windows-nt/Source/XPSP1/NT/inetsrv/iis/staxinc/refptr2.h

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2020-09-26 03:20:57 -05:00
//
// This file contains another implementation of smart pointers. It is
// different from the implementation found in smartptr.h because the
// object itself deletes itself when its reference count hits 0. This
// is similar to the way COM objects are written.
//
#ifndef _SMARTP2_H_
#define _SMARTP2_H_
#include <dbgtrace.h>
//
// A reference counting implementation
//
class CRefCount2 {
protected:
LONG m_cRefs;
public:
CRefCount2() {
m_cRefs = 1;
}
virtual ~CRefCount2() {
}
LONG AddRef() {
return InterlockedIncrement(&m_cRefs);
}
void Release() {
LONG r = InterlockedDecrement(&m_cRefs);
_ASSERT(r >= 0);
if (r == 0) delete this;
}
};
template<class Type> class CRefPtr2;
//
// This is a type of pointer which can be returned by functions. The only
// valid operation on it is to copy it to a CRefPtr2<Type> pointer. It
// tells the CRefPtr2 not to do an AddRef.
//
template<class Type>
class CRefPtr2HasRef {
protected:
Type *m_p;
CRefPtr2HasRef<Type>& operator=(const CRefPtr2HasRef<Type>& rhs) {
_ASSERT(FALSE);
return *this;
}
BOOL operator==(CRefPtr2<Type>&rhs) {
_ASSERT(FALSE);
return m_p == rhs.m_p;
}
BOOL operator!=(CRefPtr2<Type>&rhs) {
_ASSERT(FALSE);
return m_p != rhs.m_p;
}
public:
//
// Do nothing protected constructor !
//
CRefPtr2HasRef() : m_p( 0 ) {
}
CRefPtr2HasRef(const Type *p ) :
m_p( (Type*)p ) {
if (m_p) m_p->AddRef();
}
~CRefPtr2HasRef() {
// this pointer always needs to be copied to a CRefPtr2, which
// should set m_p to NULL
_ASSERT(m_p == NULL);
}
friend class CRefPtr2<Type>;
};
template<class Type, BOOL fAddRef>
class CHasRef : public CRefPtr2HasRef<Type> {
public :
CHasRef( const Type* p = 0 ) {
m_p = (Type*)p ;
if( fAddRef ) {
if( m_p )
m_p->AddRef() ;
}
}
} ;
template< class Type >
class CRefPtr2 {
private:
Type* m_p ;
public :
CRefPtr2(const CRefPtr2<Type>& ref) {
m_p = ref.m_p;
if (m_p) m_p->AddRef();
}
// copy from an intermediate pointer -- we don't need to do an addref
CRefPtr2(CRefPtr2HasRef<Type> &ref) {
m_p = ref.m_p;
ref.m_p = NULL;
}
CRefPtr2(const Type *p = 0) {
m_p = (Type *) p;
if (m_p) m_p->AddRef();
}
~CRefPtr2() {
if (m_p) m_p->Release();
}
CRefPtr2<Type>& operator=(const CRefPtr2<Type>& rhs) {
if (m_p != rhs.m_p) {
Type *pTemp = m_p;
m_p = rhs.m_p;
if (m_p) m_p->AddRef();
if (pTemp) pTemp->Release();
}
return *this;
}
// copy from an intermediate pointer -- we don't need to do an addref
CRefPtr2<Type>& operator=(CRefPtr2HasRef<Type>& rhs) {
Type *pTemp = m_p;
m_p = rhs.m_p;
if (pTemp) pTemp->Release();
rhs.m_p = NULL;
return *this;
}
CRefPtr2<Type>& operator=(const Type *rhs) {
if (m_p != rhs) {
Type *pTemp = m_p;
m_p = (Type *) rhs;
if (m_p) m_p->AddRef();
if (pTemp) pTemp->Release();
}
return *this;
}
BOOL operator==(CRefPtr2<Type>&rhs) {
return m_p == rhs.m_p;
}
BOOL operator!=(CRefPtr2<Type>&rhs) {
return m_p != rhs.m_p;
}
BOOL operator==(Type *p) {
return m_p == p;
}
BOOL operator!=(Type *p) {
return m_p != p;
}
Type *operator->() const {
return m_p ;
}
operator Type*() const {
return m_p ;
}
BOOL operator!() const {
return !m_p ;
}
};
#endif