/*----------------------------------------------------------------------------- Microsoft Confidential Copyright (c) Microsoft Corporation. All Rights Reserved. Copyright (c) 1995 by P.J. Plauger. ALL RIGHTS RESERVED. Copyright (c) 1994 Hewlett-Packard Company Permission to use, copy, modify, distribute and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. Hewlett-Packard Company makes no representations about the suitability of this software for any purpose. It is provided "as is" without express or implied warranty. @doc external @module CFusionPointerIterator @owner a-Jayk, JayKrell -----------------------------------------------------------------------------*/ #pragma once #include "CFusionPointerIterator.h" //namespace NVseeLibContainer //{ /* Name: CFusionPointerIterator::CFusionPointerIterator @mfunc This constructs the iterator, making it equivalent (at least its value, not quite its interface) to the pointer passed in. @owner a-Jayk, JayKrell */ template CFusionPointerIterator::CFusionPointerIterator ( Pointer p // @arg set the iterator to this initially. ) throw() : m_current(p) { } /* Name: CFusionPointerIterator::CFusionPointerIterator @mfunc This copy constructs an iterator, but it is not necessarily the "default" copy constructor. If the iterator is const, this copy constructor constructs it from a non const iterator. The reverse conversion (const to non const) is invalid and disallowed. If the iterator is not const, this does end up being the usual copy constructor. @owner a-Jayk, JayKrell */ template CFusionPointerIterator::CFusionPointerIterator ( const CFusionPointerIterator < T, Distance, MutablePointer, MutableReference, MutablePointer, MutableReference >& x ) throw() : m_current(x.PtBase()) { } /* Name: CFusionPointerIterator::PtBase @mfunc This returns the value of the pointer underlying the iterator. It is in std::_Ptrit, but should not be needed by clients, but it used once internally. @owner a-Jayk, JayKrell */ template inline Pointer CFusionPointerIterator::PtBase ( ) const throw() { return (m_current); } /* Name: CFusionPointerIterator::operator* @mfunc This dereferences the iterator, which is exactly like dereferencing the underlying pointer. @owner a-Jayk, JayKrell */ template inline Reference CFusionPointerIterator::operator* ( ) const throw() { return (*m_current); } /* Name: CFusionPointerIterator::operator-> @mfunc This dereferences the underlying pointer, but in the way that can be followed by the name of a member datum or member function. @owner a-Jayk, JayKrell */ template inline Pointer CFusionPointerIterator::operator-> ( ) const throw() { return (&**this); } /* Name: CFusionPointerIterator::operator++ @mfunc This increments the iterator, and returns the new value. It is pre increment. @owner a-Jayk, JayKrell */ template inline CFusionPointerIterator& CFusionPointerIterator::operator++ ( ) throw() { ++m_current; return (*this); } /* Name: CFusionPointerIterator::operator++ @mfunc This increments the iterator, and returns the old value. It is post increment. @owner a-Jayk, JayKrell */ template inline CFusionPointerIterator CFusionPointerIterator::operator++ ( int ) throw() { CFusionPointerIterator tmp = *this; ++m_current; return (tmp); } /* Name: CFusionPointerIterator::operator-- @mfunc This decrements the iterator, and returns the new value. It is pre decrement. @owner a-Jayk, JayKrell */ template inline CFusionPointerIterator& CFusionPointerIterator::operator-- ( ) throw() { --m_current; return (*this); } /* Name: CFusionPointerIterator::operator-- @mfunc This decrements the iterator, and returns the old value. It is post decrement. @owner a-Jayk, JayKrell */ template inline CFusionPointerIterator CFusionPointerIterator::operator-- ( int ) throw() { CFusionPointerIterator tmp = *this; --m_current; return (tmp); } /* Name: CFusionPointerIterator::operator== @mfunc This compares an iterator for equality with an integer. It is totally type unsafe and I don't know why std::_Ptrit provides it. Maybe for comparison to NULL?..no, that doesn't make sense, you should only compare iterators with other iterators, including the return value of Container::end(). @owner a-Jayk, JayKrell */ /* FUTURE Why is this in xutility template inline bool CFusionPointerIterator::operator==(int y) const { return (m_current == reinterpret_cast(y)); } */ /* Name: CFusionPointerIterator::operator== @mfunc @owner a-Jayk, JayKrell */ template inline bool CFusionPointerIterator::operator== ( const CFusionPointerIterator& y // @arg ) const throw() { return (m_current == y.m_current); } /* Name: CFusionPointerIterator::operator!= @mfunc @owner a-Jayk, JayKrell */ template inline bool CFusionPointerIterator::operator!= ( const CFusionPointerIterator& y ) const throw() { return (!(*this == y)); } /* Name: CFusionPointerIterator::operator+= @mfunc @owner a-Jayk, JayKrell */ template inline CFusionPointerIterator& CFusionPointerIterator::operator+= ( Distance n // @arg ) throw() { m_current += n; return (*this); } /* Name: CFusionPointerIterator::operator+ @mfunc @owner a-Jayk, JayKrell */ template inline CFusionPointerIterator CFusionPointerIterator::operator+ ( Distance n // @arg ) const throw() { return (CFusionPointerIterator(m_current + n)); } /* Name: CFusionPointerIterator::operator-= @mfunc @owner a-Jayk, JayKrell */ template inline CFusionPointerIterator& CFusionPointerIterator::operator-= ( Distance n // @arg ) throw() { m_current -= n; return (*this); } /* Name: CFusionPointerIterator::operator- @mfunc @owner a-Jayk, JayKrell */ template inline CFusionPointerIterator CFusionPointerIterator::operator- ( Distance n // @arg ) const throw() { return (CFusionPointerIterator(m_current - n)); } /* Name: CFusionPointerIterator::operator[] @mfunc @owner a-Jayk, JayKrell */ template inline Reference CFusionPointerIterator::operator[] ( Distance n // @arg ) const throw() { return (*(*this + n)); } /* Name: CFusionPointerIterator::operator< @mfunc @owner a-Jayk, JayKrell */ template inline bool CFusionPointerIterator::operator< ( const CFusionPointerIterator& y // @arg ) const throw() { return (m_current < y.m_current); } /* Name: CFusionPointerIterator::operator> @mfunc @owner a-Jayk, JayKrell */ template inline bool CFusionPointerIterator::operator> ( const CFusionPointerIterator& y // @arg ) const throw() { return (y < *this); } /* Name: CFusionPointerIterator::operator<= @mfunc @owner a-Jayk, JayKrell */ template inline bool CFusionPointerIterator::operator<= ( const CFusionPointerIterator& y // @arg ) const throw() { return (!(y < *this)); } /* Name: CFusionPointerIterator::operator>= @mfunc @owner a-Jayk, JayKrell */ template inline bool CFusionPointerIterator::operator>= ( const CFusionPointerIterator& y // @arg ) const throw() { return (!(*this < y)); } /* Name: CFusionPointerIterator::operator- @mfunc @owner a-Jayk, JayKrell */ template inline Distance CFusionPointerIterator::operator- ( const CFusionPointerIterator& y // @arg ) const throw() { // static_cast, say, __int64 down to int return static_cast(m_current - y.m_current); } /* Name: operator+ @func @owner a-Jayk, JayKrell */ template inline CFusionPointerIterator operator+ ( Distance n, // @arg const CFusionPointerIterator& y // @arg ) throw() { return (y + n); } //} // namespace