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182 lines
4.7 KiB
182 lines
4.7 KiB
//===== Copyright © 1996-2006, Valve Corporation, All rights reserved. ======//
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//
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// Purpose: thread safe cache template class
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//
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//===========================================================================//
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// a thread-safe cache. Cache queries and updates may be performed on multiple threads at once in a
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// lock-free fashion. You must call the "FrameUpdate" function while no one is querying against
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// this cache.
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#include "tier1/utlintrusivelist.h"
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// in order to use this class, KEYTYPE must implement bool IsAcceptable( KEYTYPE const & ), and
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// RECORDTYPE must implement CreateCacheData( KEYTYPE const & )
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template< class RECORDTYPE, class KEYTYPE, class EXTRACREATEDATA, int nNumCacheLines, int nAssociativity = 4 > class CUtlTSCache
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{
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public:
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class CCacheEntry : public CAlignedNewDelete<16>
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{
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public:
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CCacheEntry *m_pNext;
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CCacheEntry *m_pNextPending;
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KEYTYPE m_Key;
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RECORDTYPE m_Data;
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};
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~CUtlTSCache( void )
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{
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PerFrameUpdate(); // move pending to free
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for( CCacheEntry *pNode = m_pFreeList; pNode; )
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{
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CCacheEntry *pNext = pNode->m_pNext;
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if ( ! ( ( ( pNode >= m_pInitiallyAllocatedNodes ) &&
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( pNode < m_pInitiallyAllocatedNodes + InitialAllocationSize() ) ) ) )
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{
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delete pNode;
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}
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pNode = pNext;
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}
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delete[] m_pInitiallyAllocatedNodes;
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}
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CUtlTSCache( void )
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{
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MEM_ALLOC_CREDIT_CLASS();
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memset( m_pCache, 0, sizeof( m_pCache ) );
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m_pInitiallyAllocatedNodes = new CCacheEntry[ InitialAllocationSize() ];
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m_pFreeList = NULL;
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for( int i = 0; i < InitialAllocationSize(); i++ )
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{
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IntrusiveList::AddToHead( m_pFreeList, m_pInitiallyAllocatedNodes + i );
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}
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m_pPendingFreeList = NULL;
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}
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void PerFrameUpdate( void )
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{
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for( CCacheEntry *pNode = m_pPendingFreeList; pNode; pNode = pNode->m_pNextPending )
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{
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IntrusiveList::AddToHead( m_pFreeList, pNode );
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}
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m_pPendingFreeList = NULL;
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}
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// Invalidate() is NOT thread-safe. If you need a thread-safe invalidate, you're going to need
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// to do something like store a generation count in the key.
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void Invalidate( void )
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{
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for( int i = 0; i < ARRAYSIZE( m_pCache ); i++ )
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{
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CCacheEntry *pNode = m_pCache[i];
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if ( pNode )
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{
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IntrusiveList::AddToHead( m_pFreeList, pNode );
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}
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m_pCache[i] = NULL;
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}
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}
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// lookup a value, maybe add one
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RECORDTYPE *Lookup( KEYTYPE const &key, EXTRACREATEDATA const &extraCreateData )
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{
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// first perform our hash function
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uint nHash = HashItem( key ) % nNumCacheLines;
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CCacheEntry **pCacheLine = m_pCache + nHash * nAssociativity;
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// now, see if we have an acceptable node
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CCacheEntry *pOldValue[nAssociativity];
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int nOffset = ( nAssociativity ) ? -1 : 0;
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for( int i = 0; i < nAssociativity; i++ )
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{
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pOldValue[i] = pCacheLine[i];
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if ( pOldValue[i] )
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{
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if ( key.IsAcceptable( pOldValue[i]->m_Key ) )
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{
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return &( pOldValue[i]->m_Data );
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}
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}
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else
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{
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nOffset = i; // replace empty lines first
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}
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}
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// no acceptable entry. We must generate and replace one. We will use a pseudo-random replacement scheme
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if ( ( nAssociativity > 1 ) && ( nOffset == -1 ) )
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{
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nOffset = ( m_nLineCounter++ ) % nAssociativity;
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}
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// get a node
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CCacheEntry *pNode = GetNode();
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pNode->m_Key = key;
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pNode->m_Data.CreateCacheData( key, extraCreateData );
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// we will look for a place to insert this. It is possible that we will find no good place and will just ditch it.
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for( int i = 0; i < nAssociativity; i++ )
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{
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// try to install it.
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if ( ThreadInterlockedAssignPointerIf( ( void * volatile * ) ( pCacheLine + nOffset ), pNode, pOldValue[nOffset] ) )
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{
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// put the old one on the pending free list
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if ( pOldValue[nOffset] )
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{
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IntrusiveList::AddToHeadByFieldTS( m_pPendingFreeList, pOldValue[nOffset], &CCacheEntry::m_pNextPending );
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}
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return &( pNode->m_Data ); // success!
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}
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nOffset++;
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if ( nOffset == nAssociativity )
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{
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nOffset = 0; // wrap around
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}
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}
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// we failed to install this node into the cache. we'll not bother
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IntrusiveList::AddToHeadByFieldTS( m_pPendingFreeList, pNode, &CCacheEntry::m_pNextPending );
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return &( pNode->m_Data );
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}
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protected:
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int InitialAllocationSize( void )
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{
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return nNumCacheLines * nAssociativity;
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}
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CCacheEntry *GetNode( void )
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{
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CCacheEntry *pNode = IntrusiveList::RemoveHeadTS( m_pFreeList );
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if ( ! pNode )
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{
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pNode = new CCacheEntry;
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}
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return pNode;
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}
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CInterlockedUInt m_nLineCounter; // for cycling through cache lines
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CCacheEntry *m_pCache[nNumCacheLines * nAssociativity];
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CCacheEntry *m_pFreeList; // nodes available for the cache
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CCacheEntry *m_pPendingFreeList; // nodes to be moved to the free list at end of frame
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CCacheEntry *m_pInitiallyAllocatedNodes;
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};
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