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//===== 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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//===========================================================================//
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#include "tier1/mempool.h"
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#include <stdio.h>
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#include <memory.h>
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#include "tier0/dbg.h"
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#include <ctype.h>
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#include "tier1/strtools.h"
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#ifndef _PS3
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#include <malloc.h>
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#endif
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// Should be last include
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#include "tier0/memdbgon.h"
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MemoryPoolReportFunc_t CUtlMemoryPool::g_ReportFunc = 0;
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//-----------------------------------------------------------------------------
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// Error reporting... (debug only)
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//-----------------------------------------------------------------------------
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void CUtlMemoryPool::SetErrorReportFunc( MemoryPoolReportFunc_t func )
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{
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g_ReportFunc = func;
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}
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//-----------------------------------------------------------------------------
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// Purpose: Constructor
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//-----------------------------------------------------------------------------
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CUtlMemoryPool::CUtlMemoryPool( int blockSize, int numElements, int growMode, const char *pszAllocOwner, int nAlignment )
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{
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#ifdef _X360
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if( numElements > 0 && growMode != GROW_NONE )
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{
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numElements = 1;
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}
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#endif
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#ifdef PLATFORM_64BITS
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m_nAlignment = ( nAlignment != 0 ) ? nAlignment : 8;
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#else
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m_nAlignment = ( nAlignment != 0 ) ? nAlignment : 4;
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#endif
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Assert( IsPowerOfTwo( m_nAlignment ) );
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m_BlockSize = blockSize < sizeof(void*) ? sizeof(void*) : blockSize;
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m_BlockSize = AlignValue( m_BlockSize, m_nAlignment );
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m_BlocksPerBlob = numElements;
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m_PeakAlloc = 0;
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m_GrowMode = growMode;
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if ( !pszAllocOwner )
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{
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pszAllocOwner = __FILE__;
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}
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m_pszAllocOwner = pszAllocOwner;
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Init();
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AddNewBlob();
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}
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//-----------------------------------------------------------------------------
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// Purpose: Frees the memory contained in the mempool, and invalidates it for
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// any further use.
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// Input : *memPool - the mempool to shutdown
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//-----------------------------------------------------------------------------
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CUtlMemoryPool::~CUtlMemoryPool()
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{
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if (m_BlocksAllocated > 0)
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{
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ReportLeaks();
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}
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Clear();
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}
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//-----------------------------------------------------------------------------
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// Resets the pool
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//-----------------------------------------------------------------------------
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void CUtlMemoryPool::Init()
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{
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m_NumBlobs = 0;
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m_BlocksAllocated = 0;
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m_pHeadOfFreeList = 0;
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m_BlobHead.m_pNext = m_BlobHead.m_pPrev = &m_BlobHead;
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}
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//-----------------------------------------------------------------------------
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// Frees everything
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//-----------------------------------------------------------------------------
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void CUtlMemoryPool::Clear()
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{
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// Free everything..
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CBlob *pNext;
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for( CBlob *pCur = m_BlobHead.m_pNext; pCur != &m_BlobHead; pCur = pNext )
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{
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pNext = pCur->m_pNext;
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free( pCur );
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}
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Init();
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}
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//-----------------------------------------------------------------------------
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// Is an allocation within the pool?
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//-----------------------------------------------------------------------------
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bool CUtlMemoryPool::IsAllocationWithinPool( void *pMem ) const
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{
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for( CBlob *pCur = m_BlobHead.m_pNext; pCur != &m_BlobHead; pCur = pCur->m_pNext )
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{
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// Is the allocation within the blob?
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if ( ( pMem < pCur->m_Data ) || ( pMem >= pCur->m_Data + pCur->m_NumBytes ) )
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continue;
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// Make sure the allocation is on a block boundary
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intp pFirstAllocation = AlignValue( ( intp ) pCur->m_Data, m_nAlignment );
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intp nOffset = (intp)pMem - pFirstAllocation;
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return ( nOffset % m_BlockSize ) == 0;
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}
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return false;
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}
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//-----------------------------------------------------------------------------
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// Purpose: Reports memory leaks
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//-----------------------------------------------------------------------------
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void CUtlMemoryPool::ReportLeaks()
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{
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#ifdef _DEBUG
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if (!g_ReportFunc)
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return;
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g_ReportFunc("Memory leak: mempool blocks left in memory: %d\n", m_BlocksAllocated);
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// walk and destroy the free list so it doesn't intefere in the scan
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while (m_pHeadOfFreeList != NULL)
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{
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void *next = *((void**)m_pHeadOfFreeList);
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memset(m_pHeadOfFreeList, 0, m_BlockSize);
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m_pHeadOfFreeList = next;
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}
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g_ReportFunc("Dumping memory: \'");
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for( CBlob *pCur=m_BlobHead.m_pNext; pCur != &m_BlobHead; pCur=pCur->m_pNext )
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{
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// scan the memory block and dump the leaks
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char *scanPoint = (char *)pCur->m_Data;
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char *scanEnd = pCur->m_Data + pCur->m_NumBytes;
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bool needSpace = false;
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while (scanPoint < scanEnd)
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{
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// search for and dump any strings
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if ((unsigned)(*scanPoint + 1) <= 256 && V_isprint(*scanPoint))
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{
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g_ReportFunc("%c", *scanPoint);
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needSpace = true;
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}
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else if (needSpace)
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{
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needSpace = false;
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g_ReportFunc(" ");
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}
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scanPoint++;
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}
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}
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g_ReportFunc("\'\n");
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#endif // _DEBUG
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}
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//-----------------------------------------------------------------------------
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// Purpose:
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//-----------------------------------------------------------------------------
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void CUtlMemoryPool::AddNewBlob()
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{
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MEM_ALLOC_CREDIT_(m_pszAllocOwner);
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int sizeMultiplier;
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if( m_GrowMode == GROW_SLOW )
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{
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sizeMultiplier = 1;
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}
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else
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{
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if ( m_GrowMode == GROW_NONE )
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{
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// Can only have one allocation when we're in this mode
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if( m_NumBlobs != 0 )
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{
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Assert( !"CUtlMemoryPool::AddNewBlob: mode == GROW_NONE" );
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return;
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}
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}
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// GROW_FAST and GROW_NONE use this.
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sizeMultiplier = m_NumBlobs + 1;
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}
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// maybe use something other than malloc?
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int nElements = m_BlocksPerBlob * sizeMultiplier;
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int blobSize = m_BlockSize * nElements;
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CBlob *pBlob = (CBlob*)malloc( sizeof(CBlob) - 1 + blobSize + ( m_nAlignment - 1 ) );
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Assert( pBlob );
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// Link it in at the end of the blob list.
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pBlob->m_NumBytes = blobSize;
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pBlob->m_pNext = &m_BlobHead;
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pBlob->m_pPrev = pBlob->m_pNext->m_pPrev;
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pBlob->m_pNext->m_pPrev = pBlob->m_pPrev->m_pNext = pBlob;
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// setup the free list
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m_pHeadOfFreeList = AlignValue( pBlob->m_Data, m_nAlignment );
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Assert (m_pHeadOfFreeList);
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void **newBlob = (void**)m_pHeadOfFreeList;
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for (int j = 0; j < nElements-1; j++)
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{
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newBlob[0] = (char*)newBlob + m_BlockSize;
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newBlob = (void**)newBlob[0];
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}
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// null terminate list
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newBlob[0] = NULL;
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m_NumBlobs++;
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}
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void* CUtlMemoryPool::Alloc()
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{
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return Alloc( m_BlockSize );
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}
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void* CUtlMemoryPool::AllocZero()
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{
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return AllocZero( m_BlockSize );
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}
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//-----------------------------------------------------------------------------
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// Purpose: Allocs a single block of memory from the pool.
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// Input : amount -
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//-----------------------------------------------------------------------------
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void *CUtlMemoryPool::Alloc( size_t amount )
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{
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void *returnBlock;
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if ( amount > (size_t)m_BlockSize )
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return NULL;
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if ( !m_pHeadOfFreeList )
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{
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// returning NULL is fine in GROW_NONE
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if ( m_GrowMode == GROW_NONE && m_NumBlobs > 0 )
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{
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//Assert( !"CUtlMemoryPool::Alloc: tried to make new blob with GROW_NONE" );
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return NULL;
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}
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// overflow
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AddNewBlob();
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// still failure, error out
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if ( !m_pHeadOfFreeList )
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{
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Assert( !"CUtlMemoryPool::Alloc: ran out of memory" );
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return NULL;
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}
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}
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m_BlocksAllocated++;
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m_PeakAlloc = MAX(m_PeakAlloc, m_BlocksAllocated);
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returnBlock = m_pHeadOfFreeList;
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// move the pointer the next block
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m_pHeadOfFreeList = *((void**)m_pHeadOfFreeList);
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return returnBlock;
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}
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//-----------------------------------------------------------------------------
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// Purpose: Allocs a single block of memory from the pool, zeroes the memory before returning
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// Input : amount -
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//-----------------------------------------------------------------------------
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void *CUtlMemoryPool::AllocZero( size_t amount )
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{
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void *mem = Alloc( amount );
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if ( mem )
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{
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V_memset( mem, 0x00, ( int )amount );
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}
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return mem;
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}
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//-----------------------------------------------------------------------------
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// Purpose: Frees a block of memory
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// Input : *memBlock - the memory to free
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//-----------------------------------------------------------------------------
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void CUtlMemoryPool::Free( void *memBlock )
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{
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if ( !memBlock )
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return; // trying to delete NULL pointer, ignore
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#ifdef _DEBUG
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// check to see if the memory is from the allocated range
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bool bOK = false;
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for( CBlob *pCur=m_BlobHead.m_pNext; pCur != &m_BlobHead; pCur=pCur->m_pNext )
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{
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if (memBlock >= pCur->m_Data && (char*)memBlock < (pCur->m_Data + pCur->m_NumBytes))
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{
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bOK = true;
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}
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}
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Assert (bOK);
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#endif // _DEBUG
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#ifdef _DEBUG
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// invalidate the memory
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memset( memBlock, 0xDD, m_BlockSize );
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#endif
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m_BlocksAllocated--;
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// make the block point to the first item in the list
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*((void**)memBlock) = m_pHeadOfFreeList;
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// the list head is now the new block
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m_pHeadOfFreeList = memBlock;
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}
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int CUtlMemoryPool::Size() const
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{
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uint32 size = 0;
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for( CBlob *pCur=m_BlobHead.m_pNext; pCur != &m_BlobHead; pCur=pCur->m_pNext )
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{
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size += pCur->m_NumBytes;
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}
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return size;
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}
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