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/* -*- C++ -*-
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* src/lemon/skeletons/path.h - Part of LEMON, a generic C++ optimization library
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*
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* Copyright (C) 2004 Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
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* (Egervary Combinatorial Optimization Research Group, 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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///\ingroup skeletons
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///\file
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///\brief Classes for representing paths in graphs.
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#ifndef LEMON_SKELETON_PATH_H
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#define LEMON_SKELETON_PATH_H
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#include <lemon/invalid.h>
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namespace lemon {
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namespace skeleton {
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/// \addtogroup skeletons
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/// @{
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//! \brief A skeletom structure for representing directed paths in a graph.
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//!
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//! A skeleton structure for representing directed paths in a graph.
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//! \param GR The graph type in which the path is.
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//!
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//! In a sense, the path can be treated as a graph, for is has \c NodeIt
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//! and \c EdgeIt with the same usage. These types converts to the \c Node
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//! and \c Edge of the original graph.
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template<typename GR>
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class Path {
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public:
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/// Type of the underlying graph.
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typedef /*typename*/ GR Graph;
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/// Edge type of the underlying graph.
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typedef typename Graph::Edge GraphEdge;
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/// Node type of the underlying graph.
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typedef typename Graph::Node GraphNode;
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class NodeIt;
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class EdgeIt;
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/// \param _G The graph in which the path is.
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///
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Path(const Graph &_G) {}
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/// Length of the path.
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size_t length() const {return 0;}
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/// Returns whether the path is empty.
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bool empty() const { return true;}
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/// Resets the path to an empty path.
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void clear() {}
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/// \brief Starting point of the path.
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///
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/// Starting point of the path.
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/// Returns INVALID if the path is empty.
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GraphNode/*It*/ head() const {return INVALID;}
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/// \brief End point of the path.
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///
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/// End point of the path.
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/// Returns INVALID if the path is empty.
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GraphNode/*It*/ tail() const {return INVALID;}
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/// \brief First NodeIt/EdgeIt.
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///
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/// Initializes node or edge iterator to point to the first
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/// node or edge.
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template<typename It>
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It& first(It &i) const { return i=It(*this); }
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/// \brief The head of an edge.
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///
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/// Returns node iterator pointing to the head node of the
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/// given edge iterator.
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NodeIt head(const EdgeIt& e) const {return INVALID;}
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/// \brief The tail of an edge.
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///
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/// Returns node iterator pointing to the tail node of the
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/// given edge iterator.
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NodeIt tail(const EdgeIt& e) const {return INVALID;}
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/* Iterator classes */
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/**
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* \brief Iterator class to iterate on the edges of the paths
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*
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* \ingroup skeletons
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* This class is used to iterate on the edges of the paths
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*
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* Of course it converts to Graph::Edge
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*
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*/
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class EdgeIt {
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public:
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/// Default constructor
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EdgeIt() {}
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/// Invalid constructor
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EdgeIt(Invalid) {}
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/// Constructor with starting point
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EdgeIt(const Path &_p) {}
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operator GraphEdge () const {}
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/// Next edge
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EdgeIt& operator++() {return *this;}
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/// Comparison operator
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bool operator==(const EdgeIt& e) const {return true;}
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/// Comparison operator
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bool operator!=(const EdgeIt& e) const {return true;}
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// /// Comparison operator
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// /// \todo It is not clear what is the "natural" ordering.
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// bool operator<(const EdgeIt& e) const {}
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};
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/**
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* \brief Iterator class to iterate on the nodes of the paths
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*
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* \ingroup skeletons
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* This class is used to iterate on the nodes of the paths
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*
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* Of course it converts to Graph::Node.
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*
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*/
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class NodeIt {
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public:
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/// Default constructor
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NodeIt() {}
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/// Invalid constructor
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NodeIt(Invalid) {}
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/// Constructor with starting point
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NodeIt(const Path &_p) {}
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///Conversion to Graph::Node
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operator const GraphNode& () const {}
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/// Next node
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NodeIt& operator++() {return *this;}
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/// Comparison operator
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bool operator==(const NodeIt& e) const {return true;}
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/// Comparison operator
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bool operator!=(const NodeIt& e) const {return true;}
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// /// Comparison operator
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// /// \todo It is not clear what is the "natural" ordering.
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// bool operator<(const NodeIt& e) const {}
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};
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friend class Builder;
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/**
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* \brief Class to build paths
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*
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* \ingroup skeletons
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* This class is used to fill a path with edges.
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*
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* You can push new edges to the front and to the back of the path in
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* arbitrary order then you should commit these changes to the graph.
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*
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* While the builder is active (after the first modifying
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* operation and until the call of \ref commit())
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* the underlining Path is in a
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* "transitional" state (operations on it have undefined result).
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*/
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class Builder {
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public:
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Path &P;
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///\param _P the path you want to fill in.
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///
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Builder(Path &_P) : P(_P) {}
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/// Sets the starting node of the path.
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/// Sets the starting node of the path. Edge added to the path
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/// afterwards have to be incident to this node.
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/// You \em must start building an empry path with this functions.
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/// (And you \em must \em not use it later).
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/// \sa pushFront()
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/// \sa pushBack()
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void setStartNode(const GraphNode &) {}
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///Push a new edge to the front of the path
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///Push a new edge to the front of the path.
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///If the path is empty, you \em must call \ref setStartNode() before
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///the first use of \ref pushFront().
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void pushFront(const GraphEdge& e) {}
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///Push a new edge to the back of the path
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///Push a new edge to the back of the path.
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///If the path is empty, you \em must call \ref setStartNode() before
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///the first use of \ref pushBack().
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void pushBack(const GraphEdge& e) {}
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///Commit the changes to the path.
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void commit() {}
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///Reserve (front) storage for the builder in advance.
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///If you know an reasonable upper bound of the number of the edges
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///to add to the front of the path,
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///using this function you may speed up the building.
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void reserveFront(size_t r) {}
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///Reserve (back) storage for the builder in advance.
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///If you know an reasonable upper bound of the number of the edges
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///to add to the back of the path,
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///using this function you may speed up the building.
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void reserveBack(size_t r) {}
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};
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};
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///@}
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}
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} // namespace lemon
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#endif // LEMON_SKELETON_PATH_H
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