lemon/compact_graph.h
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     1 /* -*- mode: C++; indent-tabs-mode: nil; -*-
       
     2  *
       
     3  * This file is a part of LEMON, a generic C++ optimization library.
       
     4  *
       
     5  * Copyright (C) 2017
       
     6  * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
       
     7  * (Egervary Research Group on Combinatorial Optimization, EGRES).
       
     8  *
       
     9  * Permission to use, modify and distribute this software is granted
       
    10  * provided that this copyright notice appears in all copies. For
       
    11  * precise terms see the accompanying LICENSE file.
       
    12  *
       
    13  * This software is provided "AS IS" with no warranty of any kind,
       
    14  * express or implied, and with no claim as to its suitability for any
       
    15  * purpose.
       
    16  *
       
    17  */
       
    18 
       
    19 #ifndef LEMON_COMPACT_GRAPH_H
       
    20 #define LEMON_COMPACT_GRAPH_H
       
    21 
       
    22 ///\ingroup graphs
       
    23 ///\file
       
    24 ///\brief CompactDigraph class.
       
    25 
       
    26 #include <lemon/core.h>
       
    27 #include <lemon/bits/graph_extender.h>
       
    28 
       
    29 #include <algorithm>
       
    30 
       
    31 namespace lemon {
       
    32 
       
    33   class CompactDigraphBase {
       
    34 
       
    35   public:
       
    36 
       
    37     CompactDigraphBase()
       
    38       : built(false), node_num(0), arc_num(0),
       
    39         node_first_out(NULL),
       
    40         arc_target(NULL) {}
       
    41 
       
    42     ~CompactDigraphBase() {
       
    43       if (built) {
       
    44         delete[] node_first_out;
       
    45         delete[] arc_target;
       
    46       }
       
    47     }
       
    48 
       
    49     class Node {
       
    50       friend class CompactDigraphBase;
       
    51     protected:
       
    52       int id;
       
    53       Node(int _id) : id(_id) {}
       
    54     public:
       
    55       Node() {}
       
    56       Node (Invalid) : id(-1) {}
       
    57       bool operator==(const Node& node) const { return id == node.id; }
       
    58       bool operator!=(const Node& node) const { return id != node.id; }
       
    59       bool operator<(const Node& node) const { return id < node.id; }
       
    60     };
       
    61 
       
    62     class Arc {
       
    63       friend class CompactDigraphBase;
       
    64     protected:
       
    65       int id;
       
    66       int source;
       
    67       Arc(int _id, int _source) : id(_id), source(_source) {}
       
    68     public:
       
    69       Arc() { }
       
    70       Arc (Invalid) : id(-1), source(-1) {}
       
    71       bool operator==(const Arc& arc) const { return id == arc.id; }
       
    72       bool operator!=(const Arc& arc) const { return id != arc.id; }
       
    73       bool operator<(const Arc& arc) const { return id < arc.id; }
       
    74     };
       
    75 
       
    76     Node source(const Arc& e) const { return Node(e.source); }
       
    77     Node target(const Arc& e) const { return Node(arc_target[e.id]); }
       
    78 
       
    79     void first(Node& n) const { n.id = node_num - 1; }
       
    80     static void next(Node& n) { --n.id; }
       
    81 
       
    82   private:
       
    83 
       
    84     void nextSource(Arc& e) const {
       
    85       if (e.id == -1) return;
       
    86       int last = node_first_out[e.source] - 1;
       
    87       while (e.id == last) {
       
    88         --e.source;
       
    89         last = node_first_out[e.source] - 1;
       
    90       }
       
    91     }
       
    92 
       
    93   public:
       
    94 
       
    95     void first(Arc& e) const {
       
    96       e.id = arc_num - 1;
       
    97       e.source = node_num - 1;
       
    98       nextSource(e);
       
    99     }
       
   100     void next(Arc& e) const {
       
   101       --e.id;
       
   102       nextSource(e);
       
   103     }
       
   104 
       
   105     void firstOut(Arc& e, const Node& n) const {
       
   106       e.source = n.id;
       
   107       e.id = node_first_out[n.id];
       
   108       if (e.id == node_first_out[n.id + 1]) e = INVALID;
       
   109     }
       
   110     void nextOut(Arc& e) const {
       
   111       ++e.id;
       
   112       if (e.id == node_first_out[e.source + 1]) e = INVALID;
       
   113     }
       
   114 
       
   115     void firstIn(Arc& e, const Node& n) const {
       
   116       first(e);
       
   117       while(e != INVALID && target(e) != n) {
       
   118         next(e);
       
   119       }
       
   120     }
       
   121     void nextIn(Arc& e) const {
       
   122       Node arcTarget = target(e);
       
   123       do {
       
   124         next(e);
       
   125       } while(e != INVALID && target(e) != arcTarget);
       
   126     }
       
   127 
       
   128     static int id(const Node& n) { return n.id; }
       
   129     static Node nodeFromId(int id) { return Node(id); }
       
   130     int maxNodeId() const { return node_num - 1; }
       
   131 
       
   132     static int id(const Arc& e) { return e.id; }
       
   133     Arc arcFromId(int id) const {
       
   134       int *l = std::upper_bound(node_first_out, node_first_out + node_num, id) - 1;
       
   135       int src = l - node_first_out;
       
   136       return Arc(id, src);
       
   137     }
       
   138     int maxArcId() const { return arc_num - 1; }
       
   139 
       
   140     typedef True NodeNumTag;
       
   141     typedef True ArcNumTag;
       
   142 
       
   143     int nodeNum() const { return node_num; }
       
   144     int arcNum() const { return arc_num; }
       
   145 
       
   146   private:
       
   147 
       
   148     template <typename Digraph, typename NodeRefMap>
       
   149     class ArcLess {
       
   150     public:
       
   151       typedef typename Digraph::Arc Arc;
       
   152 
       
   153       ArcLess(const Digraph &_graph, const NodeRefMap& _nodeRef)
       
   154         : digraph(_graph), nodeRef(_nodeRef) {}
       
   155 
       
   156       bool operator()(const Arc& left, const Arc& right) const {
       
   157         return nodeRef[digraph.target(left)] < nodeRef[digraph.target(right)];
       
   158       }
       
   159     private:
       
   160       const Digraph& digraph;
       
   161       const NodeRefMap& nodeRef;
       
   162     };
       
   163 
       
   164   public:
       
   165 
       
   166     typedef True BuildTag;
       
   167 
       
   168     void clear() {
       
   169       if (built) {
       
   170         delete[] node_first_out;
       
   171         delete[] arc_target;
       
   172       }
       
   173       built = false;
       
   174       node_num = 0;
       
   175       arc_num = 0;
       
   176     }
       
   177 
       
   178     template <typename Digraph, typename NodeRefMap, typename ArcRefMap>
       
   179     void build(const Digraph& digraph, NodeRefMap& nodeRef, ArcRefMap& arcRef) {
       
   180       typedef typename Digraph::Node GNode;
       
   181       typedef typename Digraph::Arc GArc;
       
   182 
       
   183       built = true;
       
   184 
       
   185       node_num = countNodes(digraph);
       
   186       arc_num = countArcs(digraph);
       
   187 
       
   188       node_first_out = new int[node_num + 1];
       
   189 
       
   190       arc_target = new int[arc_num];
       
   191 
       
   192       int node_index = 0;
       
   193       for (typename Digraph::NodeIt n(digraph); n != INVALID; ++n) {
       
   194         nodeRef[n] = Node(node_index);
       
   195         ++node_index;
       
   196       }
       
   197 
       
   198       ArcLess<Digraph, NodeRefMap> arcLess(digraph, nodeRef);
       
   199 
       
   200       int arc_index = 0;
       
   201       for (typename Digraph::NodeIt n(digraph); n != INVALID; ++n) {
       
   202         int source = nodeRef[n].id;
       
   203         std::vector<GArc> arcs;
       
   204         for (typename Digraph::OutArcIt e(digraph, n); e != INVALID; ++e) {
       
   205           arcs.push_back(e);
       
   206         }
       
   207         if (!arcs.empty()) {
       
   208           node_first_out[source] = arc_index;
       
   209           std::sort(arcs.begin(), arcs.end(), arcLess);
       
   210           for (typename std::vector<GArc>::iterator it = arcs.begin();
       
   211                it != arcs.end(); ++it) {
       
   212             int target = nodeRef[digraph.target(*it)].id;
       
   213             arcRef[*it] = Arc(arc_index, source);
       
   214             arc_target[arc_index] = target;
       
   215             ++arc_index;
       
   216           }
       
   217         } else {
       
   218           node_first_out[source] = arc_index;
       
   219         }
       
   220       }
       
   221       node_first_out[node_num] = arc_num;
       
   222     }
       
   223 
       
   224     template <typename ArcListIterator>
       
   225     void build(int n, ArcListIterator first, ArcListIterator last) {
       
   226       built = true;
       
   227 
       
   228       node_num = n;
       
   229       arc_num = static_cast<int>(std::distance(first, last));
       
   230 
       
   231       node_first_out = new int[node_num + 1];
       
   232 
       
   233       arc_target = new int[arc_num];
       
   234 
       
   235       int arc_index = 0;
       
   236       for (int i = 0; i != node_num; ++i) {
       
   237         node_first_out[i] = arc_index;
       
   238         for ( ; first != last && (*first).first == i; ++first) {
       
   239           int j = (*first).second;
       
   240           LEMON_ASSERT(j >= 0 && j < node_num,
       
   241             "Wrong arc list for CompactDigraph::build()");
       
   242           arc_target[arc_index] = j;
       
   243           ++arc_index;
       
   244         }
       
   245       }
       
   246       LEMON_ASSERT(first == last,
       
   247         "Wrong arc list for CompactDigraph::build()");
       
   248       node_first_out[node_num] = arc_num;
       
   249     }
       
   250 
       
   251   protected:
       
   252     bool built;
       
   253     int node_num;
       
   254     int arc_num;
       
   255     int *node_first_out;
       
   256     int *arc_target;
       
   257   };
       
   258 
       
   259   typedef DigraphExtender<CompactDigraphBase> ExtendedCompactDigraphBase;
       
   260 
       
   261 
       
   262   /// \ingroup graphs
       
   263   ///
       
   264   /// \brief A static directed graph class.
       
   265   ///
       
   266   /// \ref CompactDigraph is a highly efficient digraph implementation
       
   267   /// similar to \ref StaticDigraph. It is more memory efficient but does
       
   268   /// not provide efficient iteration over incoming arcs.
       
   269   ///
       
   270   /// It stores only one \c int values for each node and one \c int value
       
   271   /// for each arc. Its \ref InArcIt implementation is inefficient and
       
   272   /// provided only for compatibility with the \ref concepts::Digraph "Digraph concept".
       
   273   ///
       
   274   /// This type fully conforms to the \ref concepts::Digraph "Digraph concept".
       
   275   /// Most of its member functions and nested classes are documented
       
   276   /// only in the concept class.
       
   277   ///
       
   278   /// \sa concepts::Digraph
       
   279   class CompactDigraph : public ExtendedCompactDigraphBase {
       
   280 
       
   281   private:
       
   282     /// Graphs are \e not copy constructible. Use DigraphCopy instead.
       
   283     CompactDigraph(const CompactDigraph &) : ExtendedCompactDigraphBase() {};
       
   284     /// \brief Assignment of a graph to another one is \e not allowed.
       
   285     /// Use DigraphCopy instead.
       
   286     void operator=(const CompactDigraph&) {}
       
   287 
       
   288   public:
       
   289 
       
   290     typedef ExtendedCompactDigraphBase Parent;
       
   291 
       
   292   public:
       
   293 
       
   294     /// \brief Constructor
       
   295     ///
       
   296     /// Default constructor.
       
   297     CompactDigraph() : Parent() {}
       
   298 
       
   299     /// \brief The node with the given index.
       
   300     ///
       
   301     /// This function returns the node with the given index.
       
   302     /// \sa index()
       
   303     static Node node(int ix) { return Parent::nodeFromId(ix); }
       
   304 
       
   305     /// \brief The arc with the given index.
       
   306     ///
       
   307     /// This function returns the arc with the given index.
       
   308     /// \sa index()
       
   309     Arc arc(int ix) { return arcFromId(ix); }
       
   310 
       
   311     /// \brief The index of the given node.
       
   312     ///
       
   313     /// This function returns the index of the the given node.
       
   314     /// \sa node()
       
   315     static int index(Node node) { return Parent::id(node); }
       
   316 
       
   317     /// \brief The index of the given arc.
       
   318     ///
       
   319     /// This function returns the index of the the given arc.
       
   320     /// \sa arc()
       
   321     static int index(Arc arc) { return Parent::id(arc); }
       
   322 
       
   323     /// \brief Number of nodes.
       
   324     ///
       
   325     /// This function returns the number of nodes.
       
   326     int nodeNum() const { return node_num; }
       
   327 
       
   328     /// \brief Number of arcs.
       
   329     ///
       
   330     /// This function returns the number of arcs.
       
   331     int arcNum() const { return arc_num; }
       
   332 
       
   333     /// \brief Build the digraph copying another digraph.
       
   334     ///
       
   335     /// This function builds the digraph copying another digraph of any
       
   336     /// kind. It can be called more than once, but in such case, the whole
       
   337     /// structure and all maps will be cleared and rebuilt.
       
   338     ///
       
   339     /// This method also makes possible to copy a digraph to a CompactDigraph
       
   340     /// structure using \ref DigraphCopy.
       
   341     ///
       
   342     /// \param digraph An existing digraph to be copied.
       
   343     /// \param nodeRef The node references will be copied into this map.
       
   344     /// Its key type must be \c Digraph::Node and its value type must be
       
   345     /// \c CompactDigraph::Node.
       
   346     /// It must conform to the \ref concepts::ReadWriteMap "ReadWriteMap"
       
   347     /// concept.
       
   348     /// \param arcRef The arc references will be copied into this map.
       
   349     /// Its key type must be \c Digraph::Arc and its value type must be
       
   350     /// \c CompactDigraph::Arc.
       
   351     /// It must conform to the \ref concepts::WriteMap "WriteMap" concept.
       
   352     ///
       
   353     /// \note If you do not need the arc references, then you could use
       
   354     /// \ref NullMap for the last parameter. However the node references
       
   355     /// are required by the function itself, thus they must be readable
       
   356     /// from the map.
       
   357     template <typename Digraph, typename NodeRefMap, typename ArcRefMap>
       
   358     void build(const Digraph& digraph, NodeRefMap& nodeRef, ArcRefMap& arcRef) {
       
   359       if (built) Parent::clear();
       
   360       Parent::build(digraph, nodeRef, arcRef);
       
   361     }
       
   362 
       
   363     /// \brief Build the digraph from an arc list.
       
   364     ///
       
   365     /// This function builds the digraph from the given arc list.
       
   366     /// It can be called more than once, but in such case, the whole
       
   367     /// structure and all maps will be cleared and rebuilt.
       
   368     ///
       
   369     /// The list of the arcs must be given in the range <tt>[begin, end)</tt>
       
   370     /// specified by STL compatible itartors whose \c value_type must be
       
   371     /// <tt>std::pair<int,int></tt>.
       
   372     /// Each arc must be specified by a pair of integer indices
       
   373     /// from the range <tt>[0..n-1]</tt>. <i>The pairs must be in a
       
   374     /// non-decreasing order with respect to their first values.</i>
       
   375     /// If the k-th pair in the list is <tt>(i,j)</tt>, then
       
   376     /// <tt>arc(k-1)</tt> will connect <tt>node(i)</tt> to <tt>node(j)</tt>.
       
   377     ///
       
   378     /// \param n The number of nodes.
       
   379     /// \param begin An iterator pointing to the beginning of the arc list.
       
   380     /// \param end An iterator pointing to the end of the arc list.
       
   381     ///
       
   382     /// For example, a simple digraph can be constructed like this.
       
   383     /// \code
       
   384     ///   std::vector<std::pair<int,int> > arcs;
       
   385     ///   arcs.push_back(std::make_pair(0,1));
       
   386     ///   arcs.push_back(std::make_pair(0,2));
       
   387     ///   arcs.push_back(std::make_pair(1,3));
       
   388     ///   arcs.push_back(std::make_pair(1,2));
       
   389     ///   arcs.push_back(std::make_pair(3,0));
       
   390     ///   CompactDigraph gr;
       
   391     ///   gr.build(4, arcs.begin(), arcs.end());
       
   392     /// \endcode
       
   393     template <typename ArcListIterator>
       
   394     void build(int n, ArcListIterator begin, ArcListIterator end) {
       
   395       if (built) Parent::clear();
       
   396       CompactDigraphBase::build(n, begin, end);
       
   397       notifier(Node()).build();
       
   398       notifier(Arc()).build();
       
   399     }
       
   400 
       
   401     /// \brief Clear the digraph.
       
   402     ///
       
   403     /// This function erases all nodes and arcs from the digraph.
       
   404     void clear() {
       
   405       Parent::clear();
       
   406     }
       
   407 
       
   408   public:
       
   409 
       
   410     Node baseNode(const OutArcIt &arc) const {
       
   411       return Parent::source(static_cast<const Arc&>(arc));
       
   412     }
       
   413 
       
   414     Node runningNode(const OutArcIt &arc) const {
       
   415       return Parent::target(static_cast<const Arc&>(arc));
       
   416     }
       
   417 
       
   418     Node baseNode(const InArcIt &arc) const {
       
   419       return Parent::target(static_cast<const Arc&>(arc));
       
   420     }
       
   421 
       
   422     Node runningNode(const InArcIt &arc) const {
       
   423       return Parent::source(static_cast<const Arc&>(arc));
       
   424     }
       
   425 
       
   426   };
       
   427 
       
   428 }
       
   429 
       
   430 #endif