );
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Assert( queue.m_head != QUEUE_ITERATOR_INVALID );
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Assert( queue.m_tail != QUEUE_ITERATOR_INVALID );
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int id = queue.Head().m_id % queue.m_memory.Count();
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for ( QueueIter_t it = queue.First(); it != QUEUE_ITERATOR_INVALID; it = queue.Next( it ) )
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{
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Assert( queue.Element( it ).m_id % queue.m_memory.Count() == id );
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id = ( id + 1 ) % queue.m_memory.Count();
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}
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id = queue.Tail().m_id % queue.m_memory.Count();
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for ( QueueIter_t it = queue.Last(); it != QUEUE_ITERATOR_INVALID; it = queue.Previous( it ) )
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{
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Assert( queue.Element( it ).m_id % queue.m_memory.Count() == id );
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id = ( id + queue.m_memory.Count() - 1 ) % queue.m_memory.Count();
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}
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for ( int i = 0; i < j; ++i )
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{
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int id = queue.m_memory[ i ].m_id;
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if ( queue.IsValid( QueueIter_t( i ) ) )
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{
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Assert( ( id & 0xff000000 ) == 0 );
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}
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else
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{
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Assert( id == 0xdddddddd );
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}
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}
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}
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Assert( queue.Count() == n );
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#if 0
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for ( int j = 0; j < n; ++j )
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{
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Assert( queue.m_head != QUEUE_ITERATOR_INVALID );
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Assert( queue.m_tail != QUEUE_ITERATOR_INVALID );
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Assert( queue.Count() == n - j );
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Data_t data = queue.RemoveAtHead();
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Assert( queue.Count() == n - j - 1 );
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if ( queue.Count() > 0 )
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{
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int id = queue.Head().m_id % queue.m_memory.Count();
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for ( QueueIter_t it = queue.First(); it != QUEUE_ITERATOR_INVALID; it = queue.Next( it ) )
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{
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Assert( queue.Element( it ).m_id % queue.m_memory.Count() == id );
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id = ( id + 1 ) % queue.m_memory.Count();
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}
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id = queue.Tail().m_id % queue.m_memory.Count();
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for ( QueueIter_t it = queue.Last(); it != QUEUE_ITERATOR_INVALID; it = queue.Previous( it ) )
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{
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Assert( queue.Element( it ).m_id % queue.m_memory.Count() == id );
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id = ( id + queue.m_memory.Count() - 1 ) % queue.m_memory.Count();
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}
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}
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for ( int i = 0; i < j; ++i )
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{
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int id = queue.m_memory[ i ].m_id;
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if ( queue.IsValid( QueueIter_t( i ) ) )
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{
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Assert( ( id & 0xff000000 ) == 0 );
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}
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else
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{
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Assert( id == 0xdddddddd );
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}
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}
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}
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#else
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for ( int j = n - 1; j >= 0; --j )
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{
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Assert( queue.m_head != QUEUE_ITERATOR_INVALID );
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Assert( queue.m_tail != QUEUE_ITERATOR_INVALID );
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Assert( queue.Count() == j + 1 );
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Data_t data = queue.RemoveAtTail();
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Assert( queue.Count() == j );
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if ( queue.Count() > 0 )
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{
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int id = queue.Head().m_id % queue.m_memory.Count();
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for ( QueueIter_t it = queue.First(); it != QUEUE_ITERATOR_INVALID; it = queue.Next( it ) )
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{
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Assert( queue.Element( it ).m_id % queue.m_memory.Count() == id );
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id = ( id + 1 ) % queue.m_memory.Count();
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}
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id = queue.Tail().m_id % queue.m_memory.Count();
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for ( QueueIter_t it = queue.Last(); it != QUEUE_ITERATOR_INVALID; it = queue.Previous( it ) )
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{
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Assert( queue.Element( it ).m_id % queue.m_memory.Count() == id );
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id = ( id + queue.m_memory.Count() - 1 ) % queue.m_memory.Count();
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}
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}
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for ( int i = 0; i < j; ++i )
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{
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int id = queue.m_memory[ i ].m_id;
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if ( queue.IsValid( QueueIter_t( i ) ) )
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{
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Assert( ( id & 0xff000000 ) == 0 );
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}
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else
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{
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|
Assert( id == 0xdddddddd );
|
|
}
|
|
}
|
|
}
|
|
#endif
|
|
|
|
Assert( queue.Count() == 0 );
|
|
Assert( queue.m_head == QUEUE_ITERATOR_INVALID );
|
|
Assert( queue.m_tail == QUEUE_ITERATOR_INVALID );
|
|
}
|
|
}
|
|
|
|
#endif // TEST_UTLQUEUE
|
|
|
|
#endif // UTLQUEUE_H
|