src/work/marci/oldies/marci_max_flow.hh
author alpar
Mon, 06 Sep 2004 17:13:07 +0000
changeset 811 e27135322727
permissions -rw-r--r--
Minor change (STL naming conv. differs from our).
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#ifndef MARCI_MAX_FLOW_HH
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#define MARCI_MAX_FLOW_HH
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#include <algorithm>
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#include <marci_property_vector.hh>
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#include <marci_bfs.hh>
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namespace hugo {
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  template<typename graph_type, typename T>
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  class res_graph_type { 
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    typedef typename graph_type::node_iterator node_iterator;
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    typedef typename graph_type::each_node_iterator each_node_iterator;
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    typedef typename graph_type::sym_edge_iterator old_sym_edge_iterator;
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    graph_type& G;
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    edge_property_vector<graph_type, T>& flow;
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    edge_property_vector<graph_type, T>& capacity;
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  public:
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    res_graph_type(graph_type& _G, edge_property_vector<graph_type, T>& _flow, edge_property_vector<graph_type, T>& _capacity) : G(_G), flow(_flow), capacity(_capacity) { }
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    class edge_iterator {
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      friend class res_graph_type<graph_type, T>;
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    protected:
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      res_graph_type<graph_type, T>* resG;
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      old_sym_edge_iterator sym;
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    public:
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      edge_iterator() { }
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      //bool is_free() {  
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      //if (resG->G.a_node(sym)==resG->G.tail(sym)) { 
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      //  return (resG->flow.get(sym)<resG->capacity.get(sym)); 
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      //} else { 
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      //  return (resG->flow.get(sym)>0); 
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      //}
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      //}
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      T free() { 
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	if (resG->G.a_node(sym)==resG->G.tail(sym)) { 
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	  return (resG->capacity.get(sym)-resG->flow.get(sym)); 
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	} else { 
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	  return (resG->flow.get(sym)); 
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	}
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      }
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      bool valid() { return sym.valid(); }
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      void make_invalid() { sym.make_invalid(); }
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      void augment(T a) {
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	if (resG->G.a_node(sym)==resG->G.tail(sym)) { 
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	  resG->flow.put(sym, resG->flow.get(sym)+a);
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	} else { 
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	  resG->flow.put(sym, resG->flow.get(sym)-a);
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	}
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      }
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    };
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    class out_edge_iterator : public edge_iterator {
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    public:
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      out_edge_iterator() { }
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      out_edge_iterator(res_graph_type<graph_type, T>& _resG, const node_iterator& v) { 
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      	resG=&_resG;
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	sym=resG->G.first_sym_edge(v);
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	while( sym.valid() && !(free()>0) ) { ++sym; }
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      }
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      out_edge_iterator& operator++() { 
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	++sym; 
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	while( sym.valid() && !(free()>0) ) { ++sym; }
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	return *this; 
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      }
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    };
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    out_edge_iterator first_out_edge(const node_iterator& v) {
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      return out_edge_iterator(*this, v);
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    }
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    each_node_iterator first_node() {
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      return G.first_node();
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    }
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    node_iterator tail(const edge_iterator& e) { return G.a_node(e.sym); }
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    node_iterator head(const edge_iterator& e) { return G.b_node(e.sym); }
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    int id(const node_iterator& v) { return G.id(v); }
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    //node_iterator invalid_node() { return G.invalid_node(); }
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    //res_edge_it invalid_edge() { res_edge_it n; n.sym=G.invalid_sym_edge(); return n; } 
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  };
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  template <typename graph_type, typename T>
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  struct max_flow_type {
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    typedef typename graph_type::node_iterator node_iterator;
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    typedef typename graph_type::edge_iterator edge_iterator;
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    typedef typename graph_type::each_node_iterator each_node_iterator;
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    typedef typename graph_type::out_edge_iterator out_edge_iterator;
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    typedef typename graph_type::in_edge_iterator in_edge_iterator;
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    graph_type& G;
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    node_iterator s;
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    node_iterator t;
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    edge_property_vector<graph_type, T> flow;
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    edge_property_vector<graph_type, T>& capacity;
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    max_flow_type(graph_type& _G, node_iterator _s, node_iterator _t, edge_property_vector<graph_type, T>& _capacity) : G(_G), s(_s), t(_t), flow(_G), capacity(_capacity) { 
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      for(each_node_iterator i=G.first_node(); i.valid(); ++i) 
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	for(out_edge_iterator j=G.first_out_edge(i); j.valid(); ++j) 
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	  flow.put(j, 0);
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    }
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    void run() {
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      typedef res_graph_type<graph_type, T> aug_graph_type;
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      aug_graph_type res_graph(G, flow, capacity);
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      bool augment;
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      do {
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	augment=false;
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	typedef std::queue<aug_graph_type::out_edge_iterator> bfs_queue_type;
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	bfs_queue_type bfs_queue;
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	bfs_queue.push(res_graph.first_out_edge(s));
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	typedef node_property_vector<aug_graph_type, bool> reached_type;
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	reached_type reached(res_graph, false);
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	reached.put(s, true); 
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	bfs_iterator1< aug_graph_type, reached_type > 
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	res_bfs(res_graph, bfs_queue, reached);
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	typedef node_property_vector<aug_graph_type, aug_graph_type::edge_iterator> pred_type;
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	pred_type pred(res_graph);
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	aug_graph_type::edge_iterator a; 
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	a.make_invalid();
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	pred.put(s, a);
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	typedef node_property_vector<aug_graph_type, int> free_type;
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	free_type free(res_graph);
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	//searching for augmenting path
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	while ( res_bfs.valid() ) { 
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	  //std::cout<<"KULSO ciklus itt jar: "<<G.id(res_graph.tail(res_bfs))<<"->"<<G.id(res_graph.head(res_bfs))<<std::endl;
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	  if (res_bfs.newly_reached()) {
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	    aug_graph_type::edge_iterator e;
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	    e=res_bfs;
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	    node_iterator v=res_graph.tail(e);
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	    node_iterator w=res_graph.head(e);
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	    //std::cout<<G.id(v)<<"->"<<G.id(w)<<", "<<G.id(w)<<" is newly reached";
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	    pred.put(w, e);
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	    if (pred.get(v).valid()) {
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	      free.put(w, std::min(free.get(v), e.free()));
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	      //std::cout <<" nem elso csucs: ";
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	      //std::cout <<"szabad kap eddig: "<< free.get(w) << " ";
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	    } else {
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	      free.put(w, e.free()); 
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	      //std::cout <<" elso csucs: ";
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	      //std::cout <<"szabad kap eddig: "<< free.get(w) << " ";
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	    }
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	    //std::cout<<std::endl;
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	  }
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	  if (res_graph.head(res_bfs)==t) break;
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	  ++res_bfs;
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	}
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	if (reached.get(t)) {
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	  augment=true;
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	  node_iterator n=t;
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	  T augment_value=free.get(t);
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	  std::cout<<"augmentation: ";
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	  while (pred.get(n).valid()) { 
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	    aug_graph_type::edge_iterator e=pred.get(n);
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	    e.augment(augment_value); 
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	    std::cout<<"("<<res_graph.tail(e)<< "->"<<res_graph.head(e)<<") ";
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	    n=res_graph.tail(e);
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	  }
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	  std::cout<<std::endl;
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	}
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	std::cout << "actual flow: "<< std::endl;
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	for(typename graph_type::each_edge_iterator e=G.first_edge(); e.valid(); ++e) { 
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	  std::cout<<"("<<G.tail(e)<< "-"<<flow.get(e)<<"->"<<G.head(e)<<") ";
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	}
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	std::cout<<std::endl;
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      } while (augment);
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    }
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  };
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} // namespace hugo
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#endif //MARCI_MAX_FLOW_HH