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Modified source engine (2017) developed by valve and leaked in 2020. Not for commercial purporses
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source-engine/external/vpc/public/tier1/utlfixedmemory.h

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//===== Copyright <EFBFBD> 1996-2005, Valve Corporation, All rights reserved. ======//
//
// Purpose:
//
// $NoKeywords: $
//
// A growable memory class.
//===========================================================================//
#ifndef UTLFIXEDMEMORY_H
#define UTLFIXEDMEMORY_H
#ifdef _WIN32
#pragma once
#endif
#include "tier0/dbg.h"
#include "tier0/platform.h"
#include "tier0/memalloc.h"
#include "tier0/memdbgon.h"
#pragma warning (disable:4100)
#pragma warning (disable:4514)
//-----------------------------------------------------------------------------
#ifdef UTLFIXEDMEMORY_TRACK
#define UTLFIXEDMEMORY_TRACK_ALLOC() MemAlloc_RegisterAllocation( "||Sum of all UtlFixedMemory||", 0, NumAllocated() * sizeof(T), NumAllocated() * sizeof(T), 0 )
#define UTLFIXEDMEMORY_TRACK_FREE() if ( !m_pMemory ) ; else MemAlloc_RegisterDeallocation( "||Sum of all UtlFixedMemory||", 0, NumAllocated() * sizeof(T), NumAllocated() * sizeof(T), 0 )
#else
#define UTLFIXEDMEMORY_TRACK_ALLOC() ((void)0)
#define UTLFIXEDMEMORY_TRACK_FREE() ((void)0)
#endif
//-----------------------------------------------------------------------------
// The CUtlFixedMemory class:
// A growable memory class that allocates non-sequential blocks, but is indexed sequentially
//-----------------------------------------------------------------------------
template< class T >
class CUtlFixedMemory
{
public:
// constructor, destructor
CUtlFixedMemory( int nGrowSize = 0, int nInitSize = 0 );
~CUtlFixedMemory();
// Set the size by which the memory grows
void Init( int nGrowSize = 0, int nInitSize = 0 );
// here to match CUtlMemory, but only used by ResetDbgInfo, so it can just return NULL
T* Base() { return NULL; }
const T* Base() const { return NULL; }
protected:
struct BlockHeader_t;
public:
class Iterator_t
{
public:
Iterator_t( BlockHeader_t *p, int i ) : m_pBlockHeader( p ), m_nIndex( i ) {}
BlockHeader_t *m_pBlockHeader;
int m_nIndex;
bool operator==( const Iterator_t it ) const { return m_pBlockHeader == it.m_pBlockHeader && m_nIndex == it.m_nIndex; }
bool operator!=( const Iterator_t it ) const { return m_pBlockHeader != it.m_pBlockHeader || m_nIndex != it.m_nIndex; }
};
Iterator_t First() const { return m_pBlocks ? Iterator_t( m_pBlocks, 0 ) : InvalidIterator(); }
Iterator_t Next( const Iterator_t &it ) const
{
Assert( IsValidIterator( it ) );
if ( !IsValidIterator( it ) )
return InvalidIterator();
BlockHeader_t * RESTRICT pHeader = it.m_pBlockHeader;
if ( it.m_nIndex + 1 < pHeader->m_nBlockSize )
return Iterator_t( pHeader, it.m_nIndex + 1 );
return pHeader->m_pNext ? Iterator_t( pHeader->m_pNext, 0 ) : InvalidIterator();
}
int GetIndex( const Iterator_t &it ) const
{
Assert( IsValidIterator( it ) );
if ( !IsValidIterator( it ) )
return InvalidIndex();
return ( int )( HeaderToBlock( it.m_pBlockHeader ) + it.m_nIndex );
}
bool IsIdxAfter( int i, const Iterator_t &it ) const
{
Assert( IsValidIterator( it ) );
if ( !IsValidIterator( it ) )
return false;
if ( IsInBlock( i, it.m_pBlockHeader ) )
return i > GetIndex( it );
for ( BlockHeader_t * RESTRICT pbh = it.m_pBlockHeader->m_pNext; pbh; pbh = pbh->m_pNext )
{
if ( IsInBlock( i, pbh ) )
return true;
}
return false;
}
bool IsValidIterator( const Iterator_t &it ) const { return it.m_pBlockHeader && it.m_nIndex >= 0 && it.m_nIndex < it.m_pBlockHeader->m_nBlockSize; }
Iterator_t InvalidIterator() const { return Iterator_t( NULL, -1 ); }
// element access
T& operator[]( int i );
const T& operator[]( int i ) const;
T& Element( int i );
const T& Element( int i ) const;
// Can we use this index?
bool IsIdxValid( int i ) const;
// Specify the invalid ('null') index that we'll only return on failure
static const int INVALID_INDEX = 0; // For use with COMPILE_TIME_ASSERT
static int InvalidIndex() { return INVALID_INDEX; }
// Size
int NumAllocated() const;
int Count() const { return NumAllocated(); }
// Grows memory by max(num,growsize), and returns the allocation index/ptr
void Grow( int num = 1 );
// Makes sure we've got at least this much memory
void EnsureCapacity( int num );
// Memory deallocation
void Purge();
protected:
// Fast swap - WARNING: Swap invalidates all ptr-based indices!!!
void Swap( CUtlFixedMemory< T > &mem );
bool IsInBlock( int i, BlockHeader_t *pBlockHeader ) const
{
T *p = ( T* )i;
const T *p0 = HeaderToBlock( pBlockHeader );
return p >= p0 && p < p0 + pBlockHeader->m_nBlockSize;
}
struct BlockHeader_t
{
BlockHeader_t *m_pNext;
int m_nBlockSize;
};
const T *HeaderToBlock( const BlockHeader_t *pHeader ) const { return ( T* )( pHeader + 1 ); }
const BlockHeader_t *BlockToHeader( const T *pBlock ) const { return ( BlockHeader_t* )( pBlock ) - 1; }
BlockHeader_t* m_pBlocks;
int m_nAllocationCount;
int m_nGrowSize;
};
//-----------------------------------------------------------------------------
// constructor, destructor
//-----------------------------------------------------------------------------
template< class T >
CUtlFixedMemory<T>::CUtlFixedMemory( int nGrowSize, int nInitAllocationCount )
: m_pBlocks( 0 ), m_nAllocationCount( 0 ), m_nGrowSize( 0 )
{
Init( nGrowSize, nInitAllocationCount );
}
template< class T >
CUtlFixedMemory<T>::~CUtlFixedMemory()
{
Purge();
}
//-----------------------------------------------------------------------------
// Fast swap - WARNING: Swap invalidates all ptr-based indices!!!
//-----------------------------------------------------------------------------
template< class T >
void CUtlFixedMemory<T>::Swap( CUtlFixedMemory< T > &mem )
{
V_swap( m_pBlocks, mem.m_pBlocks );
V_swap( m_nAllocationCount, mem.m_nAllocationCount );
V_swap( m_nGrowSize, mem.m_nGrowSize );
}
//-----------------------------------------------------------------------------
// Set the size by which the memory grows - round up to the next power of 2
//-----------------------------------------------------------------------------
template< class T >
void CUtlFixedMemory<T>::Init( int nGrowSize /* = 0 */, int nInitSize /* = 0 */ )
{
Purge();
m_nGrowSize = nGrowSize;
Grow( nInitSize );
}
//-----------------------------------------------------------------------------
// element access
//-----------------------------------------------------------------------------
template< class T >
inline T& CUtlFixedMemory<T>::operator[]( int i )
{
Assert( IsIdxValid(i) );
return *( T* )i;
}
template< class T >
inline const T& CUtlFixedMemory<T>::operator[]( int i ) const
{
Assert( IsIdxValid(i) );
return *( T* )i;
}
template< class T >
inline T& CUtlFixedMemory<T>::Element( int i )
{
Assert( IsIdxValid(i) );
return *( T* )i;
}
template< class T >
inline const T& CUtlFixedMemory<T>::Element( int i ) const
{
Assert( IsIdxValid(i) );
return *( T* )i;
}
//-----------------------------------------------------------------------------
// Size
//-----------------------------------------------------------------------------
template< class T >
inline int CUtlFixedMemory<T>::NumAllocated() const
{
return m_nAllocationCount;
}
//-----------------------------------------------------------------------------
// Is element index valid?
//-----------------------------------------------------------------------------
template< class T >
inline bool CUtlFixedMemory<T>::IsIdxValid( int i ) const
{
#ifdef _DEBUG
for ( BlockHeader_t *pbh = m_pBlocks; pbh; pbh = pbh->m_pNext )
{
if ( IsInBlock( i, pbh ) )
return true;
}
return false;
#else
return i != InvalidIndex();
#endif
}
template< class T >
void CUtlFixedMemory<T>::Grow( int num )
{
if ( num <= 0 )
return;
int nBlockSize = m_nGrowSize;
if ( nBlockSize == 0 )
{
if ( m_nAllocationCount )
{
nBlockSize = m_nAllocationCount;
}
else
{
// Compute an allocation which is at least as big as a cache line...
nBlockSize = ( 31 + sizeof( T ) ) / sizeof( T );
Assert( nBlockSize );
}
}
if ( nBlockSize < num )
{
int n = ( num + nBlockSize -1 ) / nBlockSize;
Assert( n * nBlockSize >= num );
Assert( ( n - 1 ) * nBlockSize < num );
nBlockSize *= n;
}
m_nAllocationCount += nBlockSize;
MEM_ALLOC_CREDIT_CLASS();
BlockHeader_t * RESTRICT pBlockHeader = ( BlockHeader_t* )malloc( sizeof( BlockHeader_t ) + nBlockSize * sizeof( T ) );
if ( !pBlockHeader )
{
Error( "CUtlFixedMemory overflow!\n" );
}
pBlockHeader->m_pNext = NULL;
pBlockHeader->m_nBlockSize = nBlockSize;
if ( !m_pBlocks )
{
m_pBlocks = pBlockHeader;
}
else
{
#if 1 // IsIdxAfter assumes that newly allocated blocks are at the end
BlockHeader_t * RESTRICT pbh = m_pBlocks;
while ( pbh->m_pNext )
{
pbh = pbh->m_pNext;
}
pbh->m_pNext = pBlockHeader;
#else
pBlockHeader = m_pBlocks;
pBlockHeader->m_pNext = m_pBlocks;
#endif
}
}
//-----------------------------------------------------------------------------
// Makes sure we've got at least this much memory
//-----------------------------------------------------------------------------
template< class T >
inline void CUtlFixedMemory<T>::EnsureCapacity( int num )
{
Grow( num - NumAllocated() );
}
//-----------------------------------------------------------------------------
// Memory deallocation
//-----------------------------------------------------------------------------
template< class T >
void CUtlFixedMemory<T>::Purge()
{
if ( !m_pBlocks )
return;
for ( BlockHeader_t *pbh = m_pBlocks; pbh; )
{
BlockHeader_t *pFree = pbh;
pbh = pbh->m_pNext;
free( pFree );
}
m_pBlocks = NULL;
m_nAllocationCount = 0;
}
#include "tier0/memdbgoff.h"
#endif // UTLFIXEDMEMORY_H