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GP< TYPE > Class Template Reference

#include <GSmartPointer.h>

Inheritance diagram for GP< TYPE >:


List of all members.

Detailed Description

template<class TYPE>
class GP< TYPE >

Reference counting pointer. Class GP<TYPE># represents a smart-pointer to an object of type TYPE#. Type TYPE# must be a subclass of GPEnabled#. This class overloads the usual pointer assignment and dereferencing operators. The overloaded operators maintain the reference counters and destroy the pointed object as soon as their reference counter reaches zero. Transparent type conversions are provided between smart-pointers and regular pointers.

Using a smart-pointer is a convenience and not an obligation. There is no need to use a smart-pointer to access a GPEnabled# object. As long as you never use a smart-pointer to access a GPEnabled# object, its reference counter remains zero. Since the reference counter is never decremented from one to zero, the object is never destroyed by the reference counting code. You can therefore choose to only use regular pointers to access objects allocated on the stack (automatic variables) or objects allocated dynamically. In the latter case you must explicitly destroy the dynamically allocated object with operator delete#.

The first time you use a smart-pointer to access GPEnabled# object, the reference counter is incremented to one. Object destruction will then happen automatically when the reference counter is decremented back to zero (i.e. when the last smart-pointer referencing this object stops doing so). This will happen regardless of how many regular pointers reference this object. In other words, if you start using smart-pointers with a GPEnabled# object, you engage automatic mode for this object. You should only do this with objects dynamically allocated with operator new#. You should never destroy the object yourself, but let the smart-pointers control the life of the object.

{ Performance considerations} --- Thread safe reference counting incurs a significant overhead. Smart-pointer are best used with sizeable objects for which the cost of maintaining the counters represent a small fraction of the processing time. It is always possible to cache a smart-pointer into a regular pointer. The cached pointer will remain valid until the smart-pointer object is destroyed or the smart-pointer value is changed.

{ Safety considerations} --- As explained above, a GPEnabled# object switches to automatic mode as soon as it becomes referenced by a smart-pointer. There is no way to switch the object back to manual mode. Suppose that you have decided to only use regular pointers with a particular GPEnabled# object. You therefore plan to destroy the object explicitly when you no longer need it. When you pass a regular pointer to this object as argument to a function, you really need to be certain that the function implementation will not assign this pointer to a smart-pointer. Doing so would indeed destroy the object as soon as the function returns. The bad news is that the fact that a function assigns a pointer argument to a smart-pointer does not necessarily appear in the function prototype. Such a behavior must be {documented} with the function public interface. As a convention, we usually write such functions with smart-pointer arguments instead of a regular pointer arguments. This is not enough to catch the error at compile time, but this is a simple way to document such a behavior. We still believe that this is a small problem in regard to the benefits of the smart-pointer. But one has to be aware of its existence.

Definition at line 245 of file GSmartPointer.h.

Public Member Functions

 GP (TYPE *nptr)
 GP (const GP< TYPE > &sptr)
 GP ()
 operator TYPE * () const
int operator! () const
int operator!= (TYPE *nptr) const
TYPE & operator* () const
TYPE * operator-> () const
GP< TYPE > & operator= (const GP< TYPE > &sptr)
GP< TYPE > & operator= (TYPE *nptr)
int operator== (TYPE *nptr) const

Protected Member Functions

GPBaseassign (GPEnabled *nptr)
GPBaseassign (const GPBase &sptr)
GPEnabledget () const
int operator== (const GPBase &g2) const

Protected Attributes


The documentation for this class was generated from the following file:

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