#ifndef NAN_INCLUDED_GEN_SmartPtr_h #define NAN_INCLUDED_GEN_SmartPtr_h /** * $Id: GEN_SmartPtr.h 26841 2010-02-12 13:34:04Z campbellbarton $ * * ***** BEGIN GPL LICENSE BLOCK ***** * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software Foundation, * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * * The Original Code is Copyright (C) 2001-2002 by NaN Holding BV. * All rights reserved. * * The Original Code is: all of this file. * * Contributor(s): none yet. * * ***** END GPL LICENSE BLOCK ***** * * @author Laurence */ #include // for NULL ! /** * @section GEN_SmartPtr * This class defines a smart pointer similar to that defined in * the Standard Template Library but without the painful get() * semantics to access the internal c style pointer. * * It is often useful to explicitely decalre ownership of memory * allocated on the heap within class or function scope. This * class helps you to encapsulate this ownership within a value * type. When an instance of this class goes out of scope it * makes sure that any memory associated with it's internal pointer * is deleted. It can help to inform users of an aggregate class * that it owns instances of it's members and these instances * should not be shared. This is not reliably enforcable in C++ * but this class attempts to make the 1-1 relationship clear. * * @section Example usage * * class foo { * ...constructors accessors etc. * int x[1000]; * } * * class bar { * public : * static * bar * * New( * ) { * GEN_SmartPtr afoo = new foo(); * GEN_SmartPtr that = new bar(); * * if (foo == NULL || that == NULL) return NULL; * * that->m_foo = afoo.Release(); * return that.Release(); * } * * ~bar() { * // smart ptr takes care of deletion * } * private : * GEN_SmartPtr m_foo; * } * * You my also safely construct vectors of GEN_SmartPtrs and * have the vector own stuff you put into it. * * e.g. * { * std::vector > foo_vector; * foo_vector.push_back( new foo()); * foo_vector.push_back( new foo()); * * foo_vector[0]->bla(); * } // foo_vector out of scope => heap memory freed for both foos * * @warning this class should only be used for objects created * on the heap via the new function. It will not behave correctly * if you pass ptrs to objects created with new[] nor with * objects declared on the stack. Doing this is likely to crash * the program or lead to memory leaks. */ template < class T > class GEN_SmartPtr { public : /** * Construction from reference - this class * always assumes ownership from the rhs. */ GEN_SmartPtr( const GEN_SmartPtr &rhs ){ m_val = rhs.Release(); } /** * Construction from ptr - this class always * assumes that it now owns the memory associated with the * ptr. */ GEN_SmartPtr( T* val ) : m_val (val) { } /** * Defalut constructor */ GEN_SmartPtr( ) : m_val (NULL) { } /** * Type conversion from this class to the type * of a pointer to the template parameter. * This means you can pass an instance of this class * to a function expecting a ptr of type T. */ operator T * () const { return m_val; } /** * Return a reference to the internal ptr class. * Use with care when you now that the internal ptr * is not NULL! */ T & Ref( ) const { return *m_val; } /** * Assignment operator - ownership is transfered from rhs to lhs. * There is an intenional side-effect of function of transferring * ownership from the const parameter rhs. This is to insure * the 1-1 relationship. * The object associated with this instance is deleted if it * is not the same as that contained in the rhs. */ GEN_SmartPtr & operator=( const GEN_SmartPtr &rhs ) { if (this->m_val != rhs.m_val) { delete this->m_val; } this->m_val = rhs.Release(); return *this; } /** * Overload the operator -> so that it's possible to access * all the normal methods of the internal ptr. */ T * operator->() const { return m_val; } /** * Caller takes ownership of the object - the object will not * be deleted when the ptr goes out of scope. */ T * Release( ) const { T* temp = m_val; (const_cast(this))->m_val = NULL; return temp; } /** * Force destruction of the internal object. */ void Delete( ) { delete (m_val); m_val = NULL; } /** * Destructor - deletes object if it exists */ ~GEN_SmartPtr( ) { delete (m_val); } private : /// The ptr owned by this class. T * m_val; }; #endif