lemon/bits/alteration_notifier.h
author Peter Kovacs <kpeter@inf.elte.hu>
Tue, 24 Mar 2009 00:18:25 +0100
changeset 604 8c3112a66878
parent 361 f58410582b9b
child 979 43a91b33f374
permissions -rw-r--r--
Use XTI implementation instead of ATI in NetworkSimplex (#234)

XTI (eXtended Threaded Index) is an imporved version of the widely
known ATI (Augmented Threaded Index) method for storing and updating
the spanning tree structure in Network Simplex algorithms.

In the ATI data structure three indices are stored for each node:
predecessor, thread and depth. In the XTI data structure depth is
replaced by the number of successors and the last successor
(according to the thread index).
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/* -*- mode: C++; indent-tabs-mode: nil; -*-
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 *
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 * This file is a part of LEMON, a generic C++ optimization library.
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 *
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 * Copyright (C) 2003-2009
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 * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
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 * (Egervary Research Group on Combinatorial Optimization, EGRES).
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 *
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 * Permission to use, modify and distribute this software is granted
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 * provided that this copyright notice appears in all copies. For
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 * precise terms see the accompanying LICENSE file.
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 *
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 * This software is provided "AS IS" with no warranty of any kind,
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 * express or implied, and with no claim as to its suitability for any
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 * purpose.
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 *
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 */
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#ifndef LEMON_BITS_ALTERATION_NOTIFIER_H
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#define LEMON_BITS_ALTERATION_NOTIFIER_H
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#include <vector>
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#include <list>
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#include <lemon/core.h>
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//\ingroup graphbits
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//\file
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//\brief Observer notifier for graph alteration observers.
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namespace lemon {
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  // \ingroup graphbits
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  //
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  // \brief Notifier class to notify observes about alterations in
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  // a container.
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  //
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  // The simple graphs can be refered as two containers: a node container
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  // and an edge container. But they do not store values directly, they
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  // are just key continars for more value containers, which are the
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  // node and edge maps.
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  //
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  // The node and edge sets of the graphs can be changed as we add or erase
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  // nodes and edges in the graph. LEMON would like to handle easily
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  // that the node and edge maps should contain values for all nodes or
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  // edges. If we want to check on every indicing if the map contains
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  // the current indicing key that cause a drawback in the performance
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  // in the library. We use another solution: we notify all maps about
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  // an alteration in the graph, which cause only drawback on the
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  // alteration of the graph.
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  //
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  // This class provides an interface to a node or edge container.
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  // The first() and next() member functions make possible
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  // to iterate on the keys of the container.
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  // The id() function returns an integer id for each key.
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  // The maxId() function gives back an upper bound of the ids.
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  //
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  // For the proper functonality of this class, we should notify it
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  // about each alteration in the container. The alterations have four type:
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  // add(), erase(), build() and clear(). The add() and
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  // erase() signal that only one or few items added or erased to or
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  // from the graph. If all items are erased from the graph or if a new graph
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  // is built from an empty graph, then it can be signaled with the
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  // clear() and build() members. Important rule that if we erase items
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  // from graphs we should first signal the alteration and after that erase
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  // them from the container, on the other way on item addition we should
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  // first extend the container and just after that signal the alteration.
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  //
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  // The alteration can be observed with a class inherited from the
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  // ObserverBase nested class. The signals can be handled with
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  // overriding the virtual functions defined in the base class.  The
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  // observer base can be attached to the notifier with the
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  // attach() member and can be detached with detach() function. The
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  // alteration handlers should not call any function which signals
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  // an other alteration in the same notifier and should not
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  // detach any observer from the notifier.
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  //
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  // Alteration observers try to be exception safe. If an add() or
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  // a clear() function throws an exception then the remaining
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  // observeres will not be notified and the fulfilled additions will
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  // be rolled back by calling the erase() or clear() functions.
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  // Hence erase() and clear() should not throw exception.
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  // Actullay, they can throw only \ref ImmediateDetach exception,
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  // which detach the observer from the notifier.
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  //
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  // There are some cases, when the alteration observing is not completly
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  // reliable. If we want to carry out the node degree in the graph
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  // as in the \ref InDegMap and we use the reverseArc(), then it cause
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  // unreliable functionality. Because the alteration observing signals
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  // only erasing and adding but not the reversing, it will stores bad
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  // degrees. Apart form that the subgraph adaptors cannot even signal
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  // the alterations because just a setting in the filter map can modify
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  // the graph and this cannot be watched in any way.
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  //
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  // \param _Container The container which is observed.
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  // \param _Item The item type which is obserbved.
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  template <typename _Container, typename _Item>
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  class AlterationNotifier {
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  public:
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    typedef True Notifier;
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    typedef _Container Container;
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    typedef _Item Item;
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    // \brief Exception which can be called from clear() and
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    // erase().
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    //
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    // From the clear() and erase() function only this
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    // exception is allowed to throw. The exception immediatly
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    // detaches the current observer from the notifier. Because the
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    // clear() and erase() should not throw other exceptions
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    // it can be used to invalidate the observer.
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    struct ImmediateDetach {};
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    // \brief ObserverBase is the base class for the observers.
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    //
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    // ObserverBase is the abstract base class for the observers.
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    // It will be notified about an item was inserted into or
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    // erased from the graph.
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    //
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    // The observer interface contains some pure virtual functions
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    // to override. The add() and erase() functions are
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    // to notify the oberver when one item is added or erased.
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    //
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    // The build() and clear() members are to notify the observer
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    // about the container is built from an empty container or
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    // is cleared to an empty container.
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    class ObserverBase {
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    protected:
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      typedef AlterationNotifier Notifier;
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      friend class AlterationNotifier;
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      // \brief Default constructor.
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      //
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      // Default constructor for ObserverBase.
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      ObserverBase() : _notifier(0) {}
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      // \brief Constructor which attach the observer into notifier.
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      //
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      // Constructor which attach the observer into notifier.
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      ObserverBase(AlterationNotifier& nf) {
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        attach(nf);
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      }
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      // \brief Constructor which attach the obserever to the same notifier.
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      //
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      // Constructor which attach the obserever to the same notifier as
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      // the other observer is attached to.
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      ObserverBase(const ObserverBase& copy) {
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        if (copy.attached()) {
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          attach(*copy.notifier());
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        }
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      }
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      // \brief Destructor
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      virtual ~ObserverBase() {
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        if (attached()) {
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          detach();
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        }
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      }
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      // \brief Attaches the observer into an AlterationNotifier.
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      //
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      // This member attaches the observer into an AlterationNotifier.
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      void attach(AlterationNotifier& nf) {
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        nf.attach(*this);
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      }
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      // \brief Detaches the observer into an AlterationNotifier.
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      //
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      // This member detaches the observer from an AlterationNotifier.
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      void detach() {
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        _notifier->detach(*this);
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      }
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      // \brief Gives back a pointer to the notifier which the map
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      // attached into.
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      //
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      // This function gives back a pointer to the notifier which the map
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      // attached into.
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      Notifier* notifier() const { return const_cast<Notifier*>(_notifier); }
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      // Gives back true when the observer is attached into a notifier.
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      bool attached() const { return _notifier != 0; }
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    private:
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      ObserverBase& operator=(const ObserverBase& copy);
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    protected:
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      Notifier* _notifier;
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      typename std::list<ObserverBase*>::iterator _index;
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      // \brief The member function to notificate the observer about an
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      // item is added to the container.
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      //
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      // The add() member function notificates the observer about an item
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      // is added to the container. It have to be overrided in the
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      // subclasses.
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      virtual void add(const Item&) = 0;
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      // \brief The member function to notificate the observer about
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      // more item is added to the container.
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      //
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      // The add() member function notificates the observer about more item
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      // is added to the container. It have to be overrided in the
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      // subclasses.
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      virtual void add(const std::vector<Item>& items) = 0;
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      // \brief The member function to notificate the observer about an
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      // item is erased from the container.
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      //
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      // The erase() member function notificates the observer about an
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      // item is erased from the container. It have to be overrided in
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      // the subclasses.
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      virtual void erase(const Item&) = 0;
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      // \brief The member function to notificate the observer about
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      // more item is erased from the container.
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      //
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      // The erase() member function notificates the observer about more item
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      // is erased from the container. It have to be overrided in the
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      // subclasses.
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      virtual void erase(const std::vector<Item>& items) = 0;
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      // \brief The member function to notificate the observer about the
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      // container is built.
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      //
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      // The build() member function notificates the observer about the
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      // container is built from an empty container. It have to be
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      // overrided in the subclasses.
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      virtual void build() = 0;
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      // \brief The member function to notificate the observer about all
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      // items are erased from the container.
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      //
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      // The clear() member function notificates the observer about all
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      // items are erased from the container. It have to be overrided in
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      // the subclasses.
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      virtual void clear() = 0;
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    };
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  protected:
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    const Container* container;
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    typedef std::list<ObserverBase*> Observers;
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    Observers _observers;
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  public:
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    // \brief Default constructor.
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    //
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    // The default constructor of the AlterationNotifier.
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    // It creates an empty notifier.
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    AlterationNotifier()
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      : container(0) {}
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    // \brief Constructor.
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    //
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    // Constructor with the observed container parameter.
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    AlterationNotifier(const Container& _container)
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      : container(&_container) {}
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    // \brief Copy Constructor of the AlterationNotifier.
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    //
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    // Copy constructor of the AlterationNotifier.
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    // It creates only an empty notifier because the copiable
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    // notifier's observers have to be registered still into that notifier.
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    AlterationNotifier(const AlterationNotifier& _notifier)
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      : container(_notifier.container) {}
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    // \brief Destructor.
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    //
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    // Destructor of the AlterationNotifier.
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    ~AlterationNotifier() {
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      typename Observers::iterator it;
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      for (it = _observers.begin(); it != _observers.end(); ++it) {
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        (*it)->_notifier = 0;
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      }
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    }
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    // \brief Sets the container.
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    //
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    // Sets the container.
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    void setContainer(const Container& _container) {
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      container = &_container;
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    }
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  protected:
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    AlterationNotifier& operator=(const AlterationNotifier&);
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  public:
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    // \brief First item in the container.
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    //
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    // Returns the first item in the container. It is
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    // for start the iteration on the container.
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    void first(Item& item) const {
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      container->first(item);
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    }
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    // \brief Next item in the container.
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    //
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    // Returns the next item in the container. It is
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    // for iterate on the container.
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    void next(Item& item) const {
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      container->next(item);
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    }
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    // \brief Returns the id of the item.
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    //
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    // Returns the id of the item provided by the container.
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    int id(const Item& item) const {
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      return container->id(item);
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    }
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    // \brief Returns the maximum id of the container.
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    //
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    // Returns the maximum id of the container.
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    int maxId() const {
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      return container->maxId(Item());
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    }
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  protected:
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    void attach(ObserverBase& observer) {
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      observer._index = _observers.insert(_observers.begin(), &observer);
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      observer._notifier = this;
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    }
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    void detach(ObserverBase& observer) {
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      _observers.erase(observer._index);
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      observer._index = _observers.end();
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      observer._notifier = 0;
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    }
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  public:
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    // \brief Notifies all the registed observers about an item added to
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    // the container.
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    //
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    // It notifies all the registed observers about an item added to
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    // the container.
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    void add(const Item& item) {
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      typename Observers::reverse_iterator it;
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      try {
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        for (it = _observers.rbegin(); it != _observers.rend(); ++it) {
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          (*it)->add(item);
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        }
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      } catch (...) {
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        typename Observers::iterator jt;
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        for (jt = it.base(); jt != _observers.end(); ++jt) {
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          (*jt)->erase(item);
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        }
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        throw;
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      }
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    }
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    // \brief Notifies all the registed observers about more item added to
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    // the container.
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    //
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    // It notifies all the registed observers about more item added to
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    // the container.
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    void add(const std::vector<Item>& items) {
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      typename Observers::reverse_iterator it;
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      try {
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        for (it = _observers.rbegin(); it != _observers.rend(); ++it) {
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          (*it)->add(items);
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        }
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      } catch (...) {
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        typename Observers::iterator jt;
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        for (jt = it.base(); jt != _observers.end(); ++jt) {
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          (*jt)->erase(items);
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        }
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        throw;
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      }
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    }
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    // \brief Notifies all the registed observers about an item erased from
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    // the container.
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    //
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    // It notifies all the registed observers about an item erased from
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    // the container.
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    void erase(const Item& item) throw() {
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      typename Observers::iterator it = _observers.begin();
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      while (it != _observers.end()) {
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        try {
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          (*it)->erase(item);
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          ++it;
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        } catch (const ImmediateDetach&) {
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          (*it)->_index = _observers.end();
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          (*it)->_notifier = 0;
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          it = _observers.erase(it);
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        }
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      }
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    }
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    // \brief Notifies all the registed observers about more item erased
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    // from the container.
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    //
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    // It notifies all the registed observers about more item erased from
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    // the container.
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    void erase(const std::vector<Item>& items) {
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      typename Observers::iterator it = _observers.begin();
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      while (it != _observers.end()) {
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        try {
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          (*it)->erase(items);
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          ++it;
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        } catch (const ImmediateDetach&) {
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          (*it)->_index = _observers.end();
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          (*it)->_notifier = 0;
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          it = _observers.erase(it);
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        }
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      }
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    }
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    // \brief Notifies all the registed observers about the container is
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    // built.
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    //
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    // Notifies all the registed observers about the container is built
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    // from an empty container.
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    void build() {
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      typename Observers::reverse_iterator it;
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      try {
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        for (it = _observers.rbegin(); it != _observers.rend(); ++it) {
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          (*it)->build();
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        }
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      } catch (...) {
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        typename Observers::iterator jt;
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        for (jt = it.base(); jt != _observers.end(); ++jt) {
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          (*jt)->clear();
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        }
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        throw;
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      }
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    }
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    // \brief Notifies all the registed observers about all items are
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    // erased.
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    //
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    // Notifies all the registed observers about all items are erased
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    // from the container.
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    void clear() {
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      typename Observers::iterator it = _observers.begin();
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      while (it != _observers.end()) {
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   453
        try {
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   454
          (*it)->clear();
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   455
          ++it;
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   456
        } catch (const ImmediateDetach&) {
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   457
          (*it)->_index = _observers.end();
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          (*it)->_notifier = 0;
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          it = _observers.erase(it);
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        }
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      }
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    }
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  };
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}
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#endif