windows-nt/Source/XPSP1/NT/inetsrv/query/h/tsmem.hxx

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//+---------------------------------------------------------------------------
//
// Copyright (C) 1994 - 1988, Microsoft Corporation
//
// File: tsmem.hxx
//
// Contents: Safe array allocation templates.
//
// Templates: XArray, XArrayVirtual
//
// History: 31-Aug-94 dlee Created
//
//----------------------------------------------------------------------------
#pragma once
//+-------------------------------------------------------------------------
//
// Class: XArray
//
// Purpose: Smart array template based on the new/delete allocator
//
// History: 31-Aug-94 dlee Created
//
//--------------------------------------------------------------------------
template <class T> class XArray
{
public:
XArray() : _cElems( 0 ), _pElems( 0 )
{
}
XArray( unsigned cElems ) : _cElems( cElems )
{
_pElems = new T[cElems];
}
XArray( XArray<T> & src )
{
// don't do this in initializers -- _pElems is declared first
// so the old array is acquired before the count is copied
_cElems = src._cElems;
_pElems = src.Acquire();
}
~XArray(void) { delete [] _pElems; }
void Init( unsigned cElems )
{
Win4Assert( _pElems == 0 );
_cElems = cElems;
_pElems = new T[cElems];
}
void Init( XArray<T> const & src )
{
Win4Assert( _pElems == 0 );
_cElems = src._cElems;
_pElems = new T[_cElems];
RtlCopyMemory( _pElems, src._pElems, _cElems * sizeof T );
}
void Set( unsigned cElems, T * pElems )
{
Win4Assert( _pElems == 0 );
_cElems = cElems;
_pElems = pElems;
}
T * Get() const { return _pElems; }
T * GetPointer() const { return _pElems; }
T * Acquire() { T * p = _pElems; _pElems = 0; _cElems = 0; return p; }
BOOL IsNull() const { return ( 0 == _pElems); }
T & operator[](ULONG_PTR iElem) { return _pElems[iElem]; }
T const & operator[](ULONG_PTR iElem) const { return _pElems[iElem]; }
unsigned Count() const { return _cElems; }
unsigned SizeOf() const { return _cElems * sizeof T; }
void Free() { delete [] Acquire(); }
void ReSize( unsigned cElems )
{
T * pNew = new T[cElems];
RtlCopyMemory( pNew, _pElems, sizeof T * __min( cElems, _cElems ) );
delete [] _pElems;
_pElems = pNew;
_cElems = cElems;
}
private:
T * _pElems;
unsigned _cElems;
};
//+-------------------------------------------------------------------------
//
// Class: XArrayVirtual
//
// Purpose: Smart array template based on Win32's VirtualAlloc()
//
// History: 2-Aug-95 dlee Created
//
//--------------------------------------------------------------------------
template <class T> class XArrayVirtual
{
public:
XArrayVirtual() : _cElems( 0 ), _pElems( 0 ), _cbReserved(0)
{
}
XArrayVirtual(unsigned cElems, size_t cbReserve = 0) :
_cElems( cElems ),
_cbReserved(cbReserve)
{
if (_cbReserved)
{
Win4Assert( sizeof T * cElems <= _cbReserved );
_pElems = (T *) VirtualAlloc( 0,
_cbReserved,
MEM_RESERVE,
PAGE_READWRITE );
if (_pElems != 0 && cElems > 0)
{
void * pb = VirtualAlloc( _pElems,
sizeof T * cElems,
MEM_COMMIT,
PAGE_READWRITE );
if (0 == pb)
{
VirtualFree( _pElems, 0, MEM_RELEASE );
THROW(CException(E_OUTOFMEMORY));
}
}
}
else
{
_pElems = (T *) VirtualAlloc( 0,
sizeof T * cElems,
MEM_COMMIT,
PAGE_READWRITE );
}
if (0 == _pElems)
THROW(CException(E_OUTOFMEMORY));
}
~XArrayVirtual(void)
{
if ( 0 != _pElems )
{
VirtualFree( _pElems, sizeof T * _cElems, MEM_DECOMMIT);
VirtualFree( _pElems, 0, MEM_RELEASE );
}
}
void Init( unsigned cElems )
{
Win4Assert( _pElems == 0 );
_cElems = cElems;
_pElems = (T *) VirtualAlloc( 0,
sizeof T * cElems,
MEM_COMMIT,
PAGE_READWRITE );
if (0 == _pElems)
THROW(CException(E_OUTOFMEMORY));
}
void ReInit( unsigned cElems )
{
if ( 0 != _pElems )
VirtualFree( _pElems, 0, MEM_RELEASE );
_cbReserved = _cElems = 0;
_pElems = 0;
Init( cElems );
}
void Resize( unsigned cElems )
{
size_t cbOldSize = sizeof T * _cElems;
size_t cbNewSize = sizeof T * cElems;
Win4Assert( cbNewSize <= _cbReserved );
Win4Assert( _pElems != 0 );
if (cbNewSize > cbOldSize)
{
if (0 == VirtualAlloc(_pElems + cbOldSize,
cbNewSize - cbOldSize,
MEM_COMMIT,
PAGE_READWRITE))
THROW(CException(E_OUTOFMEMORY));
}
else
{
VirtualFree(_pElems + cbNewSize, cbOldSize-cbNewSize, MEM_DECOMMIT);
}
_cElems = cElems;
}
void Set( unsigned cElems, T * pElems )
{
Win4Assert( _pElems == 0 );
_cElems = cElems;
_pElems = pElems;
}
T * Get() const { return _pElems; }
T * GetPointer() const { return _pElems; }
T * Acquire() { T * p = _pElems; _pElems = 0; return p; }
BOOL IsNull() const { return ( 0 == _pElems); }
T & operator[](ULONG iElem) { return _pElems[iElem]; }
T const & operator[](ULONG iElem) const { return _pElems[iElem]; }
unsigned Count() const { return _cElems; }
private:
size_t _cbReserved; // reserved size
T * _pElems;
unsigned _cElems;
};