alpar@906
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1 |
/* -*- C++ -*-
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alpar@921
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* src/lemon/fib_heap.h - Part of LEMON, a generic C++ optimization library
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alpar@906
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3 |
*
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alpar@1164
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* Copyright (C) 2005 Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
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alpar@906
|
5 |
* (Egervary Combinatorial Optimization Research Group, EGRES).
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alpar@906
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6 |
*
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alpar@906
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* Permission to use, modify and distribute this software is granted
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alpar@906
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* provided that this copyright notice appears in all copies. For
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alpar@906
|
9 |
* precise terms see the accompanying LICENSE file.
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alpar@906
|
10 |
*
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alpar@906
|
11 |
* This software is provided "AS IS" with no warranty of any kind,
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alpar@906
|
12 |
* express or implied, and with no claim as to its suitability for any
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alpar@906
|
13 |
* purpose.
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alpar@906
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*
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alpar@906
|
15 |
*/
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alpar@255
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alpar@921
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#ifndef LEMON_FIB_HEAP_H
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alpar@921
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#define LEMON_FIB_HEAP_H
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alpar@255
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jacint@857
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///\file
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klao@491
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///\ingroup auxdat
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alpar@255
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///\brief Fibonacci Heap implementation.
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alpar@255
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23 |
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alpar@255
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#include <vector>
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alpar@255
|
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#include <functional>
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alpar@255
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#include <math.h>
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alpar@255
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27 |
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alpar@921
|
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namespace lemon {
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alpar@255
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29 |
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alpar@430
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/// \addtogroup auxdat
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alpar@430
|
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/// @{
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alpar@430
|
32 |
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jacint@857
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33 |
/// Fibonacci Heap.
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jacint@373
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34 |
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jacint@857
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///This class implements the \e Fibonacci \e heap data structure. A \e heap
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jacint@857
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///is a data structure for storing items with specified values called \e
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jacint@857
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37 |
///priorities in such a way that finding the item with minimum priority is
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alpar@911
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38 |
///efficient. \c Compare specifies the ordering of the priorities. In a heap
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jacint@857
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39 |
///one can change the priority of an item, add or erase an item, etc.
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jacint@857
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///
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jacint@857
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41 |
///The methods \ref increase and \ref erase are not efficient in a Fibonacci
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jacint@857
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42 |
///heap. In case of many calls to these operations, it is better to use a
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jacint@857
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43 |
///\e binary \e heap.
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jacint@857
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///
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jacint@857
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///\param Item Type of the items to be stored.
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jacint@857
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///\param Prio Type of the priority of the items.
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jacint@857
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///\param ItemIntMap A read and writable Item int map, for the usage of
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jacint@857
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///the heap.
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jacint@857
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///\param Compare A class for the ordering of the priorities. The
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jacint@857
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///default is \c std::less<Prio>.
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jacint@857
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///
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alpar@967
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///\sa BinHeap
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alpar@967
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///\sa Dijkstra
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jacint@857
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///\author Jacint Szabo
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jacint@857
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jacint@373
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#ifdef DOXYGEN
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jacint@373
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template <typename Item,
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jacint@373
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typename Prio,
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jacint@373
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typename ItemIntMap,
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jacint@373
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typename Compare>
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jacint@373
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#else
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jacint@373
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template <typename Item,
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jacint@373
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typename Prio,
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jacint@373
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typename ItemIntMap,
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alpar@255
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typename Compare = std::less<Prio> >
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jacint@373
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#endif
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alpar@255
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class FibHeap {
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jacint@387
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public:
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alpar@255
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typedef Prio PrioType;
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alpar@255
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jacint@373
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private:
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alpar@255
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class store;
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alpar@255
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alpar@255
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std::vector<store> container;
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alpar@255
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int minimum;
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alpar@255
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ItemIntMap &iimap;
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alpar@255
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Compare comp;
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alpar@255
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int num_items;
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jacint@373
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alpar@255
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public:
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alpar@1127
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///Status of the nodes
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alpar@255
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enum state_enum {
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alpar@1127
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///The node is in the heap
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alpar@255
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IN_HEAP = 0,
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alpar@1127
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///The node has never been in the heap
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alpar@255
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PRE_HEAP = -1,
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alpar@1127
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///The node was in the heap but it got out of it
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alpar@255
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POST_HEAP = -2
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alpar@255
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};
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alpar@255
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90 |
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deba@1185
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explicit FibHeap(ItemIntMap &_iimap)
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deba@1185
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: minimum(0), iimap(_iimap), num_items() {}
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jacint@373
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FibHeap(ItemIntMap &_iimap, const Compare &_comp) : minimum(0),
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alpar@255
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iimap(_iimap), comp(_comp), num_items() {}
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alpar@255
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jacint@373
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///The number of items stored in the heap.
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jacint@373
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jacint@373
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/**
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jacint@387
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Returns the number of items stored in the heap.
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jacint@373
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*/
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jacint@373
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int size() const { return num_items; }
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jacint@373
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jacint@373
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///Checks if the heap stores no items.
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alpar@255
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jacint@373
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/**
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jacint@857
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Returns \c true if and only if the heap stores no items.
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jacint@373
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*/
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jacint@373
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bool empty() const { return num_items==0; }
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jacint@373
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jacint@387
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///\c item gets to the heap with priority \c value independently if \c item was already there.
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jacint@373
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jacint@373
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/**
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jacint@387
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This method calls \ref push(\c item, \c value) if \c item is not
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jacint@387
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stored in the heap and it calls \ref decrease(\c item, \c value) or
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jacint@387
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\ref increase(\c item, \c value) otherwise.
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jacint@373
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*/
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jacint@387
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void set (Item const item, PrioType const value);
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jacint@373
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jacint@373
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///Adds \c item to the heap with priority \c value.
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jacint@373
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120 |
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jacint@373
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/**
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jacint@373
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Adds \c item to the heap with priority \c value.
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jacint@373
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\pre \c item must not be stored in the heap.
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jacint@373
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124 |
*/
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jacint@387
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125 |
void push (Item const item, PrioType const value);
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jacint@373
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126 |
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alpar@911
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127 |
///Returns the item with minimum priority relative to \c Compare.
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jacint@373
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128 |
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jacint@373
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129 |
/**
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alpar@911
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130 |
This method returns the item with minimum priority relative to \c
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jacint@857
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131 |
Compare.
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jacint@857
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132 |
\pre The heap must be nonempty.
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jacint@373
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133 |
*/
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jacint@373
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134 |
Item top() const { return container[minimum].name; }
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jacint@373
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135 |
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alpar@911
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136 |
///Returns the minimum priority relative to \c Compare.
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jacint@373
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137 |
|
jacint@373
|
138 |
/**
|
alpar@911
|
139 |
It returns the minimum priority relative to \c Compare.
|
jacint@373
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140 |
\pre The heap must be nonempty.
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jacint@373
|
141 |
*/
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jacint@373
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142 |
PrioType prio() const { return container[minimum].prio; }
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jacint@373
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143 |
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jacint@373
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144 |
///Returns the priority of \c item.
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jacint@373
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145 |
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jacint@373
|
146 |
/**
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jacint@857
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147 |
This function returns the priority of \c item.
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jacint@373
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148 |
\pre \c item must be in the heap.
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jacint@373
|
149 |
*/
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jacint@387
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150 |
PrioType& operator[](const Item& item) {
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jacint@387
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151 |
return container[iimap[item]].prio;
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jacint@387
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152 |
}
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jacint@373
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153 |
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jacint@373
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154 |
///Returns the priority of \c item.
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jacint@373
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155 |
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jacint@373
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156 |
/**
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jacint@373
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157 |
It returns the priority of \c item.
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jacint@373
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158 |
\pre \c item must be in the heap.
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jacint@373
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159 |
*/
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jacint@387
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160 |
const PrioType& operator[](const Item& item) const {
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jacint@387
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161 |
return container[iimap[item]].prio;
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alpar@255
|
162 |
}
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alpar@255
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163 |
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alpar@255
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164 |
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alpar@911
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165 |
///Deletes the item with minimum priority relative to \c Compare.
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alpar@255
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166 |
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jacint@373
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167 |
/**
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alpar@911
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168 |
This method deletes the item with minimum priority relative to \c
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jacint@857
|
169 |
Compare from the heap.
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jacint@857
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170 |
\pre The heap must be non-empty.
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jacint@373
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171 |
*/
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jacint@373
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172 |
void pop();
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jacint@373
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173 |
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jacint@373
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174 |
///Deletes \c item from the heap.
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jacint@373
|
175 |
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jacint@373
|
176 |
/**
|
jacint@373
|
177 |
This method deletes \c item from the heap, if \c item was already
|
jacint@373
|
178 |
stored in the heap. It is quite inefficient in Fibonacci heaps.
|
jacint@373
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179 |
*/
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jacint@387
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180 |
void erase (const Item& item);
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jacint@373
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181 |
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jacint@373
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182 |
///Decreases the priority of \c item to \c value.
|
jacint@373
|
183 |
|
jacint@373
|
184 |
/**
|
jacint@373
|
185 |
This method decreases the priority of \c item to \c value.
|
jacint@373
|
186 |
\pre \c item must be stored in the heap with priority at least \c
|
alpar@911
|
187 |
value relative to \c Compare.
|
jacint@373
|
188 |
*/
|
jacint@387
|
189 |
void decrease (Item item, PrioType const value);
|
jacint@373
|
190 |
|
jacint@373
|
191 |
///Increases the priority of \c item to \c value.
|
jacint@373
|
192 |
|
jacint@373
|
193 |
/**
|
jacint@373
|
194 |
This method sets the priority of \c item to \c value. Though
|
jacint@373
|
195 |
there is no precondition on the priority of \c item, this
|
jacint@857
|
196 |
method should be used only if it is indeed necessary to increase
|
alpar@911
|
197 |
(relative to \c Compare) the priority of \c item, because this
|
jacint@373
|
198 |
method is inefficient.
|
jacint@373
|
199 |
*/
|
jacint@387
|
200 |
void increase (Item item, PrioType const value) {
|
jacint@387
|
201 |
erase(item);
|
jacint@387
|
202 |
push(item, value);
|
jacint@373
|
203 |
}
|
jacint@373
|
204 |
|
jacint@373
|
205 |
|
jacint@857
|
206 |
///Returns if \c item is in, has already been in, or has never been in the heap.
|
jacint@373
|
207 |
|
jacint@373
|
208 |
/**
|
jacint@373
|
209 |
This method returns PRE_HEAP if \c item has never been in the
|
jacint@373
|
210 |
heap, IN_HEAP if it is in the heap at the moment, and POST_HEAP
|
jacint@373
|
211 |
otherwise. In the latter case it is possible that \c item will
|
jacint@373
|
212 |
get back to the heap again.
|
jacint@373
|
213 |
*/
|
jacint@387
|
214 |
state_enum state(const Item &item) const {
|
jacint@387
|
215 |
int i=iimap[item];
|
jacint@387
|
216 |
if( i>=0 ) {
|
jacint@387
|
217 |
if ( container[i].in ) i=0;
|
jacint@387
|
218 |
else i=-2;
|
jacint@387
|
219 |
}
|
jacint@387
|
220 |
return state_enum(i);
|
jacint@387
|
221 |
}
|
jacint@387
|
222 |
|
jacint@387
|
223 |
private:
|
jacint@387
|
224 |
|
jacint@387
|
225 |
void balance();
|
jacint@387
|
226 |
void makeroot(int c);
|
jacint@387
|
227 |
void cut(int a, int b);
|
jacint@387
|
228 |
void cascade(int a);
|
jacint@387
|
229 |
void fuse(int a, int b);
|
jacint@387
|
230 |
void unlace(int a);
|
jacint@373
|
231 |
|
jacint@373
|
232 |
|
jacint@387
|
233 |
class store {
|
jacint@387
|
234 |
friend class FibHeap;
|
jacint@387
|
235 |
|
jacint@387
|
236 |
Item name;
|
jacint@387
|
237 |
int parent;
|
jacint@387
|
238 |
int left_neighbor;
|
jacint@387
|
239 |
int right_neighbor;
|
jacint@387
|
240 |
int child;
|
jacint@387
|
241 |
int degree;
|
jacint@387
|
242 |
bool marked;
|
jacint@387
|
243 |
bool in;
|
jacint@387
|
244 |
PrioType prio;
|
jacint@387
|
245 |
|
jacint@387
|
246 |
store() : parent(-1), child(-1), degree(), marked(false), in(true) {}
|
jacint@387
|
247 |
};
|
jacint@387
|
248 |
};
|
jacint@387
|
249 |
|
jacint@387
|
250 |
|
jacint@373
|
251 |
|
jacint@373
|
252 |
// **********************************************************************
|
jacint@373
|
253 |
// IMPLEMENTATIONS
|
jacint@373
|
254 |
// **********************************************************************
|
jacint@373
|
255 |
|
jacint@387
|
256 |
template <typename Item, typename Prio, typename ItemIntMap,
|
jacint@387
|
257 |
typename Compare>
|
jacint@387
|
258 |
void FibHeap<Item, Prio, ItemIntMap, Compare>::set
|
jacint@387
|
259 |
(Item const item, PrioType const value)
|
jacint@387
|
260 |
{
|
jacint@387
|
261 |
int i=iimap[item];
|
jacint@387
|
262 |
if ( i >= 0 && container[i].in ) {
|
jacint@387
|
263 |
if ( comp(value, container[i].prio) ) decrease(item, value);
|
jacint@387
|
264 |
if ( comp(container[i].prio, value) ) increase(item, value);
|
jacint@387
|
265 |
} else push(item, value);
|
jacint@387
|
266 |
}
|
alpar@255
|
267 |
|
jacint@387
|
268 |
template <typename Item, typename Prio, typename ItemIntMap,
|
jacint@387
|
269 |
typename Compare>
|
jacint@387
|
270 |
void FibHeap<Item, Prio, ItemIntMap, Compare>::push
|
jacint@387
|
271 |
(Item const item, PrioType const value) {
|
jacint@387
|
272 |
int i=iimap[item];
|
alpar@255
|
273 |
if ( i < 0 ) {
|
alpar@255
|
274 |
int s=container.size();
|
jacint@387
|
275 |
iimap.set( item, s );
|
alpar@255
|
276 |
store st;
|
jacint@387
|
277 |
st.name=item;
|
alpar@255
|
278 |
container.push_back(st);
|
alpar@255
|
279 |
i=s;
|
alpar@255
|
280 |
} else {
|
alpar@255
|
281 |
container[i].parent=container[i].child=-1;
|
alpar@255
|
282 |
container[i].degree=0;
|
alpar@255
|
283 |
container[i].in=true;
|
alpar@255
|
284 |
container[i].marked=false;
|
alpar@255
|
285 |
}
|
alpar@255
|
286 |
|
alpar@255
|
287 |
if ( num_items ) {
|
alpar@255
|
288 |
container[container[minimum].right_neighbor].left_neighbor=i;
|
alpar@255
|
289 |
container[i].right_neighbor=container[minimum].right_neighbor;
|
alpar@255
|
290 |
container[minimum].right_neighbor=i;
|
alpar@255
|
291 |
container[i].left_neighbor=minimum;
|
alpar@255
|
292 |
if ( comp( value, container[minimum].prio) ) minimum=i;
|
alpar@255
|
293 |
} else {
|
alpar@255
|
294 |
container[i].right_neighbor=container[i].left_neighbor=i;
|
alpar@255
|
295 |
minimum=i;
|
alpar@255
|
296 |
}
|
alpar@255
|
297 |
container[i].prio=value;
|
alpar@255
|
298 |
++num_items;
|
alpar@255
|
299 |
}
|
alpar@255
|
300 |
|
jacint@387
|
301 |
template <typename Item, typename Prio, typename ItemIntMap,
|
jacint@387
|
302 |
typename Compare>
|
jacint@387
|
303 |
void FibHeap<Item, Prio, ItemIntMap, Compare>::pop() {
|
alpar@255
|
304 |
/*The first case is that there are only one root.*/
|
alpar@255
|
305 |
if ( container[minimum].left_neighbor==minimum ) {
|
alpar@255
|
306 |
container[minimum].in=false;
|
alpar@255
|
307 |
if ( container[minimum].degree!=0 ) {
|
alpar@255
|
308 |
makeroot(container[minimum].child);
|
alpar@255
|
309 |
minimum=container[minimum].child;
|
alpar@255
|
310 |
balance();
|
alpar@255
|
311 |
}
|
alpar@255
|
312 |
} else {
|
alpar@255
|
313 |
int right=container[minimum].right_neighbor;
|
alpar@255
|
314 |
unlace(minimum);
|
alpar@255
|
315 |
container[minimum].in=false;
|
alpar@255
|
316 |
if ( container[minimum].degree > 0 ) {
|
alpar@255
|
317 |
int left=container[minimum].left_neighbor;
|
alpar@255
|
318 |
int child=container[minimum].child;
|
alpar@255
|
319 |
int last_child=container[child].left_neighbor;
|
alpar@255
|
320 |
|
alpar@255
|
321 |
makeroot(child);
|
alpar@255
|
322 |
|
alpar@255
|
323 |
container[left].right_neighbor=child;
|
alpar@255
|
324 |
container[child].left_neighbor=left;
|
alpar@255
|
325 |
container[right].left_neighbor=last_child;
|
alpar@255
|
326 |
container[last_child].right_neighbor=right;
|
alpar@255
|
327 |
}
|
alpar@255
|
328 |
minimum=right;
|
alpar@255
|
329 |
balance();
|
alpar@255
|
330 |
} // the case where there are more roots
|
alpar@255
|
331 |
--num_items;
|
alpar@255
|
332 |
}
|
alpar@255
|
333 |
|
jacint@387
|
334 |
|
jacint@387
|
335 |
template <typename Item, typename Prio, typename ItemIntMap,
|
jacint@387
|
336 |
typename Compare>
|
jacint@387
|
337 |
void FibHeap<Item, Prio, ItemIntMap, Compare>::erase
|
jacint@387
|
338 |
(const Item& item) {
|
jacint@387
|
339 |
int i=iimap[item];
|
alpar@255
|
340 |
|
alpar@255
|
341 |
if ( i >= 0 && container[i].in ) {
|
alpar@255
|
342 |
if ( container[i].parent!=-1 ) {
|
alpar@255
|
343 |
int p=container[i].parent;
|
alpar@255
|
344 |
cut(i,p);
|
alpar@255
|
345 |
cascade(p);
|
alpar@255
|
346 |
}
|
alpar@255
|
347 |
minimum=i; //As if its prio would be -infinity
|
alpar@255
|
348 |
pop();
|
alpar@255
|
349 |
}
|
jacint@387
|
350 |
}
|
alpar@255
|
351 |
|
jacint@387
|
352 |
template <typename Item, typename Prio, typename ItemIntMap,
|
jacint@387
|
353 |
typename Compare>
|
jacint@387
|
354 |
void FibHeap<Item, Prio, ItemIntMap, Compare>::decrease
|
jacint@387
|
355 |
(Item item, PrioType const value) {
|
jacint@387
|
356 |
int i=iimap[item];
|
alpar@255
|
357 |
container[i].prio=value;
|
alpar@255
|
358 |
int p=container[i].parent;
|
alpar@255
|
359 |
|
alpar@255
|
360 |
if ( p!=-1 && comp(value, container[p].prio) ) {
|
alpar@255
|
361 |
cut(i,p);
|
alpar@255
|
362 |
cascade(p);
|
alpar@255
|
363 |
}
|
alpar@255
|
364 |
if ( comp(value, container[minimum].prio) ) minimum=i;
|
jacint@387
|
365 |
}
|
jacint@387
|
366 |
|
alpar@255
|
367 |
|
jacint@387
|
368 |
template <typename Item, typename Prio, typename ItemIntMap,
|
jacint@387
|
369 |
typename Compare>
|
jacint@387
|
370 |
void FibHeap<Item, Prio, ItemIntMap, Compare>::balance() {
|
alpar@255
|
371 |
|
alpar@255
|
372 |
int maxdeg=int( floor( 2.08*log(double(container.size()))))+1;
|
alpar@255
|
373 |
|
alpar@255
|
374 |
std::vector<int> A(maxdeg,-1);
|
alpar@255
|
375 |
|
alpar@255
|
376 |
/*
|
alpar@255
|
377 |
*Recall that now minimum does not point to the minimum prio element.
|
alpar@255
|
378 |
*We set minimum to this during balance().
|
alpar@255
|
379 |
*/
|
alpar@255
|
380 |
int anchor=container[minimum].left_neighbor;
|
alpar@255
|
381 |
int next=minimum;
|
alpar@255
|
382 |
bool end=false;
|
alpar@255
|
383 |
|
alpar@255
|
384 |
do {
|
alpar@255
|
385 |
int active=next;
|
alpar@255
|
386 |
if ( anchor==active ) end=true;
|
alpar@255
|
387 |
int d=container[active].degree;
|
alpar@255
|
388 |
next=container[active].right_neighbor;
|
alpar@255
|
389 |
|
alpar@255
|
390 |
while (A[d]!=-1) {
|
alpar@255
|
391 |
if( comp(container[active].prio, container[A[d]].prio) ) {
|
alpar@255
|
392 |
fuse(active,A[d]);
|
alpar@255
|
393 |
} else {
|
alpar@255
|
394 |
fuse(A[d],active);
|
alpar@255
|
395 |
active=A[d];
|
alpar@255
|
396 |
}
|
alpar@255
|
397 |
A[d]=-1;
|
alpar@255
|
398 |
++d;
|
alpar@255
|
399 |
}
|
alpar@255
|
400 |
A[d]=active;
|
alpar@255
|
401 |
} while ( !end );
|
alpar@255
|
402 |
|
alpar@255
|
403 |
|
alpar@255
|
404 |
while ( container[minimum].parent >=0 ) minimum=container[minimum].parent;
|
alpar@255
|
405 |
int s=minimum;
|
alpar@255
|
406 |
int m=minimum;
|
alpar@255
|
407 |
do {
|
alpar@255
|
408 |
if ( comp(container[s].prio, container[minimum].prio) ) minimum=s;
|
alpar@255
|
409 |
s=container[s].right_neighbor;
|
alpar@255
|
410 |
} while ( s != m );
|
alpar@255
|
411 |
}
|
alpar@255
|
412 |
|
jacint@387
|
413 |
template <typename Item, typename Prio, typename ItemIntMap,
|
jacint@387
|
414 |
typename Compare>
|
jacint@387
|
415 |
void FibHeap<Item, Prio, ItemIntMap, Compare>::makeroot
|
jacint@387
|
416 |
(int c) {
|
alpar@255
|
417 |
int s=c;
|
alpar@255
|
418 |
do {
|
alpar@255
|
419 |
container[s].parent=-1;
|
alpar@255
|
420 |
s=container[s].right_neighbor;
|
alpar@255
|
421 |
} while ( s != c );
|
alpar@255
|
422 |
}
|
jacint@387
|
423 |
|
jacint@387
|
424 |
|
jacint@387
|
425 |
template <typename Item, typename Prio, typename ItemIntMap,
|
jacint@387
|
426 |
typename Compare>
|
jacint@387
|
427 |
void FibHeap<Item, Prio, ItemIntMap, Compare>::cut
|
jacint@387
|
428 |
(int a, int b) {
|
jacint@387
|
429 |
/*
|
jacint@387
|
430 |
*Replacing a from the children of b.
|
jacint@387
|
431 |
*/
|
jacint@387
|
432 |
--container[b].degree;
|
alpar@255
|
433 |
|
jacint@387
|
434 |
if ( container[b].degree !=0 ) {
|
jacint@387
|
435 |
int child=container[b].child;
|
jacint@387
|
436 |
if ( child==a )
|
jacint@387
|
437 |
container[b].child=container[child].right_neighbor;
|
jacint@387
|
438 |
unlace(a);
|
jacint@387
|
439 |
}
|
jacint@387
|
440 |
|
jacint@387
|
441 |
|
jacint@387
|
442 |
/*Lacing a to the roots.*/
|
jacint@387
|
443 |
int right=container[minimum].right_neighbor;
|
jacint@387
|
444 |
container[minimum].right_neighbor=a;
|
jacint@387
|
445 |
container[a].left_neighbor=minimum;
|
jacint@387
|
446 |
container[a].right_neighbor=right;
|
jacint@387
|
447 |
container[right].left_neighbor=a;
|
jacint@387
|
448 |
|
jacint@387
|
449 |
container[a].parent=-1;
|
jacint@387
|
450 |
container[a].marked=false;
|
jacint@387
|
451 |
}
|
jacint@387
|
452 |
|
alpar@255
|
453 |
|
jacint@387
|
454 |
template <typename Item, typename Prio, typename ItemIntMap,
|
jacint@387
|
455 |
typename Compare>
|
jacint@387
|
456 |
void FibHeap<Item, Prio, ItemIntMap, Compare>::cascade
|
jacint@387
|
457 |
(int a)
|
alpar@255
|
458 |
{
|
alpar@255
|
459 |
if ( container[a].parent!=-1 ) {
|
alpar@255
|
460 |
int p=container[a].parent;
|
alpar@255
|
461 |
|
alpar@255
|
462 |
if ( container[a].marked==false ) container[a].marked=true;
|
alpar@255
|
463 |
else {
|
alpar@255
|
464 |
cut(a,p);
|
alpar@255
|
465 |
cascade(p);
|
alpar@255
|
466 |
}
|
alpar@255
|
467 |
}
|
alpar@255
|
468 |
}
|
alpar@255
|
469 |
|
alpar@255
|
470 |
|
jacint@387
|
471 |
template <typename Item, typename Prio, typename ItemIntMap,
|
jacint@387
|
472 |
typename Compare>
|
jacint@387
|
473 |
void FibHeap<Item, Prio, ItemIntMap, Compare>::fuse
|
jacint@387
|
474 |
(int a, int b) {
|
alpar@255
|
475 |
unlace(b);
|
alpar@255
|
476 |
|
alpar@255
|
477 |
/*Lacing b under a.*/
|
alpar@255
|
478 |
container[b].parent=a;
|
alpar@255
|
479 |
|
alpar@255
|
480 |
if (container[a].degree==0) {
|
alpar@255
|
481 |
container[b].left_neighbor=b;
|
alpar@255
|
482 |
container[b].right_neighbor=b;
|
alpar@255
|
483 |
container[a].child=b;
|
alpar@255
|
484 |
} else {
|
alpar@255
|
485 |
int child=container[a].child;
|
alpar@255
|
486 |
int last_child=container[child].left_neighbor;
|
alpar@255
|
487 |
container[child].left_neighbor=b;
|
alpar@255
|
488 |
container[b].right_neighbor=child;
|
alpar@255
|
489 |
container[last_child].right_neighbor=b;
|
alpar@255
|
490 |
container[b].left_neighbor=last_child;
|
alpar@255
|
491 |
}
|
alpar@255
|
492 |
|
alpar@255
|
493 |
++container[a].degree;
|
alpar@255
|
494 |
|
alpar@255
|
495 |
container[b].marked=false;
|
alpar@255
|
496 |
}
|
alpar@255
|
497 |
|
jacint@387
|
498 |
|
jacint@387
|
499 |
/*
|
jacint@387
|
500 |
*It is invoked only if a has siblings.
|
jacint@387
|
501 |
*/
|
jacint@387
|
502 |
template <typename Item, typename Prio, typename ItemIntMap,
|
jacint@387
|
503 |
typename Compare>
|
jacint@387
|
504 |
void FibHeap<Item, Prio, ItemIntMap, Compare>::unlace
|
jacint@387
|
505 |
(int a) {
|
alpar@255
|
506 |
int leftn=container[a].left_neighbor;
|
alpar@255
|
507 |
int rightn=container[a].right_neighbor;
|
alpar@255
|
508 |
container[leftn].right_neighbor=rightn;
|
alpar@255
|
509 |
container[rightn].left_neighbor=leftn;
|
jacint@387
|
510 |
}
|
alpar@255
|
511 |
|
alpar@430
|
512 |
///@}
|
alpar@430
|
513 |
|
alpar@921
|
514 |
} //namespace lemon
|
alpar@477
|
515 |
|
alpar@921
|
516 |
#endif //LEMON_FIB_HEAP_H
|
alpar@477
|
517 |
|