[220] | 1 | /* -*- mode: C++; indent-tabs-mode: nil; -*- |
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| 2 | * |
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| 3 | * This file is a part of LEMON, a generic C++ optimization library. |
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| 4 | * |
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[463] | 5 | * Copyright (C) 2003-2009 |
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[220] | 6 | * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport |
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| 7 | * (Egervary Research Group on Combinatorial Optimization, EGRES). |
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| 8 | * |
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| 9 | * Permission to use, modify and distribute this software is granted |
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| 10 | * provided that this copyright notice appears in all copies. For |
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| 11 | * precise terms see the accompanying LICENSE file. |
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| 12 | * |
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| 13 | * This software is provided "AS IS" with no warranty of any kind, |
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| 14 | * express or implied, and with no claim as to its suitability for any |
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| 15 | * purpose. |
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| 16 | * |
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| 17 | */ |
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| 18 | |
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| 19 | #ifndef LEMON_CORE_H |
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| 20 | #define LEMON_CORE_H |
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| 21 | |
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| 22 | #include <vector> |
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| 23 | #include <algorithm> |
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| 24 | |
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[543] | 25 | #include <lemon/config.h> |
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[220] | 26 | #include <lemon/bits/enable_if.h> |
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| 27 | #include <lemon/bits/traits.h> |
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[319] | 28 | #include <lemon/assert.h> |
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[220] | 29 | |
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[718] | 30 | // Disable the following warnings when compiling with MSVC: |
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| 31 | // C4250: 'class1' : inherits 'class2::member' via dominance |
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| 32 | // C4355: 'this' : used in base member initializer list |
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| 33 | // C4503: 'function' : decorated name length exceeded, name was truncated |
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| 34 | // C4800: 'type' : forcing value to bool 'true' or 'false' (performance warning) |
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| 35 | // C4996: 'function': was declared deprecated |
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| 36 | #ifdef _MSC_VER |
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| 37 | #pragma warning( disable : 4250 4355 4503 4800 4996 ) |
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| 38 | #endif |
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| 39 | |
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[220] | 40 | ///\file |
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| 41 | ///\brief LEMON core utilities. |
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[229] | 42 | /// |
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| 43 | ///This header file contains core utilities for LEMON. |
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[233] | 44 | ///It is automatically included by all graph types, therefore it usually |
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[229] | 45 | ///do not have to be included directly. |
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[220] | 46 | |
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| 47 | namespace lemon { |
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| 48 | |
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| 49 | /// \brief Dummy type to make it easier to create invalid iterators. |
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| 50 | /// |
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| 51 | /// Dummy type to make it easier to create invalid iterators. |
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| 52 | /// See \ref INVALID for the usage. |
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| 53 | struct Invalid { |
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| 54 | public: |
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| 55 | bool operator==(Invalid) { return true; } |
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| 56 | bool operator!=(Invalid) { return false; } |
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| 57 | bool operator< (Invalid) { return false; } |
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| 58 | }; |
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| 59 | |
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| 60 | /// \brief Invalid iterators. |
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| 61 | /// |
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| 62 | /// \ref Invalid is a global type that converts to each iterator |
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| 63 | /// in such a way that the value of the target iterator will be invalid. |
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| 64 | #ifdef LEMON_ONLY_TEMPLATES |
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| 65 | const Invalid INVALID = Invalid(); |
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| 66 | #else |
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| 67 | extern const Invalid INVALID; |
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| 68 | #endif |
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| 69 | |
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| 70 | /// \addtogroup gutils |
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| 71 | /// @{ |
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| 72 | |
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[300] | 73 | ///Create convenience typedefs for the digraph types and iterators |
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[220] | 74 | |
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[282] | 75 | ///This \c \#define creates convenient type definitions for the following |
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| 76 | ///types of \c Digraph: \c Node, \c NodeIt, \c Arc, \c ArcIt, \c InArcIt, |
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[220] | 77 | ///\c OutArcIt, \c BoolNodeMap, \c IntNodeMap, \c DoubleNodeMap, |
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| 78 | ///\c BoolArcMap, \c IntArcMap, \c DoubleArcMap. |
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| 79 | /// |
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| 80 | ///\note If the graph type is a dependent type, ie. the graph type depend |
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| 81 | ///on a template parameter, then use \c TEMPLATE_DIGRAPH_TYPEDEFS() |
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| 82 | ///macro. |
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| 83 | #define DIGRAPH_TYPEDEFS(Digraph) \ |
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| 84 | typedef Digraph::Node Node; \ |
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| 85 | typedef Digraph::NodeIt NodeIt; \ |
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| 86 | typedef Digraph::Arc Arc; \ |
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| 87 | typedef Digraph::ArcIt ArcIt; \ |
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| 88 | typedef Digraph::InArcIt InArcIt; \ |
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| 89 | typedef Digraph::OutArcIt OutArcIt; \ |
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| 90 | typedef Digraph::NodeMap<bool> BoolNodeMap; \ |
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| 91 | typedef Digraph::NodeMap<int> IntNodeMap; \ |
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| 92 | typedef Digraph::NodeMap<double> DoubleNodeMap; \ |
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| 93 | typedef Digraph::ArcMap<bool> BoolArcMap; \ |
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| 94 | typedef Digraph::ArcMap<int> IntArcMap; \ |
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[300] | 95 | typedef Digraph::ArcMap<double> DoubleArcMap |
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[220] | 96 | |
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[300] | 97 | ///Create convenience typedefs for the digraph types and iterators |
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[220] | 98 | |
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| 99 | ///\see DIGRAPH_TYPEDEFS |
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| 100 | /// |
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| 101 | ///\note Use this macro, if the graph type is a dependent type, |
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| 102 | ///ie. the graph type depend on a template parameter. |
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| 103 | #define TEMPLATE_DIGRAPH_TYPEDEFS(Digraph) \ |
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| 104 | typedef typename Digraph::Node Node; \ |
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| 105 | typedef typename Digraph::NodeIt NodeIt; \ |
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| 106 | typedef typename Digraph::Arc Arc; \ |
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| 107 | typedef typename Digraph::ArcIt ArcIt; \ |
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| 108 | typedef typename Digraph::InArcIt InArcIt; \ |
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| 109 | typedef typename Digraph::OutArcIt OutArcIt; \ |
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| 110 | typedef typename Digraph::template NodeMap<bool> BoolNodeMap; \ |
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| 111 | typedef typename Digraph::template NodeMap<int> IntNodeMap; \ |
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| 112 | typedef typename Digraph::template NodeMap<double> DoubleNodeMap; \ |
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| 113 | typedef typename Digraph::template ArcMap<bool> BoolArcMap; \ |
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| 114 | typedef typename Digraph::template ArcMap<int> IntArcMap; \ |
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[300] | 115 | typedef typename Digraph::template ArcMap<double> DoubleArcMap |
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[220] | 116 | |
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[300] | 117 | ///Create convenience typedefs for the graph types and iterators |
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[220] | 118 | |
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[282] | 119 | ///This \c \#define creates the same convenient type definitions as defined |
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[220] | 120 | ///by \ref DIGRAPH_TYPEDEFS(Graph) and six more, namely it creates |
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| 121 | ///\c Edge, \c EdgeIt, \c IncEdgeIt, \c BoolEdgeMap, \c IntEdgeMap, |
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| 122 | ///\c DoubleEdgeMap. |
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| 123 | /// |
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| 124 | ///\note If the graph type is a dependent type, ie. the graph type depend |
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[282] | 125 | ///on a template parameter, then use \c TEMPLATE_GRAPH_TYPEDEFS() |
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[220] | 126 | ///macro. |
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| 127 | #define GRAPH_TYPEDEFS(Graph) \ |
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| 128 | DIGRAPH_TYPEDEFS(Graph); \ |
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| 129 | typedef Graph::Edge Edge; \ |
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| 130 | typedef Graph::EdgeIt EdgeIt; \ |
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| 131 | typedef Graph::IncEdgeIt IncEdgeIt; \ |
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| 132 | typedef Graph::EdgeMap<bool> BoolEdgeMap; \ |
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| 133 | typedef Graph::EdgeMap<int> IntEdgeMap; \ |
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[300] | 134 | typedef Graph::EdgeMap<double> DoubleEdgeMap |
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[220] | 135 | |
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[300] | 136 | ///Create convenience typedefs for the graph types and iterators |
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[220] | 137 | |
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| 138 | ///\see GRAPH_TYPEDEFS |
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| 139 | /// |
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| 140 | ///\note Use this macro, if the graph type is a dependent type, |
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| 141 | ///ie. the graph type depend on a template parameter. |
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| 142 | #define TEMPLATE_GRAPH_TYPEDEFS(Graph) \ |
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| 143 | TEMPLATE_DIGRAPH_TYPEDEFS(Graph); \ |
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| 144 | typedef typename Graph::Edge Edge; \ |
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| 145 | typedef typename Graph::EdgeIt EdgeIt; \ |
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| 146 | typedef typename Graph::IncEdgeIt IncEdgeIt; \ |
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| 147 | typedef typename Graph::template EdgeMap<bool> BoolEdgeMap; \ |
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| 148 | typedef typename Graph::template EdgeMap<int> IntEdgeMap; \ |
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[300] | 149 | typedef typename Graph::template EdgeMap<double> DoubleEdgeMap |
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[220] | 150 | |
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[282] | 151 | /// \brief Function to count the items in a graph. |
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[220] | 152 | /// |
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[282] | 153 | /// This function counts the items (nodes, arcs etc.) in a graph. |
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| 154 | /// The complexity of the function is linear because |
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[220] | 155 | /// it iterates on all of the items. |
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| 156 | template <typename Graph, typename Item> |
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| 157 | inline int countItems(const Graph& g) { |
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| 158 | typedef typename ItemSetTraits<Graph, Item>::ItemIt ItemIt; |
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| 159 | int num = 0; |
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| 160 | for (ItemIt it(g); it != INVALID; ++it) { |
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| 161 | ++num; |
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| 162 | } |
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| 163 | return num; |
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| 164 | } |
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| 165 | |
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| 166 | // Node counting: |
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| 167 | |
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| 168 | namespace _core_bits { |
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| 169 | |
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| 170 | template <typename Graph, typename Enable = void> |
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| 171 | struct CountNodesSelector { |
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| 172 | static int count(const Graph &g) { |
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| 173 | return countItems<Graph, typename Graph::Node>(g); |
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| 174 | } |
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| 175 | }; |
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| 176 | |
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| 177 | template <typename Graph> |
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| 178 | struct CountNodesSelector< |
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| 179 | Graph, typename |
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| 180 | enable_if<typename Graph::NodeNumTag, void>::type> |
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| 181 | { |
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| 182 | static int count(const Graph &g) { |
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| 183 | return g.nodeNum(); |
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| 184 | } |
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| 185 | }; |
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| 186 | } |
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| 187 | |
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| 188 | /// \brief Function to count the nodes in the graph. |
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| 189 | /// |
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| 190 | /// This function counts the nodes in the graph. |
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[282] | 191 | /// The complexity of the function is <em>O</em>(<em>n</em>), but for some |
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| 192 | /// graph structures it is specialized to run in <em>O</em>(1). |
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[220] | 193 | /// |
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[282] | 194 | /// \note If the graph contains a \c nodeNum() member function and a |
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| 195 | /// \c NodeNumTag tag then this function calls directly the member |
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[220] | 196 | /// function to query the cardinality of the node set. |
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| 197 | template <typename Graph> |
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| 198 | inline int countNodes(const Graph& g) { |
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| 199 | return _core_bits::CountNodesSelector<Graph>::count(g); |
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| 200 | } |
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| 201 | |
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| 202 | // Arc counting: |
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| 203 | |
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| 204 | namespace _core_bits { |
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| 205 | |
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| 206 | template <typename Graph, typename Enable = void> |
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| 207 | struct CountArcsSelector { |
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| 208 | static int count(const Graph &g) { |
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| 209 | return countItems<Graph, typename Graph::Arc>(g); |
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| 210 | } |
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| 211 | }; |
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| 212 | |
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| 213 | template <typename Graph> |
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| 214 | struct CountArcsSelector< |
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| 215 | Graph, |
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| 216 | typename enable_if<typename Graph::ArcNumTag, void>::type> |
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| 217 | { |
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| 218 | static int count(const Graph &g) { |
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| 219 | return g.arcNum(); |
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| 220 | } |
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| 221 | }; |
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| 222 | } |
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| 223 | |
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| 224 | /// \brief Function to count the arcs in the graph. |
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| 225 | /// |
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| 226 | /// This function counts the arcs in the graph. |
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[282] | 227 | /// The complexity of the function is <em>O</em>(<em>m</em>), but for some |
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| 228 | /// graph structures it is specialized to run in <em>O</em>(1). |
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[220] | 229 | /// |
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[282] | 230 | /// \note If the graph contains a \c arcNum() member function and a |
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| 231 | /// \c ArcNumTag tag then this function calls directly the member |
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[220] | 232 | /// function to query the cardinality of the arc set. |
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| 233 | template <typename Graph> |
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| 234 | inline int countArcs(const Graph& g) { |
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| 235 | return _core_bits::CountArcsSelector<Graph>::count(g); |
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| 236 | } |
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| 237 | |
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| 238 | // Edge counting: |
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[282] | 239 | |
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[220] | 240 | namespace _core_bits { |
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| 241 | |
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| 242 | template <typename Graph, typename Enable = void> |
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| 243 | struct CountEdgesSelector { |
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| 244 | static int count(const Graph &g) { |
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| 245 | return countItems<Graph, typename Graph::Edge>(g); |
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| 246 | } |
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| 247 | }; |
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| 248 | |
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| 249 | template <typename Graph> |
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| 250 | struct CountEdgesSelector< |
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| 251 | Graph, |
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| 252 | typename enable_if<typename Graph::EdgeNumTag, void>::type> |
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| 253 | { |
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| 254 | static int count(const Graph &g) { |
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| 255 | return g.edgeNum(); |
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| 256 | } |
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| 257 | }; |
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| 258 | } |
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| 259 | |
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| 260 | /// \brief Function to count the edges in the graph. |
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| 261 | /// |
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| 262 | /// This function counts the edges in the graph. |
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[282] | 263 | /// The complexity of the function is <em>O</em>(<em>m</em>), but for some |
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| 264 | /// graph structures it is specialized to run in <em>O</em>(1). |
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[220] | 265 | /// |
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[282] | 266 | /// \note If the graph contains a \c edgeNum() member function and a |
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| 267 | /// \c EdgeNumTag tag then this function calls directly the member |
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[220] | 268 | /// function to query the cardinality of the edge set. |
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| 269 | template <typename Graph> |
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| 270 | inline int countEdges(const Graph& g) { |
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| 271 | return _core_bits::CountEdgesSelector<Graph>::count(g); |
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| 272 | |
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| 273 | } |
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| 274 | |
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| 275 | |
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| 276 | template <typename Graph, typename DegIt> |
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| 277 | inline int countNodeDegree(const Graph& _g, const typename Graph::Node& _n) { |
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| 278 | int num = 0; |
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| 279 | for (DegIt it(_g, _n); it != INVALID; ++it) { |
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| 280 | ++num; |
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| 281 | } |
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| 282 | return num; |
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| 283 | } |
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| 284 | |
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| 285 | /// \brief Function to count the number of the out-arcs from node \c n. |
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| 286 | /// |
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| 287 | /// This function counts the number of the out-arcs from node \c n |
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[282] | 288 | /// in the graph \c g. |
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[220] | 289 | template <typename Graph> |
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[282] | 290 | inline int countOutArcs(const Graph& g, const typename Graph::Node& n) { |
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| 291 | return countNodeDegree<Graph, typename Graph::OutArcIt>(g, n); |
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[220] | 292 | } |
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| 293 | |
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| 294 | /// \brief Function to count the number of the in-arcs to node \c n. |
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| 295 | /// |
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| 296 | /// This function counts the number of the in-arcs to node \c n |
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[282] | 297 | /// in the graph \c g. |
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[220] | 298 | template <typename Graph> |
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[282] | 299 | inline int countInArcs(const Graph& g, const typename Graph::Node& n) { |
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| 300 | return countNodeDegree<Graph, typename Graph::InArcIt>(g, n); |
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[220] | 301 | } |
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| 302 | |
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| 303 | /// \brief Function to count the number of the inc-edges to node \c n. |
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| 304 | /// |
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| 305 | /// This function counts the number of the inc-edges to node \c n |
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[282] | 306 | /// in the undirected graph \c g. |
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[220] | 307 | template <typename Graph> |
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[282] | 308 | inline int countIncEdges(const Graph& g, const typename Graph::Node& n) { |
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| 309 | return countNodeDegree<Graph, typename Graph::IncEdgeIt>(g, n); |
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[220] | 310 | } |
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| 311 | |
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| 312 | namespace _core_bits { |
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| 313 | |
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| 314 | template <typename Digraph, typename Item, typename RefMap> |
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| 315 | class MapCopyBase { |
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| 316 | public: |
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| 317 | virtual void copy(const Digraph& from, const RefMap& refMap) = 0; |
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| 318 | |
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| 319 | virtual ~MapCopyBase() {} |
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| 320 | }; |
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| 321 | |
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| 322 | template <typename Digraph, typename Item, typename RefMap, |
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[282] | 323 | typename FromMap, typename ToMap> |
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[220] | 324 | class MapCopy : public MapCopyBase<Digraph, Item, RefMap> { |
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| 325 | public: |
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| 326 | |
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[282] | 327 | MapCopy(const FromMap& map, ToMap& tmap) |
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| 328 | : _map(map), _tmap(tmap) {} |
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[220] | 329 | |
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| 330 | virtual void copy(const Digraph& digraph, const RefMap& refMap) { |
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| 331 | typedef typename ItemSetTraits<Digraph, Item>::ItemIt ItemIt; |
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| 332 | for (ItemIt it(digraph); it != INVALID; ++it) { |
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| 333 | _tmap.set(refMap[it], _map[it]); |
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| 334 | } |
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| 335 | } |
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| 336 | |
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| 337 | private: |
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[282] | 338 | const FromMap& _map; |
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[220] | 339 | ToMap& _tmap; |
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| 340 | }; |
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| 341 | |
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| 342 | template <typename Digraph, typename Item, typename RefMap, typename It> |
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| 343 | class ItemCopy : public MapCopyBase<Digraph, Item, RefMap> { |
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| 344 | public: |
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| 345 | |
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[282] | 346 | ItemCopy(const Item& item, It& it) : _item(item), _it(it) {} |
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[220] | 347 | |
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| 348 | virtual void copy(const Digraph&, const RefMap& refMap) { |
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| 349 | _it = refMap[_item]; |
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| 350 | } |
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| 351 | |
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| 352 | private: |
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[282] | 353 | Item _item; |
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[220] | 354 | It& _it; |
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| 355 | }; |
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| 356 | |
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| 357 | template <typename Digraph, typename Item, typename RefMap, typename Ref> |
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| 358 | class RefCopy : public MapCopyBase<Digraph, Item, RefMap> { |
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| 359 | public: |
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| 360 | |
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| 361 | RefCopy(Ref& map) : _map(map) {} |
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| 362 | |
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| 363 | virtual void copy(const Digraph& digraph, const RefMap& refMap) { |
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| 364 | typedef typename ItemSetTraits<Digraph, Item>::ItemIt ItemIt; |
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| 365 | for (ItemIt it(digraph); it != INVALID; ++it) { |
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| 366 | _map.set(it, refMap[it]); |
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| 367 | } |
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| 368 | } |
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| 369 | |
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| 370 | private: |
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| 371 | Ref& _map; |
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| 372 | }; |
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| 373 | |
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| 374 | template <typename Digraph, typename Item, typename RefMap, |
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| 375 | typename CrossRef> |
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| 376 | class CrossRefCopy : public MapCopyBase<Digraph, Item, RefMap> { |
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| 377 | public: |
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| 378 | |
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| 379 | CrossRefCopy(CrossRef& cmap) : _cmap(cmap) {} |
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| 380 | |
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| 381 | virtual void copy(const Digraph& digraph, const RefMap& refMap) { |
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| 382 | typedef typename ItemSetTraits<Digraph, Item>::ItemIt ItemIt; |
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| 383 | for (ItemIt it(digraph); it != INVALID; ++it) { |
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| 384 | _cmap.set(refMap[it], it); |
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| 385 | } |
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| 386 | } |
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| 387 | |
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| 388 | private: |
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| 389 | CrossRef& _cmap; |
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| 390 | }; |
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| 391 | |
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| 392 | template <typename Digraph, typename Enable = void> |
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| 393 | struct DigraphCopySelector { |
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| 394 | template <typename From, typename NodeRefMap, typename ArcRefMap> |
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[282] | 395 | static void copy(const From& from, Digraph &to, |
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[220] | 396 | NodeRefMap& nodeRefMap, ArcRefMap& arcRefMap) { |
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[980] | 397 | to.clear(); |
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[220] | 398 | for (typename From::NodeIt it(from); it != INVALID; ++it) { |
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| 399 | nodeRefMap[it] = to.addNode(); |
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| 400 | } |
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| 401 | for (typename From::ArcIt it(from); it != INVALID; ++it) { |
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| 402 | arcRefMap[it] = to.addArc(nodeRefMap[from.source(it)], |
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| 403 | nodeRefMap[from.target(it)]); |
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| 404 | } |
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| 405 | } |
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| 406 | }; |
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| 407 | |
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| 408 | template <typename Digraph> |
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| 409 | struct DigraphCopySelector< |
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| 410 | Digraph, |
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| 411 | typename enable_if<typename Digraph::BuildTag, void>::type> |
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| 412 | { |
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| 413 | template <typename From, typename NodeRefMap, typename ArcRefMap> |
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[282] | 414 | static void copy(const From& from, Digraph &to, |
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[220] | 415 | NodeRefMap& nodeRefMap, ArcRefMap& arcRefMap) { |
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| 416 | to.build(from, nodeRefMap, arcRefMap); |
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| 417 | } |
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| 418 | }; |
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| 419 | |
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| 420 | template <typename Graph, typename Enable = void> |
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| 421 | struct GraphCopySelector { |
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| 422 | template <typename From, typename NodeRefMap, typename EdgeRefMap> |
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[282] | 423 | static void copy(const From& from, Graph &to, |
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[220] | 424 | NodeRefMap& nodeRefMap, EdgeRefMap& edgeRefMap) { |
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[980] | 425 | to.clear(); |
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[220] | 426 | for (typename From::NodeIt it(from); it != INVALID; ++it) { |
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| 427 | nodeRefMap[it] = to.addNode(); |
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| 428 | } |
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| 429 | for (typename From::EdgeIt it(from); it != INVALID; ++it) { |
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| 430 | edgeRefMap[it] = to.addEdge(nodeRefMap[from.u(it)], |
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| 431 | nodeRefMap[from.v(it)]); |
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| 432 | } |
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| 433 | } |
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| 434 | }; |
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| 435 | |
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| 436 | template <typename Graph> |
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| 437 | struct GraphCopySelector< |
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| 438 | Graph, |
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| 439 | typename enable_if<typename Graph::BuildTag, void>::type> |
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| 440 | { |
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| 441 | template <typename From, typename NodeRefMap, typename EdgeRefMap> |
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[282] | 442 | static void copy(const From& from, Graph &to, |
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[220] | 443 | NodeRefMap& nodeRefMap, EdgeRefMap& edgeRefMap) { |
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| 444 | to.build(from, nodeRefMap, edgeRefMap); |
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| 445 | } |
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| 446 | }; |
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| 447 | |
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| 448 | } |
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| 449 | |
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| 450 | /// \brief Class to copy a digraph. |
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| 451 | /// |
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| 452 | /// Class to copy a digraph to another digraph (duplicate a digraph). The |
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[282] | 453 | /// simplest way of using it is through the \c digraphCopy() function. |
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[220] | 454 | /// |
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[282] | 455 | /// This class not only make a copy of a digraph, but it can create |
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[220] | 456 | /// references and cross references between the nodes and arcs of |
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[282] | 457 | /// the two digraphs, and it can copy maps to use with the newly created |
---|
| 458 | /// digraph. |
---|
[220] | 459 | /// |
---|
[282] | 460 | /// To make a copy from a digraph, first an instance of DigraphCopy |
---|
| 461 | /// should be created, then the data belongs to the digraph should |
---|
[220] | 462 | /// assigned to copy. In the end, the \c run() member should be |
---|
| 463 | /// called. |
---|
| 464 | /// |
---|
[282] | 465 | /// The next code copies a digraph with several data: |
---|
[220] | 466 | ///\code |
---|
[282] | 467 | /// DigraphCopy<OrigGraph, NewGraph> cg(orig_graph, new_graph); |
---|
| 468 | /// // Create references for the nodes |
---|
[220] | 469 | /// OrigGraph::NodeMap<NewGraph::Node> nr(orig_graph); |
---|
[282] | 470 | /// cg.nodeRef(nr); |
---|
| 471 | /// // Create cross references (inverse) for the arcs |
---|
[220] | 472 | /// NewGraph::ArcMap<OrigGraph::Arc> acr(new_graph); |
---|
[282] | 473 | /// cg.arcCrossRef(acr); |
---|
| 474 | /// // Copy an arc map |
---|
[220] | 475 | /// OrigGraph::ArcMap<double> oamap(orig_graph); |
---|
| 476 | /// NewGraph::ArcMap<double> namap(new_graph); |
---|
[282] | 477 | /// cg.arcMap(oamap, namap); |
---|
| 478 | /// // Copy a node |
---|
[220] | 479 | /// OrigGraph::Node on; |
---|
| 480 | /// NewGraph::Node nn; |
---|
[282] | 481 | /// cg.node(on, nn); |
---|
| 482 | /// // Execute copying |
---|
| 483 | /// cg.run(); |
---|
[220] | 484 | ///\endcode |
---|
[282] | 485 | template <typename From, typename To> |
---|
[220] | 486 | class DigraphCopy { |
---|
| 487 | private: |
---|
| 488 | |
---|
| 489 | typedef typename From::Node Node; |
---|
| 490 | typedef typename From::NodeIt NodeIt; |
---|
| 491 | typedef typename From::Arc Arc; |
---|
| 492 | typedef typename From::ArcIt ArcIt; |
---|
| 493 | |
---|
| 494 | typedef typename To::Node TNode; |
---|
| 495 | typedef typename To::Arc TArc; |
---|
| 496 | |
---|
| 497 | typedef typename From::template NodeMap<TNode> NodeRefMap; |
---|
| 498 | typedef typename From::template ArcMap<TArc> ArcRefMap; |
---|
| 499 | |
---|
| 500 | public: |
---|
| 501 | |
---|
[282] | 502 | /// \brief Constructor of DigraphCopy. |
---|
[220] | 503 | /// |
---|
[282] | 504 | /// Constructor of DigraphCopy for copying the content of the |
---|
| 505 | /// \c from digraph into the \c to digraph. |
---|
| 506 | DigraphCopy(const From& from, To& to) |
---|
[220] | 507 | : _from(from), _to(to) {} |
---|
| 508 | |
---|
[282] | 509 | /// \brief Destructor of DigraphCopy |
---|
[220] | 510 | /// |
---|
[282] | 511 | /// Destructor of DigraphCopy. |
---|
[220] | 512 | ~DigraphCopy() { |
---|
| 513 | for (int i = 0; i < int(_node_maps.size()); ++i) { |
---|
| 514 | delete _node_maps[i]; |
---|
| 515 | } |
---|
| 516 | for (int i = 0; i < int(_arc_maps.size()); ++i) { |
---|
| 517 | delete _arc_maps[i]; |
---|
| 518 | } |
---|
| 519 | |
---|
| 520 | } |
---|
| 521 | |
---|
[282] | 522 | /// \brief Copy the node references into the given map. |
---|
[220] | 523 | /// |
---|
[282] | 524 | /// This function copies the node references into the given map. |
---|
| 525 | /// The parameter should be a map, whose key type is the Node type of |
---|
| 526 | /// the source digraph, while the value type is the Node type of the |
---|
| 527 | /// destination digraph. |
---|
[220] | 528 | template <typename NodeRef> |
---|
| 529 | DigraphCopy& nodeRef(NodeRef& map) { |
---|
| 530 | _node_maps.push_back(new _core_bits::RefCopy<From, Node, |
---|
| 531 | NodeRefMap, NodeRef>(map)); |
---|
| 532 | return *this; |
---|
| 533 | } |
---|
| 534 | |
---|
[282] | 535 | /// \brief Copy the node cross references into the given map. |
---|
[220] | 536 | /// |
---|
[282] | 537 | /// This function copies the node cross references (reverse references) |
---|
| 538 | /// into the given map. The parameter should be a map, whose key type |
---|
| 539 | /// is the Node type of the destination digraph, while the value type is |
---|
| 540 | /// the Node type of the source digraph. |
---|
[220] | 541 | template <typename NodeCrossRef> |
---|
| 542 | DigraphCopy& nodeCrossRef(NodeCrossRef& map) { |
---|
| 543 | _node_maps.push_back(new _core_bits::CrossRefCopy<From, Node, |
---|
| 544 | NodeRefMap, NodeCrossRef>(map)); |
---|
| 545 | return *this; |
---|
| 546 | } |
---|
| 547 | |
---|
[282] | 548 | /// \brief Make a copy of the given node map. |
---|
[220] | 549 | /// |
---|
[282] | 550 | /// This function makes a copy of the given node map for the newly |
---|
| 551 | /// created digraph. |
---|
| 552 | /// The key type of the new map \c tmap should be the Node type of the |
---|
| 553 | /// destination digraph, and the key type of the original map \c map |
---|
| 554 | /// should be the Node type of the source digraph. |
---|
| 555 | template <typename FromMap, typename ToMap> |
---|
| 556 | DigraphCopy& nodeMap(const FromMap& map, ToMap& tmap) { |
---|
[220] | 557 | _node_maps.push_back(new _core_bits::MapCopy<From, Node, |
---|
[282] | 558 | NodeRefMap, FromMap, ToMap>(map, tmap)); |
---|
[220] | 559 | return *this; |
---|
| 560 | } |
---|
| 561 | |
---|
| 562 | /// \brief Make a copy of the given node. |
---|
| 563 | /// |
---|
[282] | 564 | /// This function makes a copy of the given node. |
---|
| 565 | DigraphCopy& node(const Node& node, TNode& tnode) { |
---|
[220] | 566 | _node_maps.push_back(new _core_bits::ItemCopy<From, Node, |
---|
[282] | 567 | NodeRefMap, TNode>(node, tnode)); |
---|
[220] | 568 | return *this; |
---|
| 569 | } |
---|
| 570 | |
---|
[282] | 571 | /// \brief Copy the arc references into the given map. |
---|
[220] | 572 | /// |
---|
[282] | 573 | /// This function copies the arc references into the given map. |
---|
| 574 | /// The parameter should be a map, whose key type is the Arc type of |
---|
| 575 | /// the source digraph, while the value type is the Arc type of the |
---|
| 576 | /// destination digraph. |
---|
[220] | 577 | template <typename ArcRef> |
---|
| 578 | DigraphCopy& arcRef(ArcRef& map) { |
---|
| 579 | _arc_maps.push_back(new _core_bits::RefCopy<From, Arc, |
---|
| 580 | ArcRefMap, ArcRef>(map)); |
---|
| 581 | return *this; |
---|
| 582 | } |
---|
| 583 | |
---|
[282] | 584 | /// \brief Copy the arc cross references into the given map. |
---|
[220] | 585 | /// |
---|
[282] | 586 | /// This function copies the arc cross references (reverse references) |
---|
| 587 | /// into the given map. The parameter should be a map, whose key type |
---|
| 588 | /// is the Arc type of the destination digraph, while the value type is |
---|
| 589 | /// the Arc type of the source digraph. |
---|
[220] | 590 | template <typename ArcCrossRef> |
---|
| 591 | DigraphCopy& arcCrossRef(ArcCrossRef& map) { |
---|
| 592 | _arc_maps.push_back(new _core_bits::CrossRefCopy<From, Arc, |
---|
| 593 | ArcRefMap, ArcCrossRef>(map)); |
---|
| 594 | return *this; |
---|
| 595 | } |
---|
| 596 | |
---|
[282] | 597 | /// \brief Make a copy of the given arc map. |
---|
[220] | 598 | /// |
---|
[282] | 599 | /// This function makes a copy of the given arc map for the newly |
---|
| 600 | /// created digraph. |
---|
| 601 | /// The key type of the new map \c tmap should be the Arc type of the |
---|
| 602 | /// destination digraph, and the key type of the original map \c map |
---|
| 603 | /// should be the Arc type of the source digraph. |
---|
| 604 | template <typename FromMap, typename ToMap> |
---|
| 605 | DigraphCopy& arcMap(const FromMap& map, ToMap& tmap) { |
---|
[220] | 606 | _arc_maps.push_back(new _core_bits::MapCopy<From, Arc, |
---|
[282] | 607 | ArcRefMap, FromMap, ToMap>(map, tmap)); |
---|
[220] | 608 | return *this; |
---|
| 609 | } |
---|
| 610 | |
---|
| 611 | /// \brief Make a copy of the given arc. |
---|
| 612 | /// |
---|
[282] | 613 | /// This function makes a copy of the given arc. |
---|
| 614 | DigraphCopy& arc(const Arc& arc, TArc& tarc) { |
---|
[220] | 615 | _arc_maps.push_back(new _core_bits::ItemCopy<From, Arc, |
---|
[282] | 616 | ArcRefMap, TArc>(arc, tarc)); |
---|
[220] | 617 | return *this; |
---|
| 618 | } |
---|
| 619 | |
---|
[282] | 620 | /// \brief Execute copying. |
---|
[220] | 621 | /// |
---|
[282] | 622 | /// This function executes the copying of the digraph along with the |
---|
| 623 | /// copying of the assigned data. |
---|
[220] | 624 | void run() { |
---|
| 625 | NodeRefMap nodeRefMap(_from); |
---|
| 626 | ArcRefMap arcRefMap(_from); |
---|
| 627 | _core_bits::DigraphCopySelector<To>:: |
---|
[282] | 628 | copy(_from, _to, nodeRefMap, arcRefMap); |
---|
[220] | 629 | for (int i = 0; i < int(_node_maps.size()); ++i) { |
---|
| 630 | _node_maps[i]->copy(_from, nodeRefMap); |
---|
| 631 | } |
---|
| 632 | for (int i = 0; i < int(_arc_maps.size()); ++i) { |
---|
| 633 | _arc_maps[i]->copy(_from, arcRefMap); |
---|
| 634 | } |
---|
| 635 | } |
---|
| 636 | |
---|
| 637 | protected: |
---|
| 638 | |
---|
| 639 | const From& _from; |
---|
| 640 | To& _to; |
---|
| 641 | |
---|
| 642 | std::vector<_core_bits::MapCopyBase<From, Node, NodeRefMap>* > |
---|
[282] | 643 | _node_maps; |
---|
[220] | 644 | |
---|
| 645 | std::vector<_core_bits::MapCopyBase<From, Arc, ArcRefMap>* > |
---|
[282] | 646 | _arc_maps; |
---|
[220] | 647 | |
---|
| 648 | }; |
---|
| 649 | |
---|
| 650 | /// \brief Copy a digraph to another digraph. |
---|
| 651 | /// |
---|
[282] | 652 | /// This function copies a digraph to another digraph. |
---|
| 653 | /// The complete usage of it is detailed in the DigraphCopy class, but |
---|
| 654 | /// a short example shows a basic work: |
---|
[220] | 655 | ///\code |
---|
[282] | 656 | /// digraphCopy(src, trg).nodeRef(nr).arcCrossRef(acr).run(); |
---|
[220] | 657 | ///\endcode |
---|
| 658 | /// |
---|
| 659 | /// After the copy the \c nr map will contain the mapping from the |
---|
| 660 | /// nodes of the \c from digraph to the nodes of the \c to digraph and |
---|
[282] | 661 | /// \c acr will contain the mapping from the arcs of the \c to digraph |
---|
[220] | 662 | /// to the arcs of the \c from digraph. |
---|
| 663 | /// |
---|
| 664 | /// \see DigraphCopy |
---|
[282] | 665 | template <typename From, typename To> |
---|
| 666 | DigraphCopy<From, To> digraphCopy(const From& from, To& to) { |
---|
| 667 | return DigraphCopy<From, To>(from, to); |
---|
[220] | 668 | } |
---|
| 669 | |
---|
| 670 | /// \brief Class to copy a graph. |
---|
| 671 | /// |
---|
| 672 | /// Class to copy a graph to another graph (duplicate a graph). The |
---|
[282] | 673 | /// simplest way of using it is through the \c graphCopy() function. |
---|
[220] | 674 | /// |
---|
[282] | 675 | /// This class not only make a copy of a graph, but it can create |
---|
[220] | 676 | /// references and cross references between the nodes, edges and arcs of |
---|
[282] | 677 | /// the two graphs, and it can copy maps for using with the newly created |
---|
| 678 | /// graph. |
---|
[220] | 679 | /// |
---|
| 680 | /// To make a copy from a graph, first an instance of GraphCopy |
---|
| 681 | /// should be created, then the data belongs to the graph should |
---|
| 682 | /// assigned to copy. In the end, the \c run() member should be |
---|
| 683 | /// called. |
---|
| 684 | /// |
---|
| 685 | /// The next code copies a graph with several data: |
---|
| 686 | ///\code |
---|
[282] | 687 | /// GraphCopy<OrigGraph, NewGraph> cg(orig_graph, new_graph); |
---|
| 688 | /// // Create references for the nodes |
---|
[220] | 689 | /// OrigGraph::NodeMap<NewGraph::Node> nr(orig_graph); |
---|
[282] | 690 | /// cg.nodeRef(nr); |
---|
| 691 | /// // Create cross references (inverse) for the edges |
---|
| 692 | /// NewGraph::EdgeMap<OrigGraph::Edge> ecr(new_graph); |
---|
| 693 | /// cg.edgeCrossRef(ecr); |
---|
| 694 | /// // Copy an edge map |
---|
| 695 | /// OrigGraph::EdgeMap<double> oemap(orig_graph); |
---|
| 696 | /// NewGraph::EdgeMap<double> nemap(new_graph); |
---|
| 697 | /// cg.edgeMap(oemap, nemap); |
---|
| 698 | /// // Copy a node |
---|
[220] | 699 | /// OrigGraph::Node on; |
---|
| 700 | /// NewGraph::Node nn; |
---|
[282] | 701 | /// cg.node(on, nn); |
---|
| 702 | /// // Execute copying |
---|
| 703 | /// cg.run(); |
---|
[220] | 704 | ///\endcode |
---|
[282] | 705 | template <typename From, typename To> |
---|
[220] | 706 | class GraphCopy { |
---|
| 707 | private: |
---|
| 708 | |
---|
| 709 | typedef typename From::Node Node; |
---|
| 710 | typedef typename From::NodeIt NodeIt; |
---|
| 711 | typedef typename From::Arc Arc; |
---|
| 712 | typedef typename From::ArcIt ArcIt; |
---|
| 713 | typedef typename From::Edge Edge; |
---|
| 714 | typedef typename From::EdgeIt EdgeIt; |
---|
| 715 | |
---|
| 716 | typedef typename To::Node TNode; |
---|
| 717 | typedef typename To::Arc TArc; |
---|
| 718 | typedef typename To::Edge TEdge; |
---|
| 719 | |
---|
| 720 | typedef typename From::template NodeMap<TNode> NodeRefMap; |
---|
| 721 | typedef typename From::template EdgeMap<TEdge> EdgeRefMap; |
---|
| 722 | |
---|
| 723 | struct ArcRefMap { |
---|
[282] | 724 | ArcRefMap(const From& from, const To& to, |
---|
[220] | 725 | const EdgeRefMap& edge_ref, const NodeRefMap& node_ref) |
---|
[282] | 726 | : _from(from), _to(to), |
---|
[220] | 727 | _edge_ref(edge_ref), _node_ref(node_ref) {} |
---|
| 728 | |
---|
| 729 | typedef typename From::Arc Key; |
---|
| 730 | typedef typename To::Arc Value; |
---|
| 731 | |
---|
| 732 | Value operator[](const Key& key) const { |
---|
| 733 | bool forward = _from.u(key) != _from.v(key) ? |
---|
| 734 | _node_ref[_from.source(key)] == |
---|
| 735 | _to.source(_to.direct(_edge_ref[key], true)) : |
---|
| 736 | _from.direction(key); |
---|
| 737 | return _to.direct(_edge_ref[key], forward); |
---|
| 738 | } |
---|
| 739 | |
---|
[282] | 740 | const From& _from; |
---|
[220] | 741 | const To& _to; |
---|
| 742 | const EdgeRefMap& _edge_ref; |
---|
| 743 | const NodeRefMap& _node_ref; |
---|
| 744 | }; |
---|
| 745 | |
---|
| 746 | public: |
---|
| 747 | |
---|
[282] | 748 | /// \brief Constructor of GraphCopy. |
---|
[220] | 749 | /// |
---|
[282] | 750 | /// Constructor of GraphCopy for copying the content of the |
---|
| 751 | /// \c from graph into the \c to graph. |
---|
| 752 | GraphCopy(const From& from, To& to) |
---|
[220] | 753 | : _from(from), _to(to) {} |
---|
| 754 | |
---|
[282] | 755 | /// \brief Destructor of GraphCopy |
---|
[220] | 756 | /// |
---|
[282] | 757 | /// Destructor of GraphCopy. |
---|
[220] | 758 | ~GraphCopy() { |
---|
| 759 | for (int i = 0; i < int(_node_maps.size()); ++i) { |
---|
| 760 | delete _node_maps[i]; |
---|
| 761 | } |
---|
| 762 | for (int i = 0; i < int(_arc_maps.size()); ++i) { |
---|
| 763 | delete _arc_maps[i]; |
---|
| 764 | } |
---|
| 765 | for (int i = 0; i < int(_edge_maps.size()); ++i) { |
---|
| 766 | delete _edge_maps[i]; |
---|
| 767 | } |
---|
| 768 | } |
---|
| 769 | |
---|
[282] | 770 | /// \brief Copy the node references into the given map. |
---|
[220] | 771 | /// |
---|
[282] | 772 | /// This function copies the node references into the given map. |
---|
| 773 | /// The parameter should be a map, whose key type is the Node type of |
---|
| 774 | /// the source graph, while the value type is the Node type of the |
---|
| 775 | /// destination graph. |
---|
[220] | 776 | template <typename NodeRef> |
---|
| 777 | GraphCopy& nodeRef(NodeRef& map) { |
---|
| 778 | _node_maps.push_back(new _core_bits::RefCopy<From, Node, |
---|
| 779 | NodeRefMap, NodeRef>(map)); |
---|
| 780 | return *this; |
---|
| 781 | } |
---|
| 782 | |
---|
[282] | 783 | /// \brief Copy the node cross references into the given map. |
---|
[220] | 784 | /// |
---|
[282] | 785 | /// This function copies the node cross references (reverse references) |
---|
| 786 | /// into the given map. The parameter should be a map, whose key type |
---|
| 787 | /// is the Node type of the destination graph, while the value type is |
---|
| 788 | /// the Node type of the source graph. |
---|
[220] | 789 | template <typename NodeCrossRef> |
---|
| 790 | GraphCopy& nodeCrossRef(NodeCrossRef& map) { |
---|
| 791 | _node_maps.push_back(new _core_bits::CrossRefCopy<From, Node, |
---|
| 792 | NodeRefMap, NodeCrossRef>(map)); |
---|
| 793 | return *this; |
---|
| 794 | } |
---|
| 795 | |
---|
[282] | 796 | /// \brief Make a copy of the given node map. |
---|
[220] | 797 | /// |
---|
[282] | 798 | /// This function makes a copy of the given node map for the newly |
---|
| 799 | /// created graph. |
---|
| 800 | /// The key type of the new map \c tmap should be the Node type of the |
---|
| 801 | /// destination graph, and the key type of the original map \c map |
---|
| 802 | /// should be the Node type of the source graph. |
---|
| 803 | template <typename FromMap, typename ToMap> |
---|
| 804 | GraphCopy& nodeMap(const FromMap& map, ToMap& tmap) { |
---|
[220] | 805 | _node_maps.push_back(new _core_bits::MapCopy<From, Node, |
---|
[282] | 806 | NodeRefMap, FromMap, ToMap>(map, tmap)); |
---|
[220] | 807 | return *this; |
---|
| 808 | } |
---|
| 809 | |
---|
| 810 | /// \brief Make a copy of the given node. |
---|
| 811 | /// |
---|
[282] | 812 | /// This function makes a copy of the given node. |
---|
| 813 | GraphCopy& node(const Node& node, TNode& tnode) { |
---|
[220] | 814 | _node_maps.push_back(new _core_bits::ItemCopy<From, Node, |
---|
[282] | 815 | NodeRefMap, TNode>(node, tnode)); |
---|
[220] | 816 | return *this; |
---|
| 817 | } |
---|
| 818 | |
---|
[282] | 819 | /// \brief Copy the arc references into the given map. |
---|
[220] | 820 | /// |
---|
[282] | 821 | /// This function copies the arc references into the given map. |
---|
| 822 | /// The parameter should be a map, whose key type is the Arc type of |
---|
| 823 | /// the source graph, while the value type is the Arc type of the |
---|
| 824 | /// destination graph. |
---|
[220] | 825 | template <typename ArcRef> |
---|
| 826 | GraphCopy& arcRef(ArcRef& map) { |
---|
| 827 | _arc_maps.push_back(new _core_bits::RefCopy<From, Arc, |
---|
| 828 | ArcRefMap, ArcRef>(map)); |
---|
| 829 | return *this; |
---|
| 830 | } |
---|
| 831 | |
---|
[282] | 832 | /// \brief Copy the arc cross references into the given map. |
---|
[220] | 833 | /// |
---|
[282] | 834 | /// This function copies the arc cross references (reverse references) |
---|
| 835 | /// into the given map. The parameter should be a map, whose key type |
---|
| 836 | /// is the Arc type of the destination graph, while the value type is |
---|
| 837 | /// the Arc type of the source graph. |
---|
[220] | 838 | template <typename ArcCrossRef> |
---|
| 839 | GraphCopy& arcCrossRef(ArcCrossRef& map) { |
---|
| 840 | _arc_maps.push_back(new _core_bits::CrossRefCopy<From, Arc, |
---|
| 841 | ArcRefMap, ArcCrossRef>(map)); |
---|
| 842 | return *this; |
---|
| 843 | } |
---|
| 844 | |
---|
[282] | 845 | /// \brief Make a copy of the given arc map. |
---|
[220] | 846 | /// |
---|
[282] | 847 | /// This function makes a copy of the given arc map for the newly |
---|
| 848 | /// created graph. |
---|
| 849 | /// The key type of the new map \c tmap should be the Arc type of the |
---|
| 850 | /// destination graph, and the key type of the original map \c map |
---|
| 851 | /// should be the Arc type of the source graph. |
---|
| 852 | template <typename FromMap, typename ToMap> |
---|
| 853 | GraphCopy& arcMap(const FromMap& map, ToMap& tmap) { |
---|
[220] | 854 | _arc_maps.push_back(new _core_bits::MapCopy<From, Arc, |
---|
[282] | 855 | ArcRefMap, FromMap, ToMap>(map, tmap)); |
---|
[220] | 856 | return *this; |
---|
| 857 | } |
---|
| 858 | |
---|
| 859 | /// \brief Make a copy of the given arc. |
---|
| 860 | /// |
---|
[282] | 861 | /// This function makes a copy of the given arc. |
---|
| 862 | GraphCopy& arc(const Arc& arc, TArc& tarc) { |
---|
[220] | 863 | _arc_maps.push_back(new _core_bits::ItemCopy<From, Arc, |
---|
[282] | 864 | ArcRefMap, TArc>(arc, tarc)); |
---|
[220] | 865 | return *this; |
---|
| 866 | } |
---|
| 867 | |
---|
[282] | 868 | /// \brief Copy the edge references into the given map. |
---|
[220] | 869 | /// |
---|
[282] | 870 | /// This function copies the edge references into the given map. |
---|
| 871 | /// The parameter should be a map, whose key type is the Edge type of |
---|
| 872 | /// the source graph, while the value type is the Edge type of the |
---|
| 873 | /// destination graph. |
---|
[220] | 874 | template <typename EdgeRef> |
---|
| 875 | GraphCopy& edgeRef(EdgeRef& map) { |
---|
| 876 | _edge_maps.push_back(new _core_bits::RefCopy<From, Edge, |
---|
| 877 | EdgeRefMap, EdgeRef>(map)); |
---|
| 878 | return *this; |
---|
| 879 | } |
---|
| 880 | |
---|
[282] | 881 | /// \brief Copy the edge cross references into the given map. |
---|
[220] | 882 | /// |
---|
[282] | 883 | /// This function copies the edge cross references (reverse references) |
---|
| 884 | /// into the given map. The parameter should be a map, whose key type |
---|
| 885 | /// is the Edge type of the destination graph, while the value type is |
---|
| 886 | /// the Edge type of the source graph. |
---|
[220] | 887 | template <typename EdgeCrossRef> |
---|
| 888 | GraphCopy& edgeCrossRef(EdgeCrossRef& map) { |
---|
| 889 | _edge_maps.push_back(new _core_bits::CrossRefCopy<From, |
---|
| 890 | Edge, EdgeRefMap, EdgeCrossRef>(map)); |
---|
| 891 | return *this; |
---|
| 892 | } |
---|
| 893 | |
---|
[282] | 894 | /// \brief Make a copy of the given edge map. |
---|
[220] | 895 | /// |
---|
[282] | 896 | /// This function makes a copy of the given edge map for the newly |
---|
| 897 | /// created graph. |
---|
| 898 | /// The key type of the new map \c tmap should be the Edge type of the |
---|
| 899 | /// destination graph, and the key type of the original map \c map |
---|
| 900 | /// should be the Edge type of the source graph. |
---|
| 901 | template <typename FromMap, typename ToMap> |
---|
| 902 | GraphCopy& edgeMap(const FromMap& map, ToMap& tmap) { |
---|
[220] | 903 | _edge_maps.push_back(new _core_bits::MapCopy<From, Edge, |
---|
[282] | 904 | EdgeRefMap, FromMap, ToMap>(map, tmap)); |
---|
[220] | 905 | return *this; |
---|
| 906 | } |
---|
| 907 | |
---|
| 908 | /// \brief Make a copy of the given edge. |
---|
| 909 | /// |
---|
[282] | 910 | /// This function makes a copy of the given edge. |
---|
| 911 | GraphCopy& edge(const Edge& edge, TEdge& tedge) { |
---|
[220] | 912 | _edge_maps.push_back(new _core_bits::ItemCopy<From, Edge, |
---|
[282] | 913 | EdgeRefMap, TEdge>(edge, tedge)); |
---|
[220] | 914 | return *this; |
---|
| 915 | } |
---|
| 916 | |
---|
[282] | 917 | /// \brief Execute copying. |
---|
[220] | 918 | /// |
---|
[282] | 919 | /// This function executes the copying of the graph along with the |
---|
| 920 | /// copying of the assigned data. |
---|
[220] | 921 | void run() { |
---|
| 922 | NodeRefMap nodeRefMap(_from); |
---|
| 923 | EdgeRefMap edgeRefMap(_from); |
---|
[282] | 924 | ArcRefMap arcRefMap(_from, _to, edgeRefMap, nodeRefMap); |
---|
[220] | 925 | _core_bits::GraphCopySelector<To>:: |
---|
[282] | 926 | copy(_from, _to, nodeRefMap, edgeRefMap); |
---|
[220] | 927 | for (int i = 0; i < int(_node_maps.size()); ++i) { |
---|
| 928 | _node_maps[i]->copy(_from, nodeRefMap); |
---|
| 929 | } |
---|
| 930 | for (int i = 0; i < int(_edge_maps.size()); ++i) { |
---|
| 931 | _edge_maps[i]->copy(_from, edgeRefMap); |
---|
| 932 | } |
---|
| 933 | for (int i = 0; i < int(_arc_maps.size()); ++i) { |
---|
| 934 | _arc_maps[i]->copy(_from, arcRefMap); |
---|
| 935 | } |
---|
| 936 | } |
---|
| 937 | |
---|
| 938 | private: |
---|
| 939 | |
---|
| 940 | const From& _from; |
---|
| 941 | To& _to; |
---|
| 942 | |
---|
| 943 | std::vector<_core_bits::MapCopyBase<From, Node, NodeRefMap>* > |
---|
[282] | 944 | _node_maps; |
---|
[220] | 945 | |
---|
| 946 | std::vector<_core_bits::MapCopyBase<From, Arc, ArcRefMap>* > |
---|
[282] | 947 | _arc_maps; |
---|
[220] | 948 | |
---|
| 949 | std::vector<_core_bits::MapCopyBase<From, Edge, EdgeRefMap>* > |
---|
[282] | 950 | _edge_maps; |
---|
[220] | 951 | |
---|
| 952 | }; |
---|
| 953 | |
---|
| 954 | /// \brief Copy a graph to another graph. |
---|
| 955 | /// |
---|
[282] | 956 | /// This function copies a graph to another graph. |
---|
| 957 | /// The complete usage of it is detailed in the GraphCopy class, |
---|
| 958 | /// but a short example shows a basic work: |
---|
[220] | 959 | ///\code |
---|
[282] | 960 | /// graphCopy(src, trg).nodeRef(nr).edgeCrossRef(ecr).run(); |
---|
[220] | 961 | ///\endcode |
---|
| 962 | /// |
---|
| 963 | /// After the copy the \c nr map will contain the mapping from the |
---|
| 964 | /// nodes of the \c from graph to the nodes of the \c to graph and |
---|
[282] | 965 | /// \c ecr will contain the mapping from the edges of the \c to graph |
---|
| 966 | /// to the edges of the \c from graph. |
---|
[220] | 967 | /// |
---|
| 968 | /// \see GraphCopy |
---|
[282] | 969 | template <typename From, typename To> |
---|
| 970 | GraphCopy<From, To> |
---|
| 971 | graphCopy(const From& from, To& to) { |
---|
| 972 | return GraphCopy<From, To>(from, to); |
---|
[220] | 973 | } |
---|
| 974 | |
---|
| 975 | namespace _core_bits { |
---|
| 976 | |
---|
| 977 | template <typename Graph, typename Enable = void> |
---|
| 978 | struct FindArcSelector { |
---|
| 979 | typedef typename Graph::Node Node; |
---|
| 980 | typedef typename Graph::Arc Arc; |
---|
| 981 | static Arc find(const Graph &g, Node u, Node v, Arc e) { |
---|
| 982 | if (e == INVALID) { |
---|
| 983 | g.firstOut(e, u); |
---|
| 984 | } else { |
---|
| 985 | g.nextOut(e); |
---|
| 986 | } |
---|
| 987 | while (e != INVALID && g.target(e) != v) { |
---|
| 988 | g.nextOut(e); |
---|
| 989 | } |
---|
| 990 | return e; |
---|
| 991 | } |
---|
| 992 | }; |
---|
| 993 | |
---|
| 994 | template <typename Graph> |
---|
| 995 | struct FindArcSelector< |
---|
| 996 | Graph, |
---|
[282] | 997 | typename enable_if<typename Graph::FindArcTag, void>::type> |
---|
[220] | 998 | { |
---|
| 999 | typedef typename Graph::Node Node; |
---|
| 1000 | typedef typename Graph::Arc Arc; |
---|
| 1001 | static Arc find(const Graph &g, Node u, Node v, Arc prev) { |
---|
| 1002 | return g.findArc(u, v, prev); |
---|
| 1003 | } |
---|
| 1004 | }; |
---|
| 1005 | } |
---|
| 1006 | |
---|
[282] | 1007 | /// \brief Find an arc between two nodes of a digraph. |
---|
[220] | 1008 | /// |
---|
[282] | 1009 | /// This function finds an arc from node \c u to node \c v in the |
---|
| 1010 | /// digraph \c g. |
---|
[220] | 1011 | /// |
---|
| 1012 | /// If \c prev is \ref INVALID (this is the default value), then |
---|
| 1013 | /// it finds the first arc from \c u to \c v. Otherwise it looks for |
---|
| 1014 | /// the next arc from \c u to \c v after \c prev. |
---|
| 1015 | /// \return The found arc or \ref INVALID if there is no such an arc. |
---|
| 1016 | /// |
---|
| 1017 | /// Thus you can iterate through each arc from \c u to \c v as it follows. |
---|
| 1018 | ///\code |
---|
[282] | 1019 | /// for(Arc e = findArc(g,u,v); e != INVALID; e = findArc(g,u,v,e)) { |
---|
[220] | 1020 | /// ... |
---|
| 1021 | /// } |
---|
| 1022 | ///\endcode |
---|
| 1023 | /// |
---|
[282] | 1024 | /// \note \ref ConArcIt provides iterator interface for the same |
---|
| 1025 | /// functionality. |
---|
| 1026 | /// |
---|
[220] | 1027 | ///\sa ConArcIt |
---|
[282] | 1028 | ///\sa ArcLookUp, AllArcLookUp, DynArcLookUp |
---|
[220] | 1029 | template <typename Graph> |
---|
| 1030 | inline typename Graph::Arc |
---|
| 1031 | findArc(const Graph &g, typename Graph::Node u, typename Graph::Node v, |
---|
| 1032 | typename Graph::Arc prev = INVALID) { |
---|
| 1033 | return _core_bits::FindArcSelector<Graph>::find(g, u, v, prev); |
---|
| 1034 | } |
---|
| 1035 | |
---|
[282] | 1036 | /// \brief Iterator for iterating on parallel arcs connecting the same nodes. |
---|
[220] | 1037 | /// |
---|
[282] | 1038 | /// Iterator for iterating on parallel arcs connecting the same nodes. It is |
---|
| 1039 | /// a higher level interface for the \ref findArc() function. You can |
---|
[220] | 1040 | /// use it the following way: |
---|
| 1041 | ///\code |
---|
| 1042 | /// for (ConArcIt<Graph> it(g, src, trg); it != INVALID; ++it) { |
---|
| 1043 | /// ... |
---|
| 1044 | /// } |
---|
| 1045 | ///\endcode |
---|
| 1046 | /// |
---|
| 1047 | ///\sa findArc() |
---|
[282] | 1048 | ///\sa ArcLookUp, AllArcLookUp, DynArcLookUp |
---|
[606] | 1049 | template <typename GR> |
---|
| 1050 | class ConArcIt : public GR::Arc { |
---|
[664] | 1051 | typedef typename GR::Arc Parent; |
---|
| 1052 | |
---|
[220] | 1053 | public: |
---|
| 1054 | |
---|
[664] | 1055 | typedef typename GR::Arc Arc; |
---|
| 1056 | typedef typename GR::Node Node; |
---|
[220] | 1057 | |
---|
| 1058 | /// \brief Constructor. |
---|
| 1059 | /// |
---|
[282] | 1060 | /// Construct a new ConArcIt iterating on the arcs that |
---|
| 1061 | /// connects nodes \c u and \c v. |
---|
[664] | 1062 | ConArcIt(const GR& g, Node u, Node v) : _graph(g) { |
---|
[220] | 1063 | Parent::operator=(findArc(_graph, u, v)); |
---|
| 1064 | } |
---|
| 1065 | |
---|
| 1066 | /// \brief Constructor. |
---|
| 1067 | /// |
---|
[282] | 1068 | /// Construct a new ConArcIt that continues the iterating from arc \c a. |
---|
[664] | 1069 | ConArcIt(const GR& g, Arc a) : Parent(a), _graph(g) {} |
---|
[220] | 1070 | |
---|
| 1071 | /// \brief Increment operator. |
---|
| 1072 | /// |
---|
| 1073 | /// It increments the iterator and gives back the next arc. |
---|
| 1074 | ConArcIt& operator++() { |
---|
| 1075 | Parent::operator=(findArc(_graph, _graph.source(*this), |
---|
| 1076 | _graph.target(*this), *this)); |
---|
| 1077 | return *this; |
---|
| 1078 | } |
---|
| 1079 | private: |
---|
[664] | 1080 | const GR& _graph; |
---|
[220] | 1081 | }; |
---|
| 1082 | |
---|
| 1083 | namespace _core_bits { |
---|
| 1084 | |
---|
| 1085 | template <typename Graph, typename Enable = void> |
---|
| 1086 | struct FindEdgeSelector { |
---|
| 1087 | typedef typename Graph::Node Node; |
---|
| 1088 | typedef typename Graph::Edge Edge; |
---|
| 1089 | static Edge find(const Graph &g, Node u, Node v, Edge e) { |
---|
| 1090 | bool b; |
---|
| 1091 | if (u != v) { |
---|
| 1092 | if (e == INVALID) { |
---|
| 1093 | g.firstInc(e, b, u); |
---|
| 1094 | } else { |
---|
| 1095 | b = g.u(e) == u; |
---|
| 1096 | g.nextInc(e, b); |
---|
| 1097 | } |
---|
| 1098 | while (e != INVALID && (b ? g.v(e) : g.u(e)) != v) { |
---|
| 1099 | g.nextInc(e, b); |
---|
| 1100 | } |
---|
| 1101 | } else { |
---|
| 1102 | if (e == INVALID) { |
---|
| 1103 | g.firstInc(e, b, u); |
---|
| 1104 | } else { |
---|
| 1105 | b = true; |
---|
| 1106 | g.nextInc(e, b); |
---|
| 1107 | } |
---|
| 1108 | while (e != INVALID && (!b || g.v(e) != v)) { |
---|
| 1109 | g.nextInc(e, b); |
---|
| 1110 | } |
---|
| 1111 | } |
---|
| 1112 | return e; |
---|
| 1113 | } |
---|
| 1114 | }; |
---|
| 1115 | |
---|
| 1116 | template <typename Graph> |
---|
| 1117 | struct FindEdgeSelector< |
---|
| 1118 | Graph, |
---|
| 1119 | typename enable_if<typename Graph::FindEdgeTag, void>::type> |
---|
| 1120 | { |
---|
| 1121 | typedef typename Graph::Node Node; |
---|
| 1122 | typedef typename Graph::Edge Edge; |
---|
| 1123 | static Edge find(const Graph &g, Node u, Node v, Edge prev) { |
---|
| 1124 | return g.findEdge(u, v, prev); |
---|
| 1125 | } |
---|
| 1126 | }; |
---|
| 1127 | } |
---|
| 1128 | |
---|
[282] | 1129 | /// \brief Find an edge between two nodes of a graph. |
---|
[220] | 1130 | /// |
---|
[282] | 1131 | /// This function finds an edge from node \c u to node \c v in graph \c g. |
---|
| 1132 | /// If node \c u and node \c v is equal then each loop edge |
---|
[220] | 1133 | /// will be enumerated once. |
---|
| 1134 | /// |
---|
| 1135 | /// If \c prev is \ref INVALID (this is the default value), then |
---|
[282] | 1136 | /// it finds the first edge from \c u to \c v. Otherwise it looks for |
---|
| 1137 | /// the next edge from \c u to \c v after \c prev. |
---|
| 1138 | /// \return The found edge or \ref INVALID if there is no such an edge. |
---|
[220] | 1139 | /// |
---|
[282] | 1140 | /// Thus you can iterate through each edge between \c u and \c v |
---|
| 1141 | /// as it follows. |
---|
[220] | 1142 | ///\code |
---|
[282] | 1143 | /// for(Edge e = findEdge(g,u,v); e != INVALID; e = findEdge(g,u,v,e)) { |
---|
[220] | 1144 | /// ... |
---|
| 1145 | /// } |
---|
| 1146 | ///\endcode |
---|
| 1147 | /// |
---|
[282] | 1148 | /// \note \ref ConEdgeIt provides iterator interface for the same |
---|
| 1149 | /// functionality. |
---|
| 1150 | /// |
---|
[220] | 1151 | ///\sa ConEdgeIt |
---|
| 1152 | template <typename Graph> |
---|
| 1153 | inline typename Graph::Edge |
---|
| 1154 | findEdge(const Graph &g, typename Graph::Node u, typename Graph::Node v, |
---|
| 1155 | typename Graph::Edge p = INVALID) { |
---|
| 1156 | return _core_bits::FindEdgeSelector<Graph>::find(g, u, v, p); |
---|
| 1157 | } |
---|
| 1158 | |
---|
[282] | 1159 | /// \brief Iterator for iterating on parallel edges connecting the same nodes. |
---|
[220] | 1160 | /// |
---|
[282] | 1161 | /// Iterator for iterating on parallel edges connecting the same nodes. |
---|
| 1162 | /// It is a higher level interface for the findEdge() function. You can |
---|
[220] | 1163 | /// use it the following way: |
---|
| 1164 | ///\code |
---|
[282] | 1165 | /// for (ConEdgeIt<Graph> it(g, u, v); it != INVALID; ++it) { |
---|
[220] | 1166 | /// ... |
---|
| 1167 | /// } |
---|
| 1168 | ///\endcode |
---|
| 1169 | /// |
---|
| 1170 | ///\sa findEdge() |
---|
[606] | 1171 | template <typename GR> |
---|
| 1172 | class ConEdgeIt : public GR::Edge { |
---|
[664] | 1173 | typedef typename GR::Edge Parent; |
---|
| 1174 | |
---|
[220] | 1175 | public: |
---|
| 1176 | |
---|
[664] | 1177 | typedef typename GR::Edge Edge; |
---|
| 1178 | typedef typename GR::Node Node; |
---|
[220] | 1179 | |
---|
| 1180 | /// \brief Constructor. |
---|
| 1181 | /// |
---|
[282] | 1182 | /// Construct a new ConEdgeIt iterating on the edges that |
---|
| 1183 | /// connects nodes \c u and \c v. |
---|
[664] | 1184 | ConEdgeIt(const GR& g, Node u, Node v) : _graph(g), _u(u), _v(v) { |
---|
[449] | 1185 | Parent::operator=(findEdge(_graph, _u, _v)); |
---|
[220] | 1186 | } |
---|
| 1187 | |
---|
| 1188 | /// \brief Constructor. |
---|
| 1189 | /// |
---|
[282] | 1190 | /// Construct a new ConEdgeIt that continues iterating from edge \c e. |
---|
[664] | 1191 | ConEdgeIt(const GR& g, Edge e) : Parent(e), _graph(g) {} |
---|
[220] | 1192 | |
---|
| 1193 | /// \brief Increment operator. |
---|
| 1194 | /// |
---|
| 1195 | /// It increments the iterator and gives back the next edge. |
---|
| 1196 | ConEdgeIt& operator++() { |
---|
[449] | 1197 | Parent::operator=(findEdge(_graph, _u, _v, *this)); |
---|
[220] | 1198 | return *this; |
---|
| 1199 | } |
---|
| 1200 | private: |
---|
[664] | 1201 | const GR& _graph; |
---|
[449] | 1202 | Node _u, _v; |
---|
[220] | 1203 | }; |
---|
| 1204 | |
---|
| 1205 | |
---|
[282] | 1206 | ///Dynamic arc look-up between given endpoints. |
---|
[220] | 1207 | |
---|
| 1208 | ///Using this class, you can find an arc in a digraph from a given |
---|
[282] | 1209 | ///source to a given target in amortized time <em>O</em>(log<em>d</em>), |
---|
[220] | 1210 | ///where <em>d</em> is the out-degree of the source node. |
---|
| 1211 | /// |
---|
| 1212 | ///It is possible to find \e all parallel arcs between two nodes with |
---|
[233] | 1213 | ///the \c operator() member. |
---|
[220] | 1214 | /// |
---|
[282] | 1215 | ///This is a dynamic data structure. Consider to use \ref ArcLookUp or |
---|
| 1216 | ///\ref AllArcLookUp if your digraph is not changed so frequently. |
---|
[220] | 1217 | /// |
---|
[282] | 1218 | ///This class uses a self-adjusting binary search tree, the Splay tree |
---|
| 1219 | ///of Sleator and Tarjan to guarantee the logarithmic amortized |
---|
| 1220 | ///time bound for arc look-ups. This class also guarantees the |
---|
[220] | 1221 | ///optimal time bound in a constant factor for any distribution of |
---|
| 1222 | ///queries. |
---|
| 1223 | /// |
---|
[606] | 1224 | ///\tparam GR The type of the underlying digraph. |
---|
[220] | 1225 | /// |
---|
| 1226 | ///\sa ArcLookUp |
---|
| 1227 | ///\sa AllArcLookUp |
---|
[606] | 1228 | template <typename GR> |
---|
[220] | 1229 | class DynArcLookUp |
---|
[606] | 1230 | : protected ItemSetTraits<GR, typename GR::Arc>::ItemNotifier::ObserverBase |
---|
[220] | 1231 | { |
---|
[606] | 1232 | typedef typename ItemSetTraits<GR, typename GR::Arc> |
---|
[220] | 1233 | ::ItemNotifier::ObserverBase Parent; |
---|
| 1234 | |
---|
[606] | 1235 | TEMPLATE_DIGRAPH_TYPEDEFS(GR); |
---|
[664] | 1236 | |
---|
| 1237 | public: |
---|
| 1238 | |
---|
| 1239 | /// The Digraph type |
---|
[606] | 1240 | typedef GR Digraph; |
---|
[220] | 1241 | |
---|
| 1242 | protected: |
---|
| 1243 | |
---|
[606] | 1244 | class AutoNodeMap : public ItemSetTraits<GR, Node>::template Map<Arc>::Type { |
---|
[664] | 1245 | typedef typename ItemSetTraits<GR, Node>::template Map<Arc>::Type Parent; |
---|
| 1246 | |
---|
[220] | 1247 | public: |
---|
| 1248 | |
---|
[606] | 1249 | AutoNodeMap(const GR& digraph) : Parent(digraph, INVALID) {} |
---|
[220] | 1250 | |
---|
| 1251 | virtual void add(const Node& node) { |
---|
| 1252 | Parent::add(node); |
---|
| 1253 | Parent::set(node, INVALID); |
---|
| 1254 | } |
---|
| 1255 | |
---|
| 1256 | virtual void add(const std::vector<Node>& nodes) { |
---|
| 1257 | Parent::add(nodes); |
---|
| 1258 | for (int i = 0; i < int(nodes.size()); ++i) { |
---|
| 1259 | Parent::set(nodes[i], INVALID); |
---|
| 1260 | } |
---|
| 1261 | } |
---|
| 1262 | |
---|
| 1263 | virtual void build() { |
---|
| 1264 | Parent::build(); |
---|
| 1265 | Node it; |
---|
| 1266 | typename Parent::Notifier* nf = Parent::notifier(); |
---|
| 1267 | for (nf->first(it); it != INVALID; nf->next(it)) { |
---|
| 1268 | Parent::set(it, INVALID); |
---|
| 1269 | } |
---|
| 1270 | } |
---|
| 1271 | }; |
---|
| 1272 | |
---|
| 1273 | class ArcLess { |
---|
| 1274 | const Digraph &g; |
---|
| 1275 | public: |
---|
| 1276 | ArcLess(const Digraph &_g) : g(_g) {} |
---|
| 1277 | bool operator()(Arc a,Arc b) const |
---|
| 1278 | { |
---|
| 1279 | return g.target(a)<g.target(b); |
---|
| 1280 | } |
---|
| 1281 | }; |
---|
| 1282 | |
---|
[664] | 1283 | protected: |
---|
| 1284 | |
---|
| 1285 | const Digraph &_g; |
---|
| 1286 | AutoNodeMap _head; |
---|
| 1287 | typename Digraph::template ArcMap<Arc> _parent; |
---|
| 1288 | typename Digraph::template ArcMap<Arc> _left; |
---|
| 1289 | typename Digraph::template ArcMap<Arc> _right; |
---|
| 1290 | |
---|
[220] | 1291 | public: |
---|
| 1292 | |
---|
| 1293 | ///Constructor |
---|
| 1294 | |
---|
| 1295 | ///Constructor. |
---|
| 1296 | /// |
---|
| 1297 | ///It builds up the search database. |
---|
| 1298 | DynArcLookUp(const Digraph &g) |
---|
| 1299 | : _g(g),_head(g),_parent(g),_left(g),_right(g) |
---|
| 1300 | { |
---|
| 1301 | Parent::attach(_g.notifier(typename Digraph::Arc())); |
---|
| 1302 | refresh(); |
---|
| 1303 | } |
---|
| 1304 | |
---|
| 1305 | protected: |
---|
| 1306 | |
---|
| 1307 | virtual void add(const Arc& arc) { |
---|
| 1308 | insert(arc); |
---|
| 1309 | } |
---|
| 1310 | |
---|
| 1311 | virtual void add(const std::vector<Arc>& arcs) { |
---|
| 1312 | for (int i = 0; i < int(arcs.size()); ++i) { |
---|
| 1313 | insert(arcs[i]); |
---|
| 1314 | } |
---|
| 1315 | } |
---|
| 1316 | |
---|
| 1317 | virtual void erase(const Arc& arc) { |
---|
| 1318 | remove(arc); |
---|
| 1319 | } |
---|
| 1320 | |
---|
| 1321 | virtual void erase(const std::vector<Arc>& arcs) { |
---|
| 1322 | for (int i = 0; i < int(arcs.size()); ++i) { |
---|
| 1323 | remove(arcs[i]); |
---|
| 1324 | } |
---|
| 1325 | } |
---|
| 1326 | |
---|
| 1327 | virtual void build() { |
---|
| 1328 | refresh(); |
---|
| 1329 | } |
---|
| 1330 | |
---|
| 1331 | virtual void clear() { |
---|
| 1332 | for(NodeIt n(_g);n!=INVALID;++n) { |
---|
[628] | 1333 | _head[n] = INVALID; |
---|
[220] | 1334 | } |
---|
| 1335 | } |
---|
| 1336 | |
---|
| 1337 | void insert(Arc arc) { |
---|
| 1338 | Node s = _g.source(arc); |
---|
| 1339 | Node t = _g.target(arc); |
---|
[628] | 1340 | _left[arc] = INVALID; |
---|
| 1341 | _right[arc] = INVALID; |
---|
[220] | 1342 | |
---|
| 1343 | Arc e = _head[s]; |
---|
| 1344 | if (e == INVALID) { |
---|
[628] | 1345 | _head[s] = arc; |
---|
| 1346 | _parent[arc] = INVALID; |
---|
[220] | 1347 | return; |
---|
| 1348 | } |
---|
| 1349 | while (true) { |
---|
| 1350 | if (t < _g.target(e)) { |
---|
| 1351 | if (_left[e] == INVALID) { |
---|
[628] | 1352 | _left[e] = arc; |
---|
| 1353 | _parent[arc] = e; |
---|
[220] | 1354 | splay(arc); |
---|
| 1355 | return; |
---|
| 1356 | } else { |
---|
| 1357 | e = _left[e]; |
---|
| 1358 | } |
---|
| 1359 | } else { |
---|
| 1360 | if (_right[e] == INVALID) { |
---|
[628] | 1361 | _right[e] = arc; |
---|
| 1362 | _parent[arc] = e; |
---|
[220] | 1363 | splay(arc); |
---|
| 1364 | return; |
---|
| 1365 | } else { |
---|
| 1366 | e = _right[e]; |
---|
| 1367 | } |
---|
| 1368 | } |
---|
| 1369 | } |
---|
| 1370 | } |
---|
| 1371 | |
---|
| 1372 | void remove(Arc arc) { |
---|
| 1373 | if (_left[arc] == INVALID) { |
---|
| 1374 | if (_right[arc] != INVALID) { |
---|
[628] | 1375 | _parent[_right[arc]] = _parent[arc]; |
---|
[220] | 1376 | } |
---|
| 1377 | if (_parent[arc] != INVALID) { |
---|
| 1378 | if (_left[_parent[arc]] == arc) { |
---|
[628] | 1379 | _left[_parent[arc]] = _right[arc]; |
---|
[220] | 1380 | } else { |
---|
[628] | 1381 | _right[_parent[arc]] = _right[arc]; |
---|
[220] | 1382 | } |
---|
| 1383 | } else { |
---|
[628] | 1384 | _head[_g.source(arc)] = _right[arc]; |
---|
[220] | 1385 | } |
---|
| 1386 | } else if (_right[arc] == INVALID) { |
---|
[628] | 1387 | _parent[_left[arc]] = _parent[arc]; |
---|
[220] | 1388 | if (_parent[arc] != INVALID) { |
---|
| 1389 | if (_left[_parent[arc]] == arc) { |
---|
[628] | 1390 | _left[_parent[arc]] = _left[arc]; |
---|
[220] | 1391 | } else { |
---|
[628] | 1392 | _right[_parent[arc]] = _left[arc]; |
---|
[220] | 1393 | } |
---|
| 1394 | } else { |
---|
[628] | 1395 | _head[_g.source(arc)] = _left[arc]; |
---|
[220] | 1396 | } |
---|
| 1397 | } else { |
---|
| 1398 | Arc e = _left[arc]; |
---|
| 1399 | if (_right[e] != INVALID) { |
---|
| 1400 | e = _right[e]; |
---|
| 1401 | while (_right[e] != INVALID) { |
---|
| 1402 | e = _right[e]; |
---|
| 1403 | } |
---|
| 1404 | Arc s = _parent[e]; |
---|
[628] | 1405 | _right[_parent[e]] = _left[e]; |
---|
[220] | 1406 | if (_left[e] != INVALID) { |
---|
[628] | 1407 | _parent[_left[e]] = _parent[e]; |
---|
[220] | 1408 | } |
---|
| 1409 | |
---|
[628] | 1410 | _left[e] = _left[arc]; |
---|
| 1411 | _parent[_left[arc]] = e; |
---|
| 1412 | _right[e] = _right[arc]; |
---|
| 1413 | _parent[_right[arc]] = e; |
---|
[220] | 1414 | |
---|
[628] | 1415 | _parent[e] = _parent[arc]; |
---|
[220] | 1416 | if (_parent[arc] != INVALID) { |
---|
| 1417 | if (_left[_parent[arc]] == arc) { |
---|
[628] | 1418 | _left[_parent[arc]] = e; |
---|
[220] | 1419 | } else { |
---|
[628] | 1420 | _right[_parent[arc]] = e; |
---|
[220] | 1421 | } |
---|
| 1422 | } |
---|
| 1423 | splay(s); |
---|
| 1424 | } else { |
---|
[628] | 1425 | _right[e] = _right[arc]; |
---|
| 1426 | _parent[_right[arc]] = e; |
---|
| 1427 | _parent[e] = _parent[arc]; |
---|
[220] | 1428 | |
---|
| 1429 | if (_parent[arc] != INVALID) { |
---|
| 1430 | if (_left[_parent[arc]] == arc) { |
---|
[628] | 1431 | _left[_parent[arc]] = e; |
---|
[220] | 1432 | } else { |
---|
[628] | 1433 | _right[_parent[arc]] = e; |
---|
[220] | 1434 | } |
---|
| 1435 | } else { |
---|
[628] | 1436 | _head[_g.source(arc)] = e; |
---|
[220] | 1437 | } |
---|
| 1438 | } |
---|
| 1439 | } |
---|
| 1440 | } |
---|
| 1441 | |
---|
| 1442 | Arc refreshRec(std::vector<Arc> &v,int a,int b) |
---|
| 1443 | { |
---|
| 1444 | int m=(a+b)/2; |
---|
| 1445 | Arc me=v[m]; |
---|
| 1446 | if (a < m) { |
---|
| 1447 | Arc left = refreshRec(v,a,m-1); |
---|
[628] | 1448 | _left[me] = left; |
---|
| 1449 | _parent[left] = me; |
---|
[220] | 1450 | } else { |
---|
[628] | 1451 | _left[me] = INVALID; |
---|
[220] | 1452 | } |
---|
| 1453 | if (m < b) { |
---|
| 1454 | Arc right = refreshRec(v,m+1,b); |
---|
[628] | 1455 | _right[me] = right; |
---|
| 1456 | _parent[right] = me; |
---|
[220] | 1457 | } else { |
---|
[628] | 1458 | _right[me] = INVALID; |
---|
[220] | 1459 | } |
---|
| 1460 | return me; |
---|
| 1461 | } |
---|
| 1462 | |
---|
| 1463 | void refresh() { |
---|
| 1464 | for(NodeIt n(_g);n!=INVALID;++n) { |
---|
| 1465 | std::vector<Arc> v; |
---|
[233] | 1466 | for(OutArcIt a(_g,n);a!=INVALID;++a) v.push_back(a); |
---|
| 1467 | if (!v.empty()) { |
---|
[220] | 1468 | std::sort(v.begin(),v.end(),ArcLess(_g)); |
---|
| 1469 | Arc head = refreshRec(v,0,v.size()-1); |
---|
[628] | 1470 | _head[n] = head; |
---|
| 1471 | _parent[head] = INVALID; |
---|
[220] | 1472 | } |
---|
[628] | 1473 | else _head[n] = INVALID; |
---|
[220] | 1474 | } |
---|
| 1475 | } |
---|
| 1476 | |
---|
| 1477 | void zig(Arc v) { |
---|
| 1478 | Arc w = _parent[v]; |
---|
[628] | 1479 | _parent[v] = _parent[w]; |
---|
| 1480 | _parent[w] = v; |
---|
| 1481 | _left[w] = _right[v]; |
---|
| 1482 | _right[v] = w; |
---|
[220] | 1483 | if (_parent[v] != INVALID) { |
---|
| 1484 | if (_right[_parent[v]] == w) { |
---|
[628] | 1485 | _right[_parent[v]] = v; |
---|
[220] | 1486 | } else { |
---|
[628] | 1487 | _left[_parent[v]] = v; |
---|
[220] | 1488 | } |
---|
| 1489 | } |
---|
| 1490 | if (_left[w] != INVALID){ |
---|
[628] | 1491 | _parent[_left[w]] = w; |
---|
[220] | 1492 | } |
---|
| 1493 | } |
---|
| 1494 | |
---|
| 1495 | void zag(Arc v) { |
---|
| 1496 | Arc w = _parent[v]; |
---|
[628] | 1497 | _parent[v] = _parent[w]; |
---|
| 1498 | _parent[w] = v; |
---|
| 1499 | _right[w] = _left[v]; |
---|
| 1500 | _left[v] = w; |
---|
[220] | 1501 | if (_parent[v] != INVALID){ |
---|
| 1502 | if (_left[_parent[v]] == w) { |
---|
[628] | 1503 | _left[_parent[v]] = v; |
---|
[220] | 1504 | } else { |
---|
[628] | 1505 | _right[_parent[v]] = v; |
---|
[220] | 1506 | } |
---|
| 1507 | } |
---|
| 1508 | if (_right[w] != INVALID){ |
---|
[628] | 1509 | _parent[_right[w]] = w; |
---|
[220] | 1510 | } |
---|
| 1511 | } |
---|
| 1512 | |
---|
| 1513 | void splay(Arc v) { |
---|
| 1514 | while (_parent[v] != INVALID) { |
---|
| 1515 | if (v == _left[_parent[v]]) { |
---|
| 1516 | if (_parent[_parent[v]] == INVALID) { |
---|
| 1517 | zig(v); |
---|
| 1518 | } else { |
---|
| 1519 | if (_parent[v] == _left[_parent[_parent[v]]]) { |
---|
| 1520 | zig(_parent[v]); |
---|
| 1521 | zig(v); |
---|
| 1522 | } else { |
---|
| 1523 | zig(v); |
---|
| 1524 | zag(v); |
---|
| 1525 | } |
---|
| 1526 | } |
---|
| 1527 | } else { |
---|
| 1528 | if (_parent[_parent[v]] == INVALID) { |
---|
| 1529 | zag(v); |
---|
| 1530 | } else { |
---|
| 1531 | if (_parent[v] == _left[_parent[_parent[v]]]) { |
---|
| 1532 | zag(v); |
---|
| 1533 | zig(v); |
---|
| 1534 | } else { |
---|
| 1535 | zag(_parent[v]); |
---|
| 1536 | zag(v); |
---|
| 1537 | } |
---|
| 1538 | } |
---|
| 1539 | } |
---|
| 1540 | } |
---|
| 1541 | _head[_g.source(v)] = v; |
---|
| 1542 | } |
---|
| 1543 | |
---|
| 1544 | |
---|
| 1545 | public: |
---|
| 1546 | |
---|
| 1547 | ///Find an arc between two nodes. |
---|
| 1548 | |
---|
[233] | 1549 | ///Find an arc between two nodes. |
---|
[282] | 1550 | ///\param s The source node. |
---|
| 1551 | ///\param t The target node. |
---|
[233] | 1552 | ///\param p The previous arc between \c s and \c t. It it is INVALID or |
---|
| 1553 | ///not given, the operator finds the first appropriate arc. |
---|
| 1554 | ///\return An arc from \c s to \c t after \c p or |
---|
| 1555 | ///\ref INVALID if there is no more. |
---|
| 1556 | /// |
---|
| 1557 | ///For example, you can count the number of arcs from \c u to \c v in the |
---|
| 1558 | ///following way. |
---|
| 1559 | ///\code |
---|
| 1560 | ///DynArcLookUp<ListDigraph> ae(g); |
---|
| 1561 | ///... |
---|
[282] | 1562 | ///int n = 0; |
---|
| 1563 | ///for(Arc a = ae(u,v); a != INVALID; a = ae(u,v,a)) n++; |
---|
[233] | 1564 | ///\endcode |
---|
| 1565 | /// |
---|
[282] | 1566 | ///Finding the arcs take at most <em>O</em>(log<em>d</em>) |
---|
[233] | 1567 | ///amortized time, specifically, the time complexity of the lookups |
---|
| 1568 | ///is equal to the optimal search tree implementation for the |
---|
| 1569 | ///current query distribution in a constant factor. |
---|
| 1570 | /// |
---|
| 1571 | ///\note This is a dynamic data structure, therefore the data |
---|
[282] | 1572 | ///structure is updated after each graph alteration. Thus although |
---|
| 1573 | ///this data structure is theoretically faster than \ref ArcLookUp |
---|
[313] | 1574 | ///and \ref AllArcLookUp, it often provides worse performance than |
---|
[233] | 1575 | ///them. |
---|
| 1576 | Arc operator()(Node s, Node t, Arc p = INVALID) const { |
---|
| 1577 | if (p == INVALID) { |
---|
| 1578 | Arc a = _head[s]; |
---|
| 1579 | if (a == INVALID) return INVALID; |
---|
| 1580 | Arc r = INVALID; |
---|
| 1581 | while (true) { |
---|
| 1582 | if (_g.target(a) < t) { |
---|
| 1583 | if (_right[a] == INVALID) { |
---|
| 1584 | const_cast<DynArcLookUp&>(*this).splay(a); |
---|
| 1585 | return r; |
---|
| 1586 | } else { |
---|
| 1587 | a = _right[a]; |
---|
| 1588 | } |
---|
| 1589 | } else { |
---|
| 1590 | if (_g.target(a) == t) { |
---|
| 1591 | r = a; |
---|
| 1592 | } |
---|
| 1593 | if (_left[a] == INVALID) { |
---|
| 1594 | const_cast<DynArcLookUp&>(*this).splay(a); |
---|
| 1595 | return r; |
---|
| 1596 | } else { |
---|
| 1597 | a = _left[a]; |
---|
| 1598 | } |
---|
| 1599 | } |
---|
| 1600 | } |
---|
| 1601 | } else { |
---|
| 1602 | Arc a = p; |
---|
| 1603 | if (_right[a] != INVALID) { |
---|
| 1604 | a = _right[a]; |
---|
| 1605 | while (_left[a] != INVALID) { |
---|
| 1606 | a = _left[a]; |
---|
| 1607 | } |
---|
[220] | 1608 | const_cast<DynArcLookUp&>(*this).splay(a); |
---|
[233] | 1609 | } else { |
---|
| 1610 | while (_parent[a] != INVALID && _right[_parent[a]] == a) { |
---|
| 1611 | a = _parent[a]; |
---|
| 1612 | } |
---|
| 1613 | if (_parent[a] == INVALID) { |
---|
[220] | 1614 | return INVALID; |
---|
| 1615 | } else { |
---|
[233] | 1616 | a = _parent[a]; |
---|
[220] | 1617 | const_cast<DynArcLookUp&>(*this).splay(a); |
---|
| 1618 | } |
---|
| 1619 | } |
---|
[233] | 1620 | if (_g.target(a) == t) return a; |
---|
| 1621 | else return INVALID; |
---|
[220] | 1622 | } |
---|
| 1623 | } |
---|
| 1624 | |
---|
| 1625 | }; |
---|
| 1626 | |
---|
[282] | 1627 | ///Fast arc look-up between given endpoints. |
---|
[220] | 1628 | |
---|
| 1629 | ///Using this class, you can find an arc in a digraph from a given |
---|
[282] | 1630 | ///source to a given target in time <em>O</em>(log<em>d</em>), |
---|
[220] | 1631 | ///where <em>d</em> is the out-degree of the source node. |
---|
| 1632 | /// |
---|
| 1633 | ///It is not possible to find \e all parallel arcs between two nodes. |
---|
| 1634 | ///Use \ref AllArcLookUp for this purpose. |
---|
| 1635 | /// |
---|
[282] | 1636 | ///\warning This class is static, so you should call refresh() (or at |
---|
| 1637 | ///least refresh(Node)) to refresh this data structure whenever the |
---|
| 1638 | ///digraph changes. This is a time consuming (superlinearly proportional |
---|
| 1639 | ///(<em>O</em>(<em>m</em> log<em>m</em>)) to the number of arcs). |
---|
[220] | 1640 | /// |
---|
[606] | 1641 | ///\tparam GR The type of the underlying digraph. |
---|
[220] | 1642 | /// |
---|
| 1643 | ///\sa DynArcLookUp |
---|
| 1644 | ///\sa AllArcLookUp |
---|
[606] | 1645 | template<class GR> |
---|
[220] | 1646 | class ArcLookUp |
---|
| 1647 | { |
---|
[664] | 1648 | TEMPLATE_DIGRAPH_TYPEDEFS(GR); |
---|
| 1649 | |
---|
[220] | 1650 | public: |
---|
[664] | 1651 | |
---|
| 1652 | /// The Digraph type |
---|
[606] | 1653 | typedef GR Digraph; |
---|
[220] | 1654 | |
---|
| 1655 | protected: |
---|
| 1656 | const Digraph &_g; |
---|
| 1657 | typename Digraph::template NodeMap<Arc> _head; |
---|
| 1658 | typename Digraph::template ArcMap<Arc> _left; |
---|
| 1659 | typename Digraph::template ArcMap<Arc> _right; |
---|
| 1660 | |
---|
| 1661 | class ArcLess { |
---|
| 1662 | const Digraph &g; |
---|
| 1663 | public: |
---|
| 1664 | ArcLess(const Digraph &_g) : g(_g) {} |
---|
| 1665 | bool operator()(Arc a,Arc b) const |
---|
| 1666 | { |
---|
| 1667 | return g.target(a)<g.target(b); |
---|
| 1668 | } |
---|
| 1669 | }; |
---|
| 1670 | |
---|
| 1671 | public: |
---|
| 1672 | |
---|
| 1673 | ///Constructor |
---|
| 1674 | |
---|
| 1675 | ///Constructor. |
---|
| 1676 | /// |
---|
| 1677 | ///It builds up the search database, which remains valid until the digraph |
---|
| 1678 | ///changes. |
---|
| 1679 | ArcLookUp(const Digraph &g) :_g(g),_head(g),_left(g),_right(g) {refresh();} |
---|
| 1680 | |
---|
| 1681 | private: |
---|
| 1682 | Arc refreshRec(std::vector<Arc> &v,int a,int b) |
---|
| 1683 | { |
---|
| 1684 | int m=(a+b)/2; |
---|
| 1685 | Arc me=v[m]; |
---|
| 1686 | _left[me] = a<m?refreshRec(v,a,m-1):INVALID; |
---|
| 1687 | _right[me] = m<b?refreshRec(v,m+1,b):INVALID; |
---|
| 1688 | return me; |
---|
| 1689 | } |
---|
| 1690 | public: |
---|
[282] | 1691 | ///Refresh the search data structure at a node. |
---|
[220] | 1692 | |
---|
| 1693 | ///Build up the search database of node \c n. |
---|
| 1694 | /// |
---|
[282] | 1695 | ///It runs in time <em>O</em>(<em>d</em> log<em>d</em>), where <em>d</em> |
---|
| 1696 | ///is the number of the outgoing arcs of \c n. |
---|
[220] | 1697 | void refresh(Node n) |
---|
| 1698 | { |
---|
| 1699 | std::vector<Arc> v; |
---|
| 1700 | for(OutArcIt e(_g,n);e!=INVALID;++e) v.push_back(e); |
---|
| 1701 | if(v.size()) { |
---|
| 1702 | std::sort(v.begin(),v.end(),ArcLess(_g)); |
---|
| 1703 | _head[n]=refreshRec(v,0,v.size()-1); |
---|
| 1704 | } |
---|
| 1705 | else _head[n]=INVALID; |
---|
| 1706 | } |
---|
| 1707 | ///Refresh the full data structure. |
---|
| 1708 | |
---|
| 1709 | ///Build up the full search database. In fact, it simply calls |
---|
| 1710 | ///\ref refresh(Node) "refresh(n)" for each node \c n. |
---|
| 1711 | /// |
---|
[282] | 1712 | ///It runs in time <em>O</em>(<em>m</em> log<em>D</em>), where <em>m</em> is |
---|
| 1713 | ///the number of the arcs in the digraph and <em>D</em> is the maximum |
---|
[220] | 1714 | ///out-degree of the digraph. |
---|
| 1715 | void refresh() |
---|
| 1716 | { |
---|
| 1717 | for(NodeIt n(_g);n!=INVALID;++n) refresh(n); |
---|
| 1718 | } |
---|
| 1719 | |
---|
| 1720 | ///Find an arc between two nodes. |
---|
| 1721 | |
---|
[313] | 1722 | ///Find an arc between two nodes in time <em>O</em>(log<em>d</em>), |
---|
| 1723 | ///where <em>d</em> is the number of outgoing arcs of \c s. |
---|
[282] | 1724 | ///\param s The source node. |
---|
| 1725 | ///\param t The target node. |
---|
[220] | 1726 | ///\return An arc from \c s to \c t if there exists, |
---|
| 1727 | ///\ref INVALID otherwise. |
---|
| 1728 | /// |
---|
| 1729 | ///\warning If you change the digraph, refresh() must be called before using |
---|
| 1730 | ///this operator. If you change the outgoing arcs of |
---|
[282] | 1731 | ///a single node \c n, then \ref refresh(Node) "refresh(n)" is enough. |
---|
[220] | 1732 | Arc operator()(Node s, Node t) const |
---|
| 1733 | { |
---|
| 1734 | Arc e; |
---|
| 1735 | for(e=_head[s]; |
---|
| 1736 | e!=INVALID&&_g.target(e)!=t; |
---|
| 1737 | e = t < _g.target(e)?_left[e]:_right[e]) ; |
---|
| 1738 | return e; |
---|
| 1739 | } |
---|
| 1740 | |
---|
| 1741 | }; |
---|
| 1742 | |
---|
[282] | 1743 | ///Fast look-up of all arcs between given endpoints. |
---|
[220] | 1744 | |
---|
| 1745 | ///This class is the same as \ref ArcLookUp, with the addition |
---|
[282] | 1746 | ///that it makes it possible to find all parallel arcs between given |
---|
| 1747 | ///endpoints. |
---|
[220] | 1748 | /// |
---|
[282] | 1749 | ///\warning This class is static, so you should call refresh() (or at |
---|
| 1750 | ///least refresh(Node)) to refresh this data structure whenever the |
---|
| 1751 | ///digraph changes. This is a time consuming (superlinearly proportional |
---|
| 1752 | ///(<em>O</em>(<em>m</em> log<em>m</em>)) to the number of arcs). |
---|
[220] | 1753 | /// |
---|
[606] | 1754 | ///\tparam GR The type of the underlying digraph. |
---|
[220] | 1755 | /// |
---|
| 1756 | ///\sa DynArcLookUp |
---|
| 1757 | ///\sa ArcLookUp |
---|
[606] | 1758 | template<class GR> |
---|
| 1759 | class AllArcLookUp : public ArcLookUp<GR> |
---|
[220] | 1760 | { |
---|
[606] | 1761 | using ArcLookUp<GR>::_g; |
---|
| 1762 | using ArcLookUp<GR>::_right; |
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| 1763 | using ArcLookUp<GR>::_left; |
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| 1764 | using ArcLookUp<GR>::_head; |
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[220] | 1765 | |
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[606] | 1766 | TEMPLATE_DIGRAPH_TYPEDEFS(GR); |
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[220] | 1767 | |
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[664] | 1768 | typename GR::template ArcMap<Arc> _next; |
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[220] | 1769 | |
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| 1770 | Arc refreshNext(Arc head,Arc next=INVALID) |
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| 1771 | { |
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| 1772 | if(head==INVALID) return next; |
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| 1773 | else { |
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| 1774 | next=refreshNext(_right[head],next); |
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| 1775 | _next[head]=( next!=INVALID && _g.target(next)==_g.target(head)) |
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| 1776 | ? next : INVALID; |
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| 1777 | return refreshNext(_left[head],head); |
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| 1778 | } |
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| 1779 | } |
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| 1780 | |
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| 1781 | void refreshNext() |
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| 1782 | { |
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| 1783 | for(NodeIt n(_g);n!=INVALID;++n) refreshNext(_head[n]); |
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| 1784 | } |
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| 1785 | |
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| 1786 | public: |
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[664] | 1787 | |
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| 1788 | /// The Digraph type |
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| 1789 | typedef GR Digraph; |
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| 1790 | |
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[220] | 1791 | ///Constructor |
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| 1792 | |
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| 1793 | ///Constructor. |
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| 1794 | /// |
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| 1795 | ///It builds up the search database, which remains valid until the digraph |
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| 1796 | ///changes. |
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[606] | 1797 | AllArcLookUp(const Digraph &g) : ArcLookUp<GR>(g), _next(g) {refreshNext();} |
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[220] | 1798 | |
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| 1799 | ///Refresh the data structure at a node. |
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| 1800 | |
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| 1801 | ///Build up the search database of node \c n. |
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| 1802 | /// |
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[282] | 1803 | ///It runs in time <em>O</em>(<em>d</em> log<em>d</em>), where <em>d</em> is |
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[220] | 1804 | ///the number of the outgoing arcs of \c n. |
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| 1805 | void refresh(Node n) |
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| 1806 | { |
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[606] | 1807 | ArcLookUp<GR>::refresh(n); |
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[220] | 1808 | refreshNext(_head[n]); |
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| 1809 | } |
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| 1810 | |
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| 1811 | ///Refresh the full data structure. |
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| 1812 | |
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| 1813 | ///Build up the full search database. In fact, it simply calls |
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| 1814 | ///\ref refresh(Node) "refresh(n)" for each node \c n. |
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| 1815 | /// |
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[282] | 1816 | ///It runs in time <em>O</em>(<em>m</em> log<em>D</em>), where <em>m</em> is |
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| 1817 | ///the number of the arcs in the digraph and <em>D</em> is the maximum |
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[220] | 1818 | ///out-degree of the digraph. |
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| 1819 | void refresh() |
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| 1820 | { |
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| 1821 | for(NodeIt n(_g);n!=INVALID;++n) refresh(_head[n]); |
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| 1822 | } |
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| 1823 | |
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| 1824 | ///Find an arc between two nodes. |
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| 1825 | |
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| 1826 | ///Find an arc between two nodes. |
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[282] | 1827 | ///\param s The source node. |
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| 1828 | ///\param t The target node. |
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[220] | 1829 | ///\param prev The previous arc between \c s and \c t. It it is INVALID or |
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| 1830 | ///not given, the operator finds the first appropriate arc. |
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| 1831 | ///\return An arc from \c s to \c t after \c prev or |
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| 1832 | ///\ref INVALID if there is no more. |
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| 1833 | /// |
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| 1834 | ///For example, you can count the number of arcs from \c u to \c v in the |
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| 1835 | ///following way. |
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| 1836 | ///\code |
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| 1837 | ///AllArcLookUp<ListDigraph> ae(g); |
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| 1838 | ///... |
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[282] | 1839 | ///int n = 0; |
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| 1840 | ///for(Arc a = ae(u,v); a != INVALID; a=ae(u,v,a)) n++; |
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[220] | 1841 | ///\endcode |
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| 1842 | /// |
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[313] | 1843 | ///Finding the first arc take <em>O</em>(log<em>d</em>) time, |
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| 1844 | ///where <em>d</em> is the number of outgoing arcs of \c s. Then the |
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[220] | 1845 | ///consecutive arcs are found in constant time. |
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| 1846 | /// |
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| 1847 | ///\warning If you change the digraph, refresh() must be called before using |
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| 1848 | ///this operator. If you change the outgoing arcs of |
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[282] | 1849 | ///a single node \c n, then \ref refresh(Node) "refresh(n)" is enough. |
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[220] | 1850 | /// |
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| 1851 | #ifdef DOXYGEN |
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| 1852 | Arc operator()(Node s, Node t, Arc prev=INVALID) const {} |
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| 1853 | #else |
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[606] | 1854 | using ArcLookUp<GR>::operator() ; |
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[220] | 1855 | Arc operator()(Node s, Node t, Arc prev) const |
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| 1856 | { |
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| 1857 | return prev==INVALID?(*this)(s,t):_next[prev]; |
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| 1858 | } |
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| 1859 | #endif |
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| 1860 | |
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| 1861 | }; |
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| 1862 | |
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| 1863 | /// @} |
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| 1864 | |
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| 1865 | } //namespace lemon |
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| 1866 | |
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| 1867 | #endif |
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