windows-nt/Source/XPSP1/NT/ds/security/csps/cryptoflex/slbcsp/rsrcctrlr.h

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// RsrcCtrlr.h -- ReSouRCe ConTRoLleR template class
// (c) Copyright Schlumberger Technology Corp., unpublished work, created
// 1999. This computer program includes Confidential, Proprietary
// Information and is a Trade Secret of Schlumberger Technology Corp. All
// use, disclosure, and/or reproduction is prohibited unless authorized
// in writing. All Rights Reserved.
#if !defined(SLBCSP_RSRCCTRLR_H)
#define SLBCSP_RSRCCTRLR_H
// ResourceController is an abstract base template class to control
// the acquisition and release of a resource. The controlled resource
// (m_Resource) is a protected member. The class implements a handle
// interface to safely access and manipulate that resource in
// conjunction with the derived class.
//
// Example usages of the ResourceController are implementing the
// "resource acquisition is initialization," locking and unlocking an
// object for thread safety, and counted pointer idioms.
//
//
// DERIVED CLASS RESPONSIBILITY: To complete the implementation, the
// derived class must define the Acquire and Release methods to
// perform the resource acquisition and release operations,
// respectively. The ResourceController does not call Acquire in the
// constructor since that method is defined by the derived class and
// the derived portion of the object is not be considered constructed
// at the time the base class constructor is called. For reasons of
// symetry, ResourceController does not call Release in the
// destructor. Therefore, it is the derived classes responsibility to
// define constructors, a destructor, and call Acquire and Release in
// those methods as appropriate.
//
// As with any derived class implementation, any assignment operators
// defined by the derived class should call the the comparable
// versions in ResourceController.
//
// CONSTRAINTS: T must support a default value (have a default
// constructor).
//
// ResourceController was not designed to be referenced directly, that
// is why all of it's methods (except Acquire and Release) are not
// defined virtual.
//
// NOTE: Comparison helpers are defined at the end.
template<class T>
class ResourceController
{
public:
// Types
// PrivateDummy is a helper class to support validity testing of
// ResourceController. This class together with the conversion
// operator PrivateDummy const *() below allows
// ResourceControllers to be tested for nullness (validity tests).
// The implemenation allows these tests in a syntactically natural
// way without allowing heterogeneous comparisons and that won't
// violate the protections that ResourceController provides. The
// technique is a variation from an article by Don Box in "Com
// Smart Pointers Also Considered Harmful," 1996, C++ Report.
class PrivateDummy
{};
// C'tors/D'tors
virtual
~ResourceController() throw () = 0;
// Operators
operator T() const;
ResourceController<T> &
operator=(T const &rhs);
ResourceController<T> &
operator=(ResourceController<T> const &rhs);
operator PrivateDummy const *() /* const */;
// Enable validity test of ResourceController. See description of
// PrivateDummy type.
// making this a const routine causes compilation
// problems in VC++ 6.0 for some reason.
// Operations
// Access
T
operator->() const;
T
operator*() const;
// Predicates
protected:
// Types
// C'tors/D'tors
explicit
ResourceController(T const &rResource = T());
ResourceController(ResourceController<T> const &rhs);
// Operators
// Operations
void
DoAcquire();
virtual void
DoAfterAssignment();
virtual void
DoBeforeAssignment();
void
DoRelease();
// Access
// Predicates
// Variables
T m_Resource;
private:
// Types
// C'tors/D'tors
// Operators
// Operations
// Access
// Predicates
// Variables
};
///////////////////////// TEMPLATE METHODS //////////////////////////////
/////////////////////////// PUBLIC /////////////////////////////////
// Types
// C'tors/D'tors
template<class T>
ResourceController<T>::~ResourceController() throw()
{}
// Operators
template<class T>
ResourceController<T>::operator T() const
{
return m_Resource;
}
template<class T>
T
ResourceController<T>::operator->() const
{
return m_Resource;
}
template<class T>
T
ResourceController<T>::operator*() const
{
return m_Resource;
}
template<class T>
ResourceController<T>::operator ResourceController<T>::PrivateDummy const *() /* const */
{
return m_Resource
? reinterpret_cast<PrivateDummy *>(this)
: 0;
}
template<class T>
ResourceController<T> &
ResourceController<T>::operator=(T const &rhs)
{
if (m_Resource != rhs)
{
DoBeforeAssignment();
m_Resource = rhs;
DoAfterAssignment();
}
return *this;
}
template<class T>
ResourceController<T> &
ResourceController<T>::operator=(ResourceController<T> const &rhs)
{
if (this != &rhs)
{
DoBeforeAssignment();
m_Resource = rhs.m_Resource;
DoAfterAssignment();
}
return *this;
}
// Operations
// Access
// Predicates
// Static Variables
/////////////////////////// PROTECTED /////////////////////////////////
// C'tors/D'tors
template<class T>
ResourceController<T>::ResourceController(T const &rResource)
: m_Resource(rResource)
{}
template<class T>
ResourceController<T>::ResourceController(ResourceController<T> const &rhs)
: m_Resource(rhs.m_Resource)
{}
// Operators
// Operations
template<class T>
void
ResourceController<T>::DoAcquire()
{}
template<class T>
void
ResourceController<T>::DoAfterAssignment()
{}
template<class T>
void
ResourceController<T>::DoBeforeAssignment()
{}
template<class T>
void
ResourceController<T>::DoRelease()
{}
// Access
// Predicates
// Static Variables
/////////////////////////// PRIVATE /////////////////////////////////
// C'tors/D'tors
// Operators
// Operations
// Access
// Predicates
// Static Variables
/////////////////////////// HELPERS /////////////////////////////////
template<class T>
bool
operator==(ResourceController<T> const &lhs,
ResourceController<T> const &rhs)
{
return lhs.m_Resource == rhs.m_Resource;
}
template<class T>
bool
operator!=(ResourceController<T> const &lhs,
ResourceController<T> const &rhs)
{
return !operator==(lhs, rhs);
}
#endif // SLBCSP_RSRCCTRLR_H