tqt3/doc/qvaluelist.doc

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** QValueList and QValueListIterator class documentation
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/*****************************************************************************
  QValueList documentation
 *****************************************************************************/

/*!
    \class QValueList ntqvaluelist.h
    \brief The QValueList class is a value-based template class that
    provides lists.

    \ingroup qtl
    \ingroup tools
    \ingroup shared
    \mainclass
    \reentrant

    QValueList is a TQt implementation of an STL-like list container.
    It can be used in your application if the standard \c list is not
    available for your target platform(s). QValueList is part of the
    \link ntqtl.html TQt Template Library\endlink.

    QValueList\<T\> defines a template instance to create a list of
    values that all have the class T. Note that QValueList does not
    store pointers to the members of the list; it holds a copy of
    every member. This is why these kinds of classes are called "value
    based"; QPtrList and QDict are "pointer based".

    QValueList contains and manages a collection of objects of type T
    and provides iterators that allow the contained objects to be
    addressed. QValueList owns the contained items. For more relaxed
    ownership semantics, see QPtrCollection and friends which are
    pointer-based containers.

    Some classes cannot be used within a QValueList, for example, all
    classes derived from TQObject and thus all classes that implement
    widgets. Only values can be used in a QValueList. To qualify as a
    value the class must provide:
    \list
    \i a copy constructor;
    \i an assignment operator;
    \i a default constructor, i.e. a constructor that does not take any arguments.
    \endlist

    Note that C++ defaults to field-by-field assignment operators and
    copy constructors if no explicit version is supplied. In many
    cases this is sufficient.

    In addition, some compilers (e.g. Sun CC) might require that the
    class provides an equality operator (operator==()).

    QValueList's function naming is consistent with the other Qt
    classes (e.g. count(), isEmpty()). QValueList also provides extra
    functions for compatibility with STL algorithms, such as size()
    and empty(). Programmers already familiar with the STL \c list may
    prefer to use the STL-compatible functions.

    Example:
    \code
    class Employee
    {
    public:
	Employee(): sn(0) {}
	Employee( const TQString& forename, const TQString& surname, int salary )
	    : fn(forename), sn(surname), sal(salary)
	{}

	TQString forename() const { return fn; }
	TQString surname() const { return sn; }
	int salary() const { return sal; }
	void setSalary( int salary ) { sal = salary; }

    private:
	TQString fn;
	TQString sn;
	int sal;
    };

    typedef QValueList<Employee> EmployeeList;
    EmployeeList list;

    list.append( Employee("John", "Doe", 50000) );
    list.append( Employee("Jane", "Williams", 80000) );
    list.append( Employee("Tom", "Jones", 60000) );

    Employee mary( "Mary", "Hawthorne", 90000 );
    list.append( mary );
    mary.setSalary( 100000 );

    EmployeeList::iterator it;
    for ( it = list.begin(); it != list.end(); ++it )
	cout << (*it).surname().latin1() << ", " <<
		(*it).forename().latin1() << " earns " <<
		(*it).salary() << endl;

    // Output:
    // Doe, John earns 50000
    // Williams, Jane earns 80000
    // Hawthorne, Mary earns 90000
    // Jones, Tom earns 60000
    \endcode


    Notice that the latest changes to Mary's salary did not affect the
    value in the list because the list created a copy of Mary's entry.

    There are several ways to find items in the list. The begin() and
    end() functions return iterators to the beginning and end of the
    list. The advantage of getting an iterator is that you can move
    forward or backward from this position by
    incrementing/decrementing the iterator. The iterator returned by
    end() points to the item which is one \e past the last item in the
    container. The past-the-end iterator is still associated with the
    list it belongs to, however it is \e not dereferenceable;
    operator*() will not return a well-defined value. If the list is
    empty(), the iterator returned by begin() will equal the iterator
    returned by end().

    Another way to find an item in the list is by using the \link
    ntqtl.html#qFind tqFind()\endlink algorithm. For example:

    \code
    QValueList<int> list;
    ...
    QValueList<int>::iterator it = tqFind( list.begin(), list.end(), 3 );
    if ( it != list.end() )
	// it points to the found item
    \endcode

    It is safe to have multiple iterators a the list at the same
    time. If some member of the list is removed, only iterators
    pointing to the removed member become invalid. Inserting into the
    list does not invalidate any iterator. For convenience, the
    function last() returns a reference to the last item in the list,
    and first() returns a reference to the the first item. If the
    list is empty(), both last() and first() have undefined behavior
    (your application will crash or do unpredictable things). Use
    last() and first() with caution, for example:

    \code
    QValueList<int> list;
    list.append( 1 );
    list.append( 2 );
    list.append( 3 );
    ...
    if ( !list.empty() ) {
	// OK, modify the first item
	int& i = list.first();
	i = 18;
    }
    ...
    QValueList<double> dlist;
    double d = dlist.last(); // undefined
    \endcode

    Because QValueList is value-based there is no need to be careful
    about deleting items in the list. The list holds its own copies
    and will free them if the corresponding member or the list itself
    is deleted. You can force the list to free all of its items with
    clear().

    QValueList is shared implicitly, which means it can be copied in
    constant time, i.e. O(1). If multiple QValueList instances share
    the same data and one needs to modify its contents, this modifying
    instance makes a copy and modifies its private copy; therefore it
    does not affect the other instances; this takes O(n) time. This is
    often called "copy on write". If a QValueList is being used in a
    multi-threaded program, you must protect all access to the list.
    See \l QMutex.

    There are several ways to insert items into the list. The
    prepend() and append() functions insert items at the beginning and
    the end of the list respectively. The insert() function comes in
    several flavors and can be used to add one or more items at
    specific positions within the list.

    Items can also be removed from the list in several ways. There
    are several variants of the remove() function, which removes a
    specific item from the list. The remove() function will find and
    remove items according to a specific item value.

    Lists can also be sorted using the \link ntqtl.html TQt Template
    Library\endlink. For example with qHeapSort():

    Example:
    \code
    QValueList<int> list;
    list.append( 5 );
    list.append( 8 );
    list.append( 3 );
    list.append( 4 );
    qHeapSort( list );
    \endcode

    \sa QValueListIterator
*/

/*! \enum QValueList::iterator
	The list's iterator type, QValueListIterator. */
/*! \enum QValueList::const_iterator
	The list's const iterator type, QValueListConstIterator. */
/*! \enum QValueList::value_type
	The type of the object stored in the list, T. */
/*! \enum QValueList::pointer
	The pointer to T type. */
/*! \enum QValueList::const_pointer
	The const pointer to T type. */
/*! \enum QValueList::reference
	The reference to T type. */
/*! \enum QValueList::const_reference
	The const reference to T type. */
/*! \enum QValueList::size_type
	An unsigned integral type, used to represent various sizes. */
/*! \enum QValueList::difference_type
    \internal
*/
/*! \enum QValueList::ValueType
    \internal
*/
/*!
    \fn QValueList::QValueList()

    Constructs an empty list.
*/

/*!
    \fn QValueList::QValueList( const QValueList<T>& l )

    Constructs a copy of \a l.

    This operation takes O(1) time because QValueList is implicitly
    shared.

    The first modification to a list will take O(n) time.
*/

/*!
    \fn QValueList::QValueList( const std::list<T>& l )

    Contructs a copy of \a l.

    This constructor is provided for compatibility with STL
    containers.
*/

/*!
    \fn QValueList::~QValueList()

    Destroys the list. References to the values in the list and all
    iterators of this list become invalidated. Note that it is
    impossible for an iterator to check whether or not it is valid:
    QValueList is highly tuned for performance, not for error
    checking.
*/

/*! \enum  QValueListIterator::NodePtr
	\internal */
/*! \enum  QValueListIterator::iterator_category
	\internal */
/*! \enum  QValueListIterator::size_type
	\internal */
/*! \enum  QValueListIterator::difference_type
	\internal */
/*!
    \fn QValueListIterator::QValueListIterator( NodePtr p )
    \internal
*/

/*!
    \fn bool QValueList::operator== ( const QValueList<T>& l ) const

    Compares both lists.

    Returns TRUE if this list and \a l are equal; otherwise returns
    FALSE.
*/

/*!
    \fn bool QValueList::operator== ( const std::list<T>& l ) const

    \overload

    Returns TRUE if this list and \a l are equal; otherwise returns
    FALSE.

    This operator is provided for compatibility with STL containers.
*/

/*!
    \fn QValueList<T>& QValueList::operator= ( const QValueList<T>& l )

    Assigns \a l to this list and returns a reference to this list.

    All iterators of the current list become invalidated by this
    operation. The cost of such an assignment is O(1) since QValueList
    is implicitly shared.
*/

/*!
    \fn QValueList<T>& QValueList::operator= ( const std::list<T>& l )

    \overload

    Assigns the contents of \a l to the list.

    All iterators of the current list become invalidated by this
    operation.
*/

/*!
    \fn bool QValueList::operator!= ( const QValueList<T>& l ) const

    Compares both lists.

    Returns TRUE if this list and \a l are unequal; otherwise returns
    FALSE.
*/

/*!
    \fn iterator QValueList::insert( iterator it, const T& x )

    Inserts the value \a x in front of the item pointed to by the
    iterator, \a it.

    Returns an iterator pointing at the inserted item.

    \sa append(), prepend()
*/

/*!
    \fn uint QValueList::remove( const T& x )

    \overload

    Removes all items that have value \a x and returns the number of
    removed items.
*/

/*!
    \fn void QValueList::clear()

    Removes all items from the list.

    \sa remove()
*/

/*!
    \fn iterator QValueList::begin()

    \overload

    Returns an iterator pointing to the first item in the list. This
    iterator equals end() if the list is empty.

    \sa first(), end()
*/

/*!
    \fn const_iterator QValueList::begin() const

    Returns an iterator pointing to the first item in the list. This
    iterator equals end() if the list is empty.

    \sa first(), end(), constBegin()
*/

/*!
    \fn const_iterator QValueList::constBegin() const

    Returns an iterator pointing to the first item in the list. This
    iterator equals constEnd() if the list is empty.

    \sa begin()
*/

/*!
    \fn iterator QValueList::end()

    Returns an iterator pointing \e past the last item in the list.
    This iterator equals begin() if the list is empty.

    \sa last(), begin(), constEnd()
*/

/*!
    \fn const_iterator QValueList::end() const

    \overload

    Returns an iterator pointing \e past the last item in the list.
    This iterator equals begin() if the list is empty.

    \sa last(), begin()
*/

/*!
    \fn const_iterator QValueList::constEnd() const

    Returns an iterator pointing \e past the last item in the list.
    This iterator equals constBegin() if the list is empty.

    \sa end()
*/

/*!
    \fn QDataStream& operator>>( QDataStream& s, QValueList<T>& l )

    \relates QValueList

    Reads a list, \a l, from the stream \a s. The type T stored in the
    list must implement the streaming operator.
*/

/*!
    \fn QDataStream& operator<<( QDataStream& s, const QValueList<T>& l )

    \overload
    \relates QValueList

    Writes a list, \a l, to the stream \a s. The type T stored in the
    list must implement the streaming operator.
*/

/*!
    \fn size_type QValueList::size() const

    Returns the number of items in the list.

    This function is provided for STL compatibility. It is equivalent
    to count().

    \sa empty()
*/

/*!
    \fn bool QValueList::empty() const

    Returns TRUE if the list contains no items; otherwise returns
    FALSE.

    \sa size()
*/

/*!
    \fn void QValueList::push_front( const T& x )

    Inserts \a x at the beginning of the list.

    This function is provided for STL compatibility. It is equivalent
    to prepend().
*/

/*!
    \fn void QValueList::push_back( const T& x )

    Inserts \a x at the end of the list.

    This function is provided for STL compatibility. It is equivalent
    to append().
*/

/*!
    \fn iterator QValueList::erase( iterator it )

    Removes the item pointed to by \a it from the list. No iterators
    other than \a it or other iterators pointing at the same item as
    \a it are invalidated. Returns an iterator to the next item after
    \a it, or end() if there is no such item.

    This function is provided for STL compatibility. It is equivalent
    to remove().
*/

/*!
    \fn iterator QValueList::erase( iterator first, iterator last )

    \overload

    Deletes all items from \a first to \a last (not including \a
    last). No iterators are invalidated, except those pointing to the
    removed items themselves. Returns \a last.
*/

/*!
    \fn reference QValueList::front()

    Returns a reference to the first item. If the list contains no
    first item (i.e. empty() returns TRUE), the return value is
    undefined.

    This function is provided for STL compatibility. It is equivalent
    to first().

    \sa back()
*/

/*!
    \fn const_reference QValueList::front() const

    \overload
*/

/*!
    \fn reference QValueList::back()

    Returns a reference to the last item. If the list contains no last
    item (i.e. empty() returns TRUE), the return value is undefined.

    This function is provided for STL compatibility. It is equivalent
    to last().

    \sa front()
*/

/*!
    \fn const_reference QValueList::back() const

    \overload
*/

/*!
    \fn void QValueList::pop_front()

    Removes the first item. If there is no first item, this operation
    is undefined.

    This function is provided for STL compatibility.
*/

/*!
    \fn void QValueList::pop_back()

    Removes the last item. If there is no last item, this operation is
    undefined.

    This function is provided for STL compatibility.
*/

/*!
    \fn void QValueList::insert( iterator pos, size_type n, const T& x )

    \overload

    Inserts \a n copies of \a x before position \a pos.
*/

/*!
  \fn void QValueList::detach()
  \internal
*/

/*!
    \fn QValueList<T>& QValueList::operator<< ( const T& x )

    Adds the value \a x to the end of the list.

    Returns a reference to the list.
*/

/*!
    \fn const T& QValueList::operator[] ( size_type i ) const

    Returns a const reference to the item with index \a i in the list.
    It is up to you to check whether this item really exists. You can
    do that easily with the count() function. However this operator
    does not check whether \a i is in range and will deliver undefined
    results if it does not exist.

    \warning This function uses a linear search and can be extremely
    slow for large lists. QValueList is not optimized for random item
    access. If you need random access use a different container, such
    as QValueVector.
*/

/*!
    \fn T& QValueList::operator[] ( size_type i )

    \overload

    Returns a non-const reference to the item with index \a i.
*/

/*!
    \fn const_iterator QValueList::at( size_type i ) const

    Returns an iterator pointing to the item at position \a i in the
    list, or an undefined value if the index is out of range.

    \warning This function uses a linear search and can be extremely
    slow for large lists. QValueList is not optimized for random item
    access. If you need random access use a different container, such
    as QValueVector.
*/

/*!
    \fn iterator QValueList::at( size_type i )

    \overload

    Returns an iterator pointing to the item at position \a i in the
    list, or an undefined value if the index is out of range.

*/

/*!
    \fn iterator QValueList::fromLast()

    \overload

    Returns an iterator to the last item in the list, or end() if
    there is no last item.

    Use the end() function instead. For example:

    \code
    QValueList<int> l;
    ...
    QValueList<int>::iterator it = l.end();
    --it;
    if ( it != end() )
	// ...
    \endcode

*/

/*!
    \fn const_iterator QValueList::fromLast() const

    Returns an iterator to the last item in the list, or end() if
    there is no last item.

    Use the end() function instead. For example:

    \code
    QValueList<int> l;
    ...
    QValueList<int>::iterator it = l.end();
    --it;
    if ( it != end() )
	// ...
    \endcode

*/

/*!
    \fn QValueList<T> QValueList::operator+( const QValueList<T>& l ) const

    Creates a new list and fills it with the items of this list. Then
    the items of \a l are appended. Returns the new list.
*/

/*!
    \fn QValueList<T>& QValueList::operator+= ( const QValueList<T>& l )

    Appends the items of \a l to this list. Returns a reference to
    this list.
*/

/*!
    \fn QValueList<T>& QValueList::operator+= ( const T& x )

    \overload

    Appends the value \a x to the list. Returns a reference to the
    list.
*/

/*!
    \fn uint QValueList::count() const

    Returns the number of items in the list.

    \sa isEmpty()
*/

/*!
    \fn bool QValueList::isEmpty() const

    Returns TRUE if the list contains no items; otherwise returns
    FALSE.

    \sa count()
*/

/*!
    \fn iterator QValueList::append( const T& x )

    Inserts \a x at the end of the list.

    \sa insert(), prepend()
*/

/*!
    \fn iterator QValueList::prepend( const T& x )

    Inserts \a x at the beginning of the list.

    \sa insert(), append()
*/

/*!
    \fn iterator QValueList::remove( iterator it )

    Removes the item pointed to by \a it from the list. No iterators
    other than \a it or other iterators pointing at the same item as
    \a it are invalidated. Returns an iterator to the next item after
    \a it, or end() if there is no such item.

    \sa clear()
*/

/*!
    \fn iterator QValueList::find( const T& x )

    Returns an iterator pointing to the first occurrence of \a x in
    the list.

    Returns end() is no item matched.
*/

/*!
    \fn const_iterator QValueList::find( const T& x ) const

    \overload

    Returns an iterator pointing to the first occurrence of \a x in
    the list.

    Returns end() if no item matched.
*/

/*!
    \fn iterator QValueList::find( iterator it, const T& x )

    \overload

    Finds the first occurrence of \a x in the list starting at the
    position given by \a it.

    Returns end() if no item matched.
*/

/*!
    \fn const_iterator QValueList::find( const_iterator it, const T& x ) const

    \overload

    Finds the first occurrence of \a x in the list starting at the
    position given by \a it.

    Returns end() if no item matched.
*/

/*!
    \fn uint QValueList::contains( const T& x ) const

    Returns the number of occurrences of the value \a x in the list.
*/

/*!
    \fn int QValueList::findIndex( const T& x ) const

    Returns the index of the first occurrence of the value \a x.
    Returns -1 if no item matched.
*/

/*!
    \fn T& QValueList::first()

    Returns a reference to the first item. If the list contains no
    first item (i.e. isEmpty() returns TRUE), the return value is
    undefined.

    \sa last()
*/

/*!
    \fn const T& QValueList::first() const

    \overload
*/

/*!
    \fn T& QValueList::last()

    Returns a reference to the last item. If the list contains no last
    item (i.e. empty() returns TRUE), the return value is undefined.
*/

/*!
    \fn const T& QValueList::last() const

    \overload
*/

/*****************************************************************************
  QValueListIterator documentation
 *****************************************************************************/

/*!
    \class QValueListIterator ntqvaluelist.h
    \brief The QValueListIterator class provides an iterator for QValueList.

    \ingroup qtl
    \ingroup tools
    \reentrant

    An iterator is a class for accessing the items of a container
    class: a generalization of the index in an array. A pointer
    into a "const char *" and an index into an "int[]" are both
    iterators, and the general idea is to provide that functionality
    for any data structure.

    The QValueListIterator class is an iterator for QValueList
    instantiations. You can create the appropriate iterator type by
    using the \c iterator typedef provided by QValueList.

    The only way to access the items in a QValueList is to use an
    iterator.

    Example (see QValueList for the complete code):
    \code
    EmployeeList::iterator it;
    for ( it = list.begin(); it != list.end(); ++it )
	cout << (*it).surname().latin1() << ", " <<
		(*it).forename().latin1() << " earns " <<
		(*it).salary() << endl;

    // Output:
    // Doe, John earns 50000
    // Williams, Jane earns 80000
    // Hawthorne, Mary earns 90000
    // Jones, Tom earns 60000
    \endcode

    QValueList is highly optimized for performance and memory usage.
    This means that you must be careful: QValueList does not know
    about all its iterators and the iterators don't know to which list
    they belong. This makes things very fast, but if you're not
    careful, you can get spectacular bugs. Always make sure iterators
    are valid before dereferencing them or using them as parameters to
    generic algorithms in the STL or the \link ntqtl.html QTL\endlink.

    Using an invalid iterator is undefined (your application will
    probably crash). Many TQt functions return const value lists; to
    iterate over these you should make a copy and iterate over the
    copy.

    For every Iterator there is a ConstIterator. When accessing a
    QValueList in a const environment or if the reference or pointer
    to the list is itself const, then you must use the ConstIterator.
    Its semantics are the same as the Iterator, but it only returns
    const references.

    \sa QValueList, QValueListConstIterator
*/

/*! \enum  QValueListIterator::value_type
	The type of value, T. */
/*! \enum  QValueListIterator::pointer
	Pointer to value_type. */
/*! \enum  QValueListIterator::reference
	Reference to value_type. */

/*!
    \fn QValueListIterator::QValueListIterator()

    Creates un uninitialized iterator.
*/

/*
    \fn QValueListIterator::QValueListIterator( NodePtr p )

    \overload

    \internal
*/

/*!
    \fn QValueListIterator::QValueListIterator( const QValueListIterator<T>& it )

    \overload

    Constructs a copy of the iterator \a it.
*/

/* Unfortunately not with MSVC
  \fn T *QValueListIterator::operator->()
  Pointer operator. Returns a pointer to the current iterator item.
  The great advantage of this operator is that you can treat the
  iterator like a pointer.

  Example:
  \code
    QValueList<int>::Iterator it = list.begin();
    for( ; it != end(); ++it )
	it->show();
  \endcode
*/

/*!
    \fn T& QValueListIterator::operator*()

    Asterisk operator. Returns a reference to the current iterator item.
*/

/*!
    \fn const T& QValueListIterator::operator*() const

    \overload

    Asterisk operator. Returns a reference to the current iterator item.
*/

/*!
    \fn QValueListIterator<T>& QValueListIterator::operator++()

    Prefix ++ makes the succeeding item current and returns an
    iterator pointing to the new current item. The iterator cannot
    check whether it reached the end of the list. Incrementing the
    iterator returned by end() causes undefined results.
*/

/*!
    \fn QValueListIterator<T> QValueListIterator::operator++(int)

    \overload

    Postfix ++ makes the succeeding item current and returns an
    iterator pointing to the new current item. The iterator cannot
    check whether it reached the end of the list. Incrementing the
    iterator returned by end() causes undefined results.
*/

/*!
    \fn QValueListIterator<T>& QValueListIterator::operator--()

    Prefix -- makes the previous item current and returns an iterator
    pointing to the new current item. The iterator cannot check
    whether it reached the beginning of the list. Decrementing the
    iterator returned by begin() causes undefined results.
*/

/*!
    \fn QValueListIterator<T> QValueListIterator::operator--(int)

    \overload

    Postfix -- makes the previous item current and returns an iterator
    pointing to the new current item. The iterator cannot check
    whether it reached the beginning of the list. Decrementing the
    iterator returned by begin() causes undefined results.
*/


/*!
    \fn QValueListIterator<T>& QValueListIterator::operator+=(int j)

    Postfix -- jumps \a j steps forward in the list. The iterator
    cannot check whether it reached the end of the list. Jumping past
    the end() causes undefined results.
*/

/*!
    \fn QValueListIterator<T>& QValueListIterator::operator-=(int j)

    Postfix -- jumps \a j steps backward in the list. The iterator
    cannot check whether it reached the beginning of the list. Jumping
    past begin() causes undefined results.
*/

/*!
    \fn bool QValueListIterator::operator==( const QValueListIterator<T>& it ) const

    Compares this iterator and \a it and returns TRUE if they point to
    the same item; otherwise returns FALSE.
*/

/*!
    \fn bool QValueListIterator::operator!=( const QValueListIterator<T>& it ) const

    Compares this iterator and \a it and returns TRUE if they point to
    different items; otherwise returns FALSE.
*/

/*****************************************************************************
  QValueListConstIterator documentation
 *****************************************************************************/

/*!
    \class QValueListConstIterator ntqvaluelist.h
    \brief The QValueListConstIterator class provides a const iterator
    for QValueList.

    \ingroup qtl
    \ingroup tools
    \reentrant

    In contrast to QValueListIterator, this class is used to iterate
    over a const list. It does not allow modification of the values of
    the list since that would break const semantics.

    You can create the appropriate const iterator type by using the \c
    const_iterator typedef provided by QValueList.

    For more information on QValueList iterators, see
    QValueListIterator.

    \sa QValueListIterator, QValueList
*/

/*! \enum  QValueListConstIterator::value_type
	The type of value. */
/*! \enum  QValueListConstIterator::pointer
	Pointer to value_type. */
/*! \enum  QValueListConstIterator::reference
	Reference to value_type. */
/*! \enum  QValueListConstIterator::NodePtr
	\internal */
/*! \enum  QValueListConstIterator::iterator_category
	\internal */
/*! \enum  QValueListConstIterator::size_type
	\internal */
/*! \enum  QValueListConstIterator::difference_type
	\internal */

/*!
    \fn QValueListConstIterator::QValueListConstIterator()

    Creates un uninitialized iterator.
*/

/*!
    \fn QValueListConstIterator::QValueListConstIterator( NodePtr p )

    \overload

    \internal
*/

/*!
    \fn QValueListConstIterator::QValueListConstIterator( const QValueListConstIterator<T>& it )

    \overload

    Constructs a copy of the iterator \a it.
*/

/*!
    \fn QValueListConstIterator::QValueListConstIterator( const QValueListIterator<T>& it )

    Constructs a copy of the iterator \a it.
*/

/* Unfortunately not with MSVC
  \fn const T *QValueListConstIterator::operator->()
  Pointer operator. Returns a pointer to the current iterator item.
  The great advantage of this operator is that you can treat the
  iterator like a pointer.

  Example:
  \code
    QValueList<int>::Iterator it = list.begin();
    for( ; it != end(); ++it )
	it->show();
  \endcode
*/

/*!
    \fn const T& QValueListConstIterator::operator*() const

    Asterisk operator. Returns a reference to the current iterator item.
*/

/*!
    \fn QValueListConstIterator<T>& QValueListConstIterator::operator++()

    Prefix ++ makes the succeeding item current and returns an
    iterator pointing to the new current item. The iterator cannot
    check whether it reached the end of the list. Incrementing the
    iterator returned by end() causes undefined results.
*/

/*!
    \fn QValueListConstIterator<T> QValueListConstIterator::operator++(int)

    \overload

    Postfix ++ makes the succeeding item current and returns an
    iterator pointing to the new current item. The iterator cannot
    check whether it reached the end of the list. Incrementing the
    iterator returned by end() causes undefined results.
*/

/*!
    \fn QValueListConstIterator<T>& QValueListConstIterator::operator--()

    Prefix -- makes the previous item current and returns an iterator
    pointing to the new current item. The iterator cannot check
    whether it reached the beginning of the list. Decrementing the
    iterator returned by begin() causes undefined results.
*/

/*!
    \fn QValueListConstIterator<T> QValueListConstIterator::operator--(int)

    \overload

    Postfix -- makes the previous item current and returns an iterator
    pointing to the new current item. The iterator cannot check
    whether it reached the beginning of the list. Decrementing the
    iterator returned by begin() causes undefined results.
*/

/*!
    \fn bool QValueListConstIterator::operator==( const QValueListConstIterator<T>& it ) const

    Compares this iterator with \a it and returns TRUE if they point
    to the same item; otherwise returns FALSE.
*/

/*!
    \fn bool QValueListConstIterator::operator!=( const QValueListConstIterator<T>& it ) const

    Compares this iterator with \a it and returns TRUE if they point
    to different items; otherwise returns FALSE.
*/


/*!
    \enum QValueList::Iterator

    This iterator is an instantiation of QValueListIterator for the
    same type as this QValueList. In other words, if you instantiate
    QValueList<int>, Iterator is a QValueListIterator<int>. Several
    member function use it, such as QValueList::begin(), which returns
    an iterator pointing to the first item in the list.

    Functionally, this is almost the same as ConstIterator. The only
    difference is that you cannot use ConstIterator for non-const
    operations, and that the compiler can often generate better code
    if you use ConstIterator.

    \sa QValueListIterator ConstIterator
*/

/*!
    \enum QValueList::ConstIterator

    This iterator is an instantiation of QValueListConstIterator for
    the same type as this QValueList. In other words, if you
    instantiate QValueList<int>, ConstIterator is a
    QValueListConstIterator<int>. Several member function use it, such
    as QValueList::begin(), which returns an iterator pointing to the
    first item in the list.

    Functionally, this is almost the same as Iterator. The only
    difference is you cannot use ConstIterator for non-const
    operations, and that the compiler can often generate better code
    if you use ConstIterator.

    \sa QValueListIterator Iterator
*/