lemon/radix_heap.h
author Peter Kovacs <kpeter@inf.elte.hu>
Thu, 15 Nov 2012 07:17:48 +0100
changeset 1013 f6f6896a4724
parent 710 f1fe0ddad6f7
permissions -rw-r--r--
Ensure strongly polynomial running time for CycleCanceling (#436)
The number of iterations performed by Howard's algorithm is limited.
If the limit is reached, a strongly polynomial implementation,
HartmannOrlinMmc is executed to find a minimum mean cycle.
This iteration limit is typically not reached, thus the combined
method is practically equivalent to Howard's algorithm, while it
also ensures the strongly polynomial time bound.
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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_RADIX_HEAP_H
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#define LEMON_RADIX_HEAP_H
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///\ingroup heaps
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///\file
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///\brief Radix heap implementation.
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#include <vector>
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#include <lemon/error.h>
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namespace lemon {
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  /// \ingroup heaps
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  ///
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  /// \brief Radix heap data structure.
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  ///
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  /// This class implements the \e radix \e heap data structure.
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  /// It practically conforms to the \ref concepts::Heap "heap concept",
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  /// but it has some limitations due its special implementation.
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  /// The type of the priorities must be \c int and the priority of an
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  /// item cannot be decreased under the priority of the last removed item.
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  ///
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  /// \tparam IM A read-writable item map with \c int values, used
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  /// internally to handle the cross references.
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  template <typename IM>
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  class RadixHeap {
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  public:
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    /// Type of the item-int map.
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    typedef IM ItemIntMap;
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    /// Type of the priorities.
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    typedef int Prio;
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    /// Type of the items stored in the heap.
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    typedef typename ItemIntMap::Key Item;
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    /// \brief Exception thrown by RadixHeap.
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    ///
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    /// This exception is thrown when an item is inserted into a
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    /// RadixHeap with a priority smaller than the last erased one.
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    /// \see RadixHeap
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    class PriorityUnderflowError : public Exception {
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    public:
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      virtual const char* what() const throw() {
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        return "lemon::RadixHeap::PriorityUnderflowError";
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      }
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    };
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    /// \brief Type to represent the states of the items.
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    ///
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    /// Each item has a state associated to it. It can be "in heap",
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    /// "pre-heap" or "post-heap". The latter two are indifferent from the
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    /// heap's point of view, but may be useful to the user.
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    ///
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    /// The item-int map must be initialized in such way that it assigns
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    /// \c PRE_HEAP (<tt>-1</tt>) to any element to be put in the heap.
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    enum State {
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      IN_HEAP = 0,    ///< = 0.
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      PRE_HEAP = -1,  ///< = -1.
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      POST_HEAP = -2  ///< = -2.
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    };
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  private:
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    struct RadixItem {
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      int prev, next, box;
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      Item item;
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      int prio;
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      RadixItem(Item _item, int _prio) : item(_item), prio(_prio) {}
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    };
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    struct RadixBox {
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      int first;
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      int min, size;
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      RadixBox(int _min, int _size) : first(-1), min(_min), size(_size) {}
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    };
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    std::vector<RadixItem> _data;
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    std::vector<RadixBox> _boxes;
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    ItemIntMap &_iim;
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  public:
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    /// \brief Constructor.
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    ///
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    /// Constructor.
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    /// \param map A map that assigns \c int values to the items.
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    /// It is used internally to handle the cross references.
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    /// The assigned value must be \c PRE_HEAP (<tt>-1</tt>) for each item.
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    /// \param minimum The initial minimum value of the heap.
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    /// \param capacity The initial capacity of the heap.
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    RadixHeap(ItemIntMap &map, int minimum = 0, int capacity = 0)
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      : _iim(map)
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    {
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      _boxes.push_back(RadixBox(minimum, 1));
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      _boxes.push_back(RadixBox(minimum + 1, 1));
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      while (lower(_boxes.size() - 1, capacity + minimum - 1)) {
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        extend();
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      }
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    }
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    /// \brief The number of items stored in the heap.
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    ///
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    /// This function returns the number of items stored in the heap.
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    int size() const { return _data.size(); }
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    /// \brief Check if the heap is empty.
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    ///
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    /// This function returns \c true if the heap is empty.
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    bool empty() const { return _data.empty(); }
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    /// \brief Make the heap empty.
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    ///
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    /// This functon makes the heap empty.
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    /// It does not change the cross reference map. If you want to reuse
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    /// a heap that is not surely empty, you should first clear it and
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    /// then you should set the cross reference map to \c PRE_HEAP
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    /// for each item.
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    /// \param minimum The minimum value of the heap.
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    /// \param capacity The capacity of the heap.
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    void clear(int minimum = 0, int capacity = 0) {
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      _data.clear(); _boxes.clear();
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      _boxes.push_back(RadixBox(minimum, 1));
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      _boxes.push_back(RadixBox(minimum + 1, 1));
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      while (lower(_boxes.size() - 1, capacity + minimum - 1)) {
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        extend();
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      }
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    }
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  private:
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    bool upper(int box, Prio pr) {
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      return pr < _boxes[box].min;
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    }
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    bool lower(int box, Prio pr) {
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      return pr >= _boxes[box].min + _boxes[box].size;
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    }
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    // Remove item from the box list
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    void remove(int index) {
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      if (_data[index].prev >= 0) {
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        _data[_data[index].prev].next = _data[index].next;
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      } else {
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        _boxes[_data[index].box].first = _data[index].next;
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      }
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      if (_data[index].next >= 0) {
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        _data[_data[index].next].prev = _data[index].prev;
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      }
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    }
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    // Insert item into the box list
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    void insert(int box, int index) {
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      if (_boxes[box].first == -1) {
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        _boxes[box].first = index;
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        _data[index].next = _data[index].prev = -1;
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      } else {
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        _data[index].next = _boxes[box].first;
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        _data[_boxes[box].first].prev = index;
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        _data[index].prev = -1;
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        _boxes[box].first = index;
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      }
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      _data[index].box = box;
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    }
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    // Add a new box to the box list
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    void extend() {
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      int min = _boxes.back().min + _boxes.back().size;
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      int bs = 2 * _boxes.back().size;
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      _boxes.push_back(RadixBox(min, bs));
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    }
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    // Move an item up into the proper box.
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    void bubbleUp(int index) {
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      if (!lower(_data[index].box, _data[index].prio)) return;
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      remove(index);
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      int box = findUp(_data[index].box, _data[index].prio);
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      insert(box, index);
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    }
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    // Find up the proper box for the item with the given priority
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    int findUp(int start, int pr) {
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      while (lower(start, pr)) {
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        if (++start == int(_boxes.size())) {
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          extend();
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        }
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      }
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      return start;
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    }
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    // Move an item down into the proper box
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    void bubbleDown(int index) {
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      if (!upper(_data[index].box, _data[index].prio)) return;
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      remove(index);
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      int box = findDown(_data[index].box, _data[index].prio);
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      insert(box, index);
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    }
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    // Find down the proper box for the item with the given priority
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    int findDown(int start, int pr) {
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      while (upper(start, pr)) {
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        if (--start < 0) throw PriorityUnderflowError();
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      }
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      return start;
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    }
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    // Find the first non-empty box
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    int findFirst() {
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      int first = 0;
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      while (_boxes[first].first == -1) ++first;
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      return first;
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    }
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    // Gives back the minimum priority of the given box
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    int minValue(int box) {
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      int min = _data[_boxes[box].first].prio;
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      for (int k = _boxes[box].first; k != -1; k = _data[k].next) {
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        if (_data[k].prio < min) min = _data[k].prio;
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      }
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      return min;
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    }
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    // Rearrange the items of the heap and make the first box non-empty
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    void moveDown() {
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      int box = findFirst();
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      if (box == 0) return;
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      int min = minValue(box);
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      for (int i = 0; i <= box; ++i) {
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        _boxes[i].min = min;
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        min += _boxes[i].size;
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      }
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      int curr = _boxes[box].first, next;
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      while (curr != -1) {
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        next = _data[curr].next;
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        bubbleDown(curr);
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        curr = next;
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      }
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    }
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    void relocateLast(int index) {
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      if (index != int(_data.size()) - 1) {
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        _data[index] = _data.back();
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        if (_data[index].prev != -1) {
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          _data[_data[index].prev].next = index;
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        } else {
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          _boxes[_data[index].box].first = index;
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        }
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        if (_data[index].next != -1) {
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          _data[_data[index].next].prev = index;
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        }
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        _iim[_data[index].item] = index;
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      }
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      _data.pop_back();
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    }
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  public:
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    /// \brief Insert an item into the heap with the given priority.
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    ///
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    /// This function inserts the given item into the heap with the
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    /// given priority.
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    /// \param i The item to insert.
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    /// \param p The priority of the item.
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    /// \pre \e i must not be stored in the heap.
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    /// \warning This method may throw an \c UnderFlowPriorityException.
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    void push(const Item &i, const Prio &p) {
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      int n = _data.size();
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      _iim.set(i, n);
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      _data.push_back(RadixItem(i, p));
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      while (lower(_boxes.size() - 1, p)) {
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        extend();
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      }
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      int box = findDown(_boxes.size() - 1, p);
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      insert(box, n);
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    }
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    /// \brief Return the item having minimum priority.
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    ///
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    /// This function returns the item having minimum priority.
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    /// \pre The heap must be non-empty.
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    Item top() const {
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      const_cast<RadixHeap<ItemIntMap>&>(*this).moveDown();
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      return _data[_boxes[0].first].item;
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    }
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    /// \brief The minimum priority.
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    ///
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    /// This function returns the minimum priority.
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    /// \pre The heap must be non-empty.
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    Prio prio() const {
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      const_cast<RadixHeap<ItemIntMap>&>(*this).moveDown();
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      return _data[_boxes[0].first].prio;
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     }
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    /// \brief Remove the item having minimum priority.
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    ///
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    /// This function removes the item having minimum priority.
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    /// \pre The heap must be non-empty.
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    void pop() {
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      moveDown();
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      int index = _boxes[0].first;
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      _iim[_data[index].item] = POST_HEAP;
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      remove(index);
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      relocateLast(index);
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    }
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    /// \brief Remove the given item from the heap.
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    ///
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    /// This function removes the given item from the heap if it is
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    /// already stored.
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    /// \param i The item to delete.
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    /// \pre \e i must be in the heap.
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    void erase(const Item &i) {
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      int index = _iim[i];
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      _iim[i] = POST_HEAP;
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      remove(index);
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      relocateLast(index);
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   }
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    /// \brief The priority of the given item.
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    ///
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    /// This function returns the priority of the given item.
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    /// \param i The item.
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    /// \pre \e i must be in the heap.
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    Prio operator[](const Item &i) const {
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      int idx = _iim[i];
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      return _data[idx].prio;
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    }
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    /// \brief Set the priority of an item or insert it, if it is
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    /// not stored in the heap.
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    ///
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    /// This method sets the priority of the given item if it is
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    /// already stored in the heap. Otherwise it inserts the given
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    /// item into the heap with the given priority.
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    /// \param i The item.
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    /// \param p The priority.
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    /// \pre \e i must be in the heap.
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    /// \warning This method may throw an \c UnderFlowPriorityException.
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    void set(const Item &i, const Prio &p) {
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      int idx = _iim[i];
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      if( idx < 0 ) {
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        push(i, p);
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      }
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      else if( p >= _data[idx].prio ) {
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        _data[idx].prio = p;
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        bubbleUp(idx);
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      } else {
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        _data[idx].prio = p;
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        bubbleDown(idx);
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      }
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    }
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    /// \brief Decrease the priority of an item to the given value.
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    ///
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    /// This function decreases the priority of an item to the given value.
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    /// \param i The item.
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    /// \param p The priority.
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    /// \pre \e i must be stored in the heap with priority at least \e p.
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    /// \warning This method may throw an \c UnderFlowPriorityException.
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    void decrease(const Item &i, const Prio &p) {
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      int idx = _iim[i];
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      _data[idx].prio = p;
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      bubbleDown(idx);
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    }
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    /// \brief Increase the priority of an item to the given value.
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    ///
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    /// This function increases the priority of an item to the given value.
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    /// \param i The item.
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    /// \param p The priority.
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    /// \pre \e i must be stored in the heap with priority at most \e p.
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    void increase(const Item &i, const Prio &p) {
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      int idx = _iim[i];
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      _data[idx].prio = p;
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      bubbleUp(idx);
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    }
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    /// \brief Return the state of an item.
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    ///
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    /// This method returns \c PRE_HEAP if the given item has never
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    /// been in the heap, \c IN_HEAP if it is in the heap at the moment,
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    /// and \c POST_HEAP otherwise.
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    /// In the latter case it is possible that the item will get back
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    /// to the heap again.
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    /// \param i The item.
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    State state(const Item &i) const {
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      int s = _iim[i];
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      if( s >= 0 ) s = 0;
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      return State(s);
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    }
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    /// \brief Set the state of an item in the heap.
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    ///
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    /// This function sets the state of the given item in the heap.
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    /// It can be used to manually clear the heap when it is important
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    /// to achive better time complexity.
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    /// \param i The item.
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   419
    /// \param st The state. It should not be \c IN_HEAP.
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    void state(const Item& i, State st) {
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   421
      switch (st) {
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   422
      case POST_HEAP:
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   423
      case PRE_HEAP:
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   424
        if (state(i) == IN_HEAP) {
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   425
          erase(i);
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   426
        }
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   427
        _iim[i] = st;
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   428
        break;
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   429
      case IN_HEAP:
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   430
        break;
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   431
      }
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   432
    }
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  }; // class RadixHeap
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   435
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   436
} // namespace lemon
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   437
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   438
#endif // LEMON_RADIX_HEAP_H