src/work/johanna/kruskal.h
author alpar
Wed, 21 Jul 2004 17:38:02 +0000
changeset 720 193d881b23ad
parent 394 3a34c5626e52
child 737 2d867176d10e
permissions -rw-r--r--
MapBase added
     1 // -*- c++ -*- //
     2 #ifndef HUGO_KRUSKAL_H
     3 #define HUGO_KRUSKAL_H
     4 
     5 #include <algorithm>
     6 #include <unionfind.h>
     7 #include <for_each_macros.h>
     8 
     9 ///\file
    10 ///\brief Kruskal's algorithm to compute a minimum cost tree
    11 
    12 namespace hugo {
    13 
    14   /// Kruskal's algorithm to compute a minimum cost tree
    15 
    16   template <typename Graph, typename InputEdgeOrder, typename OutBoolMap>
    17   typename InputEdgeOrder::ValueType
    18   Kruskal(Graph const& G, InputEdgeOrder const& edges, 
    19 	  OutBoolMap& out_map)
    20   {
    21     typedef typename InputEdgeOrder::ValueType EdgeCost;
    22     typedef typename Graph::NodeMap<int> NodeIntMap;
    23     typedef typename Graph::Node Node;
    24 
    25     NodeIntMap comp_map(G, -1);
    26     UnionFind<Node,NodeIntMap> uf(comp_map); 
    27       
    28     EdgeCost tot_cost = 0;
    29     for (typename InputEdgeOrder::const_iterator p = edges.begin(); 
    30 	 p!=edges.end(); ++p ) {
    31       if ( uf.join(G.head(edges.first(p)),
    32 			     G.tail(edges.first(p))) ) {
    33 	out_map.set(edges.first(p), true);
    34 	tot_cost += edges.second(p);
    35       }
    36       else {
    37 	out_map.set(edges.first(p), false);
    38       }
    39     }
    40     return tot_cost;
    41   }
    42 
    43   /* A work-around for running Kruskal with const-reference bool maps... */
    44 
    45   template<typename Map>
    46   class NonConstMapWr {
    47     const Map &m;
    48   public:
    49     typedef typename Map::ValueType ValueType;
    50 
    51     NonConstMapWr(const Map &_m) : m(_m) {}
    52 
    53     template<typename KeyType>
    54     void set(KeyType const& k, ValueType const &v) const { m.set(k,v); }
    55   };
    56 
    57   template <typename Graph, typename InputEdgeOrder, typename OutBoolMap>
    58   inline
    59   typename InputEdgeOrder::ValueType
    60   Kruskal(Graph const& G, InputEdgeOrder const& edges, 
    61 	  OutBoolMap const& out_map)
    62   {
    63     NonConstMapWr<OutBoolMap> map_wr(out_map);
    64     return Kruskal(G, edges, map_wr);
    65   }  
    66 
    67   
    68   /* ** ** Output-objektumok: egyszeruen extra bool mapek ** ** */
    69   
    70   /// A writable bool-map that makes a sequence of "true" keys
    71 
    72   /// A writable bool-map that creates a sequence out of keys that receive
    73   /// the value "true".
    74   /// \warning Not a regular property map, as it doesn't know its KeyType
    75 
    76   template<typename Iterator>
    77   class SequenceOutput {
    78     mutable Iterator it;
    79 
    80   public:
    81     typedef bool ValueType;
    82 
    83     SequenceOutput(Iterator const &_it) : it(_it) {}
    84 
    85     template<typename KeyType>
    86     void set(KeyType const& k, bool v) const { if(v) {*it=k; ++it;} }
    87   };
    88 
    89   template<typename Iterator>
    90   inline
    91   SequenceOutput<Iterator>
    92   makeSequenceOutput(Iterator it) {
    93     return SequenceOutput<Iterator>(it);
    94   }
    95 
    96   /* ** ** InputSource -ok ** ** */
    97 
    98   template<typename Key, typename Val>
    99   class KruskalPairVec : public std::vector< std::pair<Key,Val> > {
   100 
   101   public:
   102     typedef std::vector< std::pair<Key,Val> > Parent;
   103     typedef Key KeyType;
   104     typedef Val ValueType;
   105     typedef std::pair<Key,Val> PairType;
   106 
   107     typedef typename Parent::iterator iterator;
   108     typedef typename Parent::const_iterator const_iterator;
   109 
   110   private:
   111     class comparePair {
   112     public:
   113       bool operator()(PairType const& a, PairType const& b) {
   114 	return a.second < b.second;
   115       }
   116     };
   117 
   118   public:
   119 
   120     // FIXME: kell ez?
   121     // KruskalPairVec(Parent const& p) : Parent(p) {}
   122     
   123     void sort() {
   124       std::sort(begin(), end(), comparePair());
   125     }
   126 
   127     // FIXME: nem nagyon illik ez ide...
   128     template<typename Graph, typename Map>
   129     KruskalPairVec(Graph const& G, Map const& m) {
   130       typedef typename Graph::EdgeIt EdgeIt;
   131 
   132       clear();
   133       FOR_EACH_LOC(EdgeIt, e, G) {
   134       // for (EdgeIt e=G.template first<EdgeIt>(); G.valid(e); G.next(e)) {
   135 	push_back(make_pair(e, m[e]));
   136       }
   137       sort();
   138     }
   139 
   140     Key const& first(const_iterator i) const { return i->first; }
   141     Key& first(iterator i) { return i->first; }
   142 
   143     Val const& second(const_iterator i) const { return i->second; }
   144     Val& second(iterator i) { return i->second; }
   145   };
   146 
   147 
   148   template <typename Map>
   149   class KruskalMapVec : public std::vector<typename Map::KeyType> {
   150   public:
   151 
   152     typedef typename Map::KeyType KeyType;
   153     typedef typename Map::ValueType ValueType;
   154 
   155     typedef typename std::vector<KeyType> Parent;
   156     typedef typename Parent::iterator iterator;
   157     typedef typename Parent::const_iterator const_iterator;
   158 
   159   private:
   160 
   161     const Map &m;
   162 
   163     class compareKeys {
   164       const Map &m;
   165     public:
   166       compareKeys(Map const &_m) : m(_m) {}
   167       bool operator()(KeyType const& a, KeyType const& b) {
   168 	return m[a] < m[b];
   169       }
   170     };
   171 
   172   public:
   173 
   174     KruskalMapVec(Map const& _m) : m(_m) {}
   175 
   176     void sort() {
   177       std::sort(begin(), end(), compareKeys(m));
   178     }
   179 
   180     // FIXME: nem nagyon illik ez ide...
   181     template<typename Graph>
   182     KruskalMapVec(Graph const& G, Map const& _m) : m(_m) {
   183       typedef typename Graph::EdgeIt EdgeIt;
   184 
   185       clear();
   186       FOR_EACH_LOC(EdgeIt, e, G) {
   187       // for (EdgeIt e=G.template first<EdgeIt>(); G.valid(e); G.next(e)) {
   188 	push_back(e);
   189       }
   190       sort();
   191     }
   192 
   193     KeyType const& first(const_iterator i) const { return *i; }
   194     KeyType& first(iterator i) { return *i; }
   195 
   196     ValueType const& second(const_iterator i) const { return m[*i]; }
   197     ValueType& second(iterator i) { return m[*i]; }
   198   };
   199 
   200   /* ** ** Wrapper fuggvenyek ** ** */
   201 
   202 
   203   /// \brief Wrapper to Kruskal().
   204   /// Input is from an EdgeMap, output is a plain boolmap.
   205   template <typename Graph, typename EdgeCostMap, typename RetEdgeBoolMap>
   206   inline
   207   typename EdgeCostMap::ValueType
   208   Kruskal_EdgeCostMapIn_BoolMapOut(Graph const& G,
   209 				   EdgeCostMap const& edge_costs,
   210 				   RetEdgeBoolMap &ret_bool_map) {
   211 
   212     typedef KruskalPairVec<typename Graph::Edge, typename EdgeCostMap::ValueType>
   213       InputVec;
   214     InputVec iv(G, edge_costs);
   215 
   216     return Kruskal(G, iv, ret_bool_map);
   217   }
   218 
   219 
   220   /// \brief Wrapper to Kruskal().
   221   /// Input is from an EdgeMap, output is to a sequence.
   222   template <typename Graph, typename EdgeCostMap, typename RetIterator>
   223   inline
   224   typename EdgeCostMap::ValueType
   225   Kruskal_EdgeCostMapIn_IteratorOut(Graph const& G,
   226 				    EdgeCostMap const& edge_costs,
   227 				    RetIterator ret_iterator) {
   228     typedef SequenceOutput<RetIterator> OutMap;
   229     OutMap out(ret_iterator);
   230 
   231     typedef KruskalPairVec<typename Graph::Edge, typename EdgeCostMap::ValueType>
   232       InputVec;
   233     InputVec iv(G, edge_costs);
   234 
   235     return Kruskal(G, iv, out);
   236   }
   237 
   238 
   239 } //namespace hugo
   240 
   241 #endif //HUGO_KRUSKAL_H