lemon/gomory_hu.h
changeset 595 16d7255a6849
parent 546 d6b40ebb2617
child 596 293551ad254f
equal deleted inserted replaced
1:25aa2f18c735 2:72803c0e12f5
   141     void init() {
   141     void init() {
   142       createStructures();
   142       createStructures();
   143 
   143 
   144       _root = NodeIt(_graph);
   144       _root = NodeIt(_graph);
   145       for (NodeIt n(_graph); n != INVALID; ++n) {
   145       for (NodeIt n(_graph); n != INVALID; ++n) {
   146 	_pred->set(n, _root);
   146         (*_pred)[n] = _root;
   147 	_order->set(n, -1);
   147         (*_order)[n] = -1;
   148       }
   148       }
   149       _pred->set(_root, INVALID);
   149       (*_pred)[_root] = INVALID;
   150       _weight->set(_root, std::numeric_limits<Value>::max()); 
   150       (*_weight)[_root] = std::numeric_limits<Value>::max(); 
   151     }
   151     }
   152 
   152 
   153 
   153 
   154     // Start the algorithm
   154     // Start the algorithm
   155     void start() {
   155     void start() {
   162 	fa.source(n);
   162 	fa.source(n);
   163 	fa.target(pn);
   163 	fa.target(pn);
   164 
   164 
   165 	fa.runMinCut();
   165 	fa.runMinCut();
   166 
   166 
   167 	_weight->set(n, fa.flowValue());
   167 	(*_weight)[n] = fa.flowValue();
   168 
   168 
   169 	for (NodeIt nn(_graph); nn != INVALID; ++nn) {
   169 	for (NodeIt nn(_graph); nn != INVALID; ++nn) {
   170 	  if (nn != n && fa.minCut(nn) && (*_pred)[nn] == pn) {
   170 	  if (nn != n && fa.minCut(nn) && (*_pred)[nn] == pn) {
   171 	    _pred->set(nn, n);
   171 	    (*_pred)[nn] = n;
   172 	  }
   172 	  }
   173 	}
   173 	}
   174 	if ((*_pred)[pn] != INVALID && fa.minCut((*_pred)[pn])) {
   174 	if ((*_pred)[pn] != INVALID && fa.minCut((*_pred)[pn])) {
   175 	  _pred->set(n, (*_pred)[pn]);
   175 	  (*_pred)[n] = (*_pred)[pn];
   176 	  _pred->set(pn, n);
   176 	  (*_pred)[pn] = n;
   177 	  _weight->set(n, (*_weight)[pn]);
   177 	  (*_weight)[n] = (*_weight)[pn];
   178 	  _weight->set(pn, fa.flowValue());	
   178 	  (*_weight)[pn] = fa.flowValue();
   179 	}
   179 	}
   180       }
   180       }
   181 
   181 
   182       _order->set(_root, 0);
   182       (*_order)[_root] = 0;
   183       int index = 1;
   183       int index = 1;
   184 
   184 
   185       for (NodeIt n(_graph); n != INVALID; ++n) {
   185       for (NodeIt n(_graph); n != INVALID; ++n) {
   186 	std::vector<Node> st;
   186 	std::vector<Node> st;
   187 	Node nn = n;
   187 	Node nn = n;
   188 	while ((*_order)[nn] == -1) {
   188 	while ((*_order)[nn] == -1) {
   189 	  st.push_back(nn);
   189 	  st.push_back(nn);
   190 	  nn = (*_pred)[nn];
   190 	  nn = (*_pred)[nn];
   191 	}
   191 	}
   192 	while (!st.empty()) {
   192 	while (!st.empty()) {
   193 	  _order->set(st.back(), index++);
   193 	  (*_order)[st.back()] = index++;
   194 	  st.pop_back();
   194 	  st.pop_back();
   195 	}
   195 	}
   196       }
   196       }
   197     }
   197     }
   198 
   198 
   307 	  sn = (*_pred)[sn];
   307 	  sn = (*_pred)[sn];
   308 	}
   308 	}
   309       }
   309       }
   310 
   310 
   311       typename Graph::template NodeMap<bool> reached(_graph, false);
   311       typename Graph::template NodeMap<bool> reached(_graph, false);
   312       reached.set(_root, true);
   312       reached[_root] = true;
   313       cutMap.set(_root, !s_root);
   313       cutMap.set(_root, !s_root);
   314       reached.set(rn, true);
   314       reached[rn] = true;
   315       cutMap.set(rn, s_root);
   315       cutMap.set(rn, s_root);
   316 
   316 
   317       std::vector<Node> st;
   317       std::vector<Node> st;
   318       for (NodeIt n(_graph); n != INVALID; ++n) {
   318       for (NodeIt n(_graph); n != INVALID; ++n) {
   319 	st.clear();
   319 	st.clear();