windows-nt/Source/XPSP1/NT/inetsrv/iis/staxinc/smartptr.h

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2020-09-26 03:20:57 -05:00
//
// smartptr.h
//
// This file contains stuff for implementing reference counting smart
// pointers.
//
// Implementation Schedule for all classes defined by this file :
//
// 0.5 week.
//
// Unit Test Schedule for all classes defined by this file :
//
// 0.5 week.
// Unit Testing will consist of the following :
// Define a class derived from CRefCount. On one thread
// create this object and place it into a smart pointer.
// Pass a copy of the smart pointer to several other threads.
// These threads should wait a random interval - print the contents
// of the object and then destroy their smart pointer.
//
// The test should insure that :
// All Memory is freed.
// The objects are not prematurely destroyed by the smart pointers.
//
//
#ifndef _SMARTPTR_H_
#define _SMARTPTR_H_
#ifndef Assert
#define Assert _ASSERT
#endif
//------------------------------------------------------------------
class CRefCount {
//
// This class contains a long which is used to count references to an
// object. This class is designed to work with the CRefPtr template
// that follows within this file.
//
// Users of this class should publicly derive from the class
// (ie : 'class CNewsGroup : public CRefCount {'.
// Once this is done, the derived object can be reference counted.
// The functions AddRef() and RemoveRef() are used to add and remove
// reference counts, using InterlockedIncrement and InterlockedDecrement.
// If RemoveRef returns a negative value the object no longer has
// any references.
//
// Objects derived from this should have Init() functions.
// All initialization of the object should be done through these
// Init() functions, the constructor should do minimal work.
//
// This allows the creation of a smart pointer to allocate the
// memory for the object. The object is then initialized by calling
// through the smart pointer into the Init() function.
//
public :
LONG m_refs ;
inline CRefCount( ) ;
inline LONG AddRef( ) ;
inline LONG RemoveRef( ) ;
} ;
//
// refcount.inl contains all of the actual implementation of this class.
//
#include "refcount.inl"
//------------------------------------------------------------------
template< class Type >
class CRefPtr {
//
// This template is used to build reference counting pointers to
// an object. The object should be a class derived from CRefCount.
// The cost of using these smart pointers is 1 DWORD for the smart pointer
// itself, and 1 DWORD in the pointed to object to contain the reference
// count.
//
// These Smart Pointers will do the following :
// On Creation the smart pointer will add a reference to the pointed to object.
// On Assignment 'operator=' the smart pointer will check for assignment
// to self, if this is not the case it will remove a reference from the
// pointed to object and destroy it if necessary. It will then point
// itself to the assigned object and add a reference to it.
// On Destruction the smart pointer will remove a reference from the
// pointed to object, and if necessary delete it.
//
private:
Type* m_p ;
//CRefPtr( ) ;
public :
inline CRefPtr( const CRefPtr< Type >& ) ;
inline CRefPtr( const Type *p = 0 ) ;
inline ~CRefPtr( ) ;
inline CRefPtr<Type>& operator=( const CRefPtr<Type>& ) ;
inline CRefPtr<Type>& operator=( const Type * ) ;
inline BOOL operator==( CRefPtr<Type>& ) ;
inline BOOL operator!=( CRefPtr<Type>& ) ;
inline BOOL operator==( Type* ) ;
inline BOOL operator!=( Type* ) ;
inline Type* operator->() const ;
inline operator Type* () const ;
inline BOOL operator!() const ;
inline Type* Release() ;
inline Type* Replace( Type * ) ;
} ;
//------------------------------------------------------------------
template< class Type >
class CSmartPtr {
//
// This template is used to build reference counting pointers to
// an object. The object should be a class derived from CRefCount.
// The cost of using these smart pointers is 1 DWORD for the smart pointer
// itself, and 1 DWORD in the pointed to object to contain the reference
// count.
//
// These Smart Pointers will do the following :
// On Creation the smart pointer will add a reference to the pointed to object.
// On Assignment 'operator=' the smart pointer will check for assignment
// to self, if this is not the case it will remove a reference from the
// pointed to object and destroy it if necessary. It will then point
// itself to the assigned object and add a reference to it.
// On Destruction the smart pointer will remove a reference from the
// pointed to object, and if necessary delete it.
//
private:
Type* m_p ;
public :
inline CSmartPtr( const CSmartPtr< Type >& ) ;
inline CSmartPtr( const Type *p = 0 ) ;
inline ~CSmartPtr( ) ;
//inline CSmartPtr<Type>& operator=( CSmartPtr<Type>& ) ;
inline CSmartPtr<Type>& operator=( const CSmartPtr<Type>& ) ;
inline CSmartPtr<Type>& operator=( const Type * ) ;
inline BOOL operator==( CSmartPtr<Type>& ) ;
inline BOOL operator!=( CSmartPtr<Type>& ) ;
inline BOOL operator==( Type* ) ;
inline BOOL operator!=( Type* ) ;
inline Type* operator->() const ;
inline operator Type* () const ;
inline BOOL operator!() const ;
inline Type* Release() ;
inline Type* Replace( Type * ) ;
} ;
#include "smartptr.inl"
#endif // _SORTLIST_H_