//=========== (C) Copyright 1999 Valve, L.L.C. All rights reserved. =========== // // The copyright to the contents herein is the property of Valve, L.L.C. // The contents may be used and/or copied only with the written permission of // Valve, L.L.C., or in accordance with the terms and conditions stipulated in // the agreement/contract under which the contents have been supplied. // // $Header: $ // $NoKeywords: $ // // A growable memory class. //============================================================================= #ifndef UTLMEMORY_H #define UTLMEMORY_H #ifdef _WIN32 #pragma once #endif #include "port.h" #include #ifdef NO_STL template void *operator new(size_t count, T *ptr) { return ptr; } #elif defined _WIN32 #include #else #include #endif #include #include //----------------------------------------------------------------------------- // Methods to invoke the constructor, copy constructor, and destructor //----------------------------------------------------------------------------- template inline void Construct( T* pMemory ) { new( pMemory ) T; } template inline void CopyConstruct( T* pMemory, T const& src ) { new( pMemory ) T(src); } template inline void Destruct( T* pMemory ) { pMemory->~T(); #ifdef _DEBUG memset( pMemory, 0xDD, sizeof(T) ); #endif } #pragma warning (disable:4100) #pragma warning (disable:4514) //----------------------------------------------------------------------------- // The CUtlMemory class: // A growable memory class which doubles in size by default. //----------------------------------------------------------------------------- template< class T > class CUtlMemory { public: // constructor, destructor CUtlMemory( int nGrowSize = 0, int nInitSize = 0 ); CUtlMemory( T* pMemory, int numElements ); ~CUtlMemory(); // element access T& operator[]( int i ); T const& operator[]( int i ) const; T& Element( int i ); T const& Element( int i ) const; // Can we use this index? bool IsIdxValid( int i ) const; // Gets the base address (can change when adding elements!) T* Base(); T const* Base() const; // Attaches the buffer to external memory.... void SetExternalBuffer( T* pMemory, int numElements ); // Size int NumAllocated() const; int Count() const; // Grows the memory, so that at least allocated + num elements are allocated void Grow( int num = 1 ); // Makes sure we've got at least this much memory void EnsureCapacity( int num ); // Memory deallocation void Purge(); // is the memory externally allocated? bool IsExternallyAllocated() const; // Set the size by which the memory grows void SetGrowSize( int size ); private: enum { EXTERNAL_BUFFER_MARKER = -1 }; T* m_pMemory; int m_nAllocationCount; int m_nGrowSize; }; //----------------------------------------------------------------------------- // constructor, destructor //----------------------------------------------------------------------------- template< class T > CUtlMemory::CUtlMemory( int nGrowSize, int nInitAllocationCount ) : m_pMemory(0), m_nAllocationCount( nInitAllocationCount ), m_nGrowSize( nGrowSize ) { Assert( (nGrowSize >= 0) && (nGrowSize != EXTERNAL_BUFFER_MARKER) ); if (m_nAllocationCount) { m_pMemory = (T*)malloc( m_nAllocationCount * sizeof(T) ); } } template< class T > CUtlMemory::CUtlMemory( T* pMemory, int numElements ) : m_pMemory(pMemory), m_nAllocationCount( numElements ) { // Special marker indicating externally supplied memory m_nGrowSize = EXTERNAL_BUFFER_MARKER; } template< class T > CUtlMemory::~CUtlMemory() { Purge(); } //----------------------------------------------------------------------------- // Attaches the buffer to external memory.... //----------------------------------------------------------------------------- template< class T > void CUtlMemory::SetExternalBuffer( T* pMemory, int numElements ) { // Blow away any existing allocated memory Purge(); m_pMemory = pMemory; m_nAllocationCount = numElements; // Indicate that we don't own the memory m_nGrowSize = EXTERNAL_BUFFER_MARKER; } //----------------------------------------------------------------------------- // element access //----------------------------------------------------------------------------- template< class T > inline T& CUtlMemory::operator[]( int i ) { Assert( IsIdxValid(i) ); return m_pMemory[i]; } template< class T > inline T const& CUtlMemory::operator[]( int i ) const { Assert( IsIdxValid(i) ); return m_pMemory[i]; } template< class T > inline T& CUtlMemory::Element( int i ) { Assert( IsIdxValid(i) ); return m_pMemory[i]; } template< class T > inline T const& CUtlMemory::Element( int i ) const { Assert( IsIdxValid(i) ); return m_pMemory[i]; } //----------------------------------------------------------------------------- // is the memory externally allocated? //----------------------------------------------------------------------------- template< class T > bool CUtlMemory::IsExternallyAllocated() const { return m_nGrowSize == EXTERNAL_BUFFER_MARKER; } template< class T > void CUtlMemory::SetGrowSize( int nSize ) { Assert( (nSize >= 0) && (nSize != EXTERNAL_BUFFER_MARKER) ); m_nGrowSize = nSize; } //----------------------------------------------------------------------------- // Gets the base address (can change when adding elements!) //----------------------------------------------------------------------------- template< class T > inline T* CUtlMemory::Base() { return m_pMemory; } template< class T > inline T const* CUtlMemory::Base() const { return m_pMemory; } //----------------------------------------------------------------------------- // Size //----------------------------------------------------------------------------- template< class T > inline int CUtlMemory::NumAllocated() const { return m_nAllocationCount; } template< class T > inline int CUtlMemory::Count() const { return m_nAllocationCount; } //----------------------------------------------------------------------------- // Is element index valid? //----------------------------------------------------------------------------- template< class T > inline bool CUtlMemory::IsIdxValid( int i ) const { return (i >= 0) && (i < m_nAllocationCount); } //----------------------------------------------------------------------------- // Grows the memory //----------------------------------------------------------------------------- template< class T > void CUtlMemory::Grow( int num ) { Assert( num > 0 ); if (IsExternallyAllocated()) { // Can't grow a buffer whose memory was externally allocated Assert(0); return; } // Make sure we have at least numallocated + num allocations. // Use the grow rules specified for this memory (in m_nGrowSize) int nAllocationRequested = m_nAllocationCount + num; while (m_nAllocationCount < nAllocationRequested) { if ( m_nAllocationCount != 0 ) { if (m_nGrowSize) { m_nAllocationCount += m_nGrowSize; } else { m_nAllocationCount += m_nAllocationCount; } } else { // Compute an allocation which is at least as big as a cache line... m_nAllocationCount = (31 + sizeof(T)) / sizeof(T); Assert(m_nAllocationCount != 0); } } if (m_pMemory) { T* pTempMemory = ( T* )realloc( m_pMemory, m_nAllocationCount * sizeof( T ) ); if( !pTempMemory ) return; m_pMemory = pTempMemory; } else { m_pMemory = (T*)malloc( m_nAllocationCount * sizeof(T) ); } } //----------------------------------------------------------------------------- // Makes sure we've got at least this much memory //----------------------------------------------------------------------------- template< class T > inline void CUtlMemory::EnsureCapacity( int num ) { if (m_nAllocationCount >= num) return; if (IsExternallyAllocated()) { // Can't grow a buffer whose memory was externally allocated Assert(0); return; } m_nAllocationCount = num; if (m_pMemory) { T* pTempMemory = ( T* )realloc( m_pMemory, m_nAllocationCount * sizeof( T ) ); if( !pTempMemory ) return; m_pMemory = pTempMemory; } else { m_pMemory = (T*)malloc( m_nAllocationCount * sizeof(T) ); } } //----------------------------------------------------------------------------- // Memory deallocation //----------------------------------------------------------------------------- template< class T > void CUtlMemory::Purge() { if (!IsExternallyAllocated()) { if (m_pMemory) { free( (void*)m_pMemory ); m_pMemory = 0; } m_nAllocationCount = 0; } } #endif//UTLMEMORY_H