Exploit that the standard maps are reference maps (#190)
authorPeter Kovacs <kpeter@inf.elte.hu>
Tue, 14 Apr 2009 10:35:38 +0200
changeset 628aa1804409f29
parent 627 2313edd0db0b
child 629 7a28e215f715
Exploit that the standard maps are reference maps (#190)
lemon/circulation.h
lemon/core.h
lemon/elevator.h
lemon/gomory_hu.h
lemon/hao_orlin.h
lemon/max_matching.h
lemon/min_cost_arborescence.h
lemon/preflow.h
test/kruskal_test.cc
     1.1 --- a/lemon/circulation.h	Tue Apr 14 10:34:12 2009 +0200
     1.2 +++ b/lemon/circulation.h	Tue Apr 14 10:35:38 2009 +0200
     1.3 @@ -453,13 +453,13 @@
     1.4        createStructures();
     1.5  
     1.6        for(NodeIt n(_g);n!=INVALID;++n) {
     1.7 -        _excess->set(n, (*_delta)[n]);
     1.8 +        (*_excess)[n] = (*_delta)[n];
     1.9        }
    1.10  
    1.11        for (ArcIt e(_g);e!=INVALID;++e) {
    1.12          _flow->set(e, (*_lo)[e]);
    1.13 -        _excess->set(_g.target(e), (*_excess)[_g.target(e)] + (*_flow)[e]);
    1.14 -        _excess->set(_g.source(e), (*_excess)[_g.source(e)] - (*_flow)[e]);
    1.15 +        (*_excess)[_g.target(e)] += (*_flow)[e];
    1.16 +        (*_excess)[_g.source(e)] -= (*_flow)[e];
    1.17        }
    1.18  
    1.19        // global relabeling tested, but in general case it provides
    1.20 @@ -482,23 +482,23 @@
    1.21        createStructures();
    1.22  
    1.23        for(NodeIt n(_g);n!=INVALID;++n) {
    1.24 -        _excess->set(n, (*_delta)[n]);
    1.25 +        (*_excess)[n] = (*_delta)[n];
    1.26        }
    1.27  
    1.28        for (ArcIt e(_g);e!=INVALID;++e) {
    1.29          if (!_tol.positive((*_excess)[_g.target(e)] + (*_up)[e])) {
    1.30            _flow->set(e, (*_up)[e]);
    1.31 -          _excess->set(_g.target(e), (*_excess)[_g.target(e)] + (*_up)[e]);
    1.32 -          _excess->set(_g.source(e), (*_excess)[_g.source(e)] - (*_up)[e]);
    1.33 +          (*_excess)[_g.target(e)] += (*_up)[e];
    1.34 +          (*_excess)[_g.source(e)] -= (*_up)[e];
    1.35          } else if (_tol.positive((*_excess)[_g.target(e)] + (*_lo)[e])) {
    1.36            _flow->set(e, (*_lo)[e]);
    1.37 -          _excess->set(_g.target(e), (*_excess)[_g.target(e)] + (*_lo)[e]);
    1.38 -          _excess->set(_g.source(e), (*_excess)[_g.source(e)] - (*_lo)[e]);
    1.39 +          (*_excess)[_g.target(e)] += (*_lo)[e];
    1.40 +          (*_excess)[_g.source(e)] -= (*_lo)[e];
    1.41          } else {
    1.42            Value fc = -(*_excess)[_g.target(e)];
    1.43            _flow->set(e, fc);
    1.44 -          _excess->set(_g.target(e), 0);
    1.45 -          _excess->set(_g.source(e), (*_excess)[_g.source(e)] - fc);
    1.46 +          (*_excess)[_g.target(e)] = 0;
    1.47 +          (*_excess)[_g.source(e)] -= fc;
    1.48          }
    1.49        }
    1.50  
    1.51 @@ -537,16 +537,16 @@
    1.52            if((*_level)[v]<actlevel) {
    1.53              if(!_tol.less(fc, exc)) {
    1.54                _flow->set(e, (*_flow)[e] + exc);
    1.55 -              _excess->set(v, (*_excess)[v] + exc);
    1.56 +              (*_excess)[v] += exc;
    1.57                if(!_level->active(v) && _tol.positive((*_excess)[v]))
    1.58                  _level->activate(v);
    1.59 -              _excess->set(act,0);
    1.60 +              (*_excess)[act] = 0;
    1.61                _level->deactivate(act);
    1.62                goto next_l;
    1.63              }
    1.64              else {
    1.65                _flow->set(e, (*_up)[e]);
    1.66 -              _excess->set(v, (*_excess)[v] + fc);
    1.67 +              (*_excess)[v] += fc;
    1.68                if(!_level->active(v) && _tol.positive((*_excess)[v]))
    1.69                  _level->activate(v);
    1.70                exc-=fc;
    1.71 @@ -561,16 +561,16 @@
    1.72            if((*_level)[v]<actlevel) {
    1.73              if(!_tol.less(fc, exc)) {
    1.74                _flow->set(e, (*_flow)[e] - exc);
    1.75 -              _excess->set(v, (*_excess)[v] + exc);
    1.76 +              (*_excess)[v] += exc;
    1.77                if(!_level->active(v) && _tol.positive((*_excess)[v]))
    1.78                  _level->activate(v);
    1.79 -              _excess->set(act,0);
    1.80 +              (*_excess)[act] = 0;
    1.81                _level->deactivate(act);
    1.82                goto next_l;
    1.83              }
    1.84              else {
    1.85                _flow->set(e, (*_lo)[e]);
    1.86 -              _excess->set(v, (*_excess)[v] + fc);
    1.87 +              (*_excess)[v] += fc;
    1.88                if(!_level->active(v) && _tol.positive((*_excess)[v]))
    1.89                  _level->activate(v);
    1.90                exc-=fc;
    1.91 @@ -579,7 +579,7 @@
    1.92            else if((*_level)[v]<mlevel) mlevel=(*_level)[v];
    1.93          }
    1.94  
    1.95 -        _excess->set(act, exc);
    1.96 +        (*_excess)[act] = exc;
    1.97          if(!_tol.positive(exc)) _level->deactivate(act);
    1.98          else if(mlevel==_node_num) {
    1.99            _level->liftHighestActiveToTop();
     2.1 --- a/lemon/core.h	Tue Apr 14 10:34:12 2009 +0200
     2.2 +++ b/lemon/core.h	Tue Apr 14 10:35:38 2009 +0200
     2.3 @@ -1315,27 +1315,27 @@
     2.4  
     2.5      virtual void clear() {
     2.6        for(NodeIt n(_g);n!=INVALID;++n) {
     2.7 -        _head.set(n, INVALID);
     2.8 +        _head[n] = INVALID;
     2.9        }
    2.10      }
    2.11  
    2.12      void insert(Arc arc) {
    2.13        Node s = _g.source(arc);
    2.14        Node t = _g.target(arc);
    2.15 -      _left.set(arc, INVALID);
    2.16 -      _right.set(arc, INVALID);
    2.17 +      _left[arc] = INVALID;
    2.18 +      _right[arc] = INVALID;
    2.19  
    2.20        Arc e = _head[s];
    2.21        if (e == INVALID) {
    2.22 -        _head.set(s, arc);
    2.23 -        _parent.set(arc, INVALID);
    2.24 +        _head[s] = arc;
    2.25 +        _parent[arc] = INVALID;
    2.26          return;
    2.27        }
    2.28        while (true) {
    2.29          if (t < _g.target(e)) {
    2.30            if (_left[e] == INVALID) {
    2.31 -            _left.set(e, arc);
    2.32 -            _parent.set(arc, e);
    2.33 +            _left[e] = arc;
    2.34 +            _parent[arc] = e;
    2.35              splay(arc);
    2.36              return;
    2.37            } else {
    2.38 @@ -1343,8 +1343,8 @@
    2.39            }
    2.40          } else {
    2.41            if (_right[e] == INVALID) {
    2.42 -            _right.set(e, arc);
    2.43 -            _parent.set(arc, e);
    2.44 +            _right[e] = arc;
    2.45 +            _parent[arc] = e;
    2.46              splay(arc);
    2.47              return;
    2.48            } else {
    2.49 @@ -1357,27 +1357,27 @@
    2.50      void remove(Arc arc) {
    2.51        if (_left[arc] == INVALID) {
    2.52          if (_right[arc] != INVALID) {
    2.53 -          _parent.set(_right[arc], _parent[arc]);
    2.54 +          _parent[_right[arc]] = _parent[arc];
    2.55          }
    2.56          if (_parent[arc] != INVALID) {
    2.57            if (_left[_parent[arc]] == arc) {
    2.58 -            _left.set(_parent[arc], _right[arc]);
    2.59 +            _left[_parent[arc]] = _right[arc];
    2.60            } else {
    2.61 -            _right.set(_parent[arc], _right[arc]);
    2.62 +            _right[_parent[arc]] = _right[arc];
    2.63            }
    2.64          } else {
    2.65 -          _head.set(_g.source(arc), _right[arc]);
    2.66 +          _head[_g.source(arc)] = _right[arc];
    2.67          }
    2.68        } else if (_right[arc] == INVALID) {
    2.69 -        _parent.set(_left[arc], _parent[arc]);
    2.70 +        _parent[_left[arc]] = _parent[arc];
    2.71          if (_parent[arc] != INVALID) {
    2.72            if (_left[_parent[arc]] == arc) {
    2.73 -            _left.set(_parent[arc], _left[arc]);
    2.74 +            _left[_parent[arc]] = _left[arc];
    2.75            } else {
    2.76 -            _right.set(_parent[arc], _left[arc]);
    2.77 +            _right[_parent[arc]] = _left[arc];
    2.78            }
    2.79          } else {
    2.80 -          _head.set(_g.source(arc), _left[arc]);
    2.81 +          _head[_g.source(arc)] = _left[arc];
    2.82          }
    2.83        } else {
    2.84          Arc e = _left[arc];
    2.85 @@ -1387,38 +1387,38 @@
    2.86              e = _right[e];
    2.87            }
    2.88            Arc s = _parent[e];
    2.89 -          _right.set(_parent[e], _left[e]);
    2.90 +          _right[_parent[e]] = _left[e];
    2.91            if (_left[e] != INVALID) {
    2.92 -            _parent.set(_left[e], _parent[e]);
    2.93 +            _parent[_left[e]] = _parent[e];
    2.94            }
    2.95  
    2.96 -          _left.set(e, _left[arc]);
    2.97 -          _parent.set(_left[arc], e);
    2.98 -          _right.set(e, _right[arc]);
    2.99 -          _parent.set(_right[arc], e);
   2.100 +          _left[e] = _left[arc];
   2.101 +          _parent[_left[arc]] = e;
   2.102 +          _right[e] = _right[arc];
   2.103 +          _parent[_right[arc]] = e;
   2.104  
   2.105 -          _parent.set(e, _parent[arc]);
   2.106 +          _parent[e] = _parent[arc];
   2.107            if (_parent[arc] != INVALID) {
   2.108              if (_left[_parent[arc]] == arc) {
   2.109 -              _left.set(_parent[arc], e);
   2.110 +              _left[_parent[arc]] = e;
   2.111              } else {
   2.112 -              _right.set(_parent[arc], e);
   2.113 +              _right[_parent[arc]] = e;
   2.114              }
   2.115            }
   2.116            splay(s);
   2.117          } else {
   2.118 -          _right.set(e, _right[arc]);
   2.119 -          _parent.set(_right[arc], e);
   2.120 -          _parent.set(e, _parent[arc]);
   2.121 +          _right[e] = _right[arc];
   2.122 +          _parent[_right[arc]] = e;
   2.123 +          _parent[e] = _parent[arc];
   2.124  
   2.125            if (_parent[arc] != INVALID) {
   2.126              if (_left[_parent[arc]] == arc) {
   2.127 -              _left.set(_parent[arc], e);
   2.128 +              _left[_parent[arc]] = e;
   2.129              } else {
   2.130 -              _right.set(_parent[arc], e);
   2.131 +              _right[_parent[arc]] = e;
   2.132              }
   2.133            } else {
   2.134 -            _head.set(_g.source(arc), e);
   2.135 +            _head[_g.source(arc)] = e;
   2.136            }
   2.137          }
   2.138        }
   2.139 @@ -1430,17 +1430,17 @@
   2.140        Arc me=v[m];
   2.141        if (a < m) {
   2.142          Arc left = refreshRec(v,a,m-1);
   2.143 -        _left.set(me, left);
   2.144 -        _parent.set(left, me);
   2.145 +        _left[me] = left;
   2.146 +        _parent[left] = me;
   2.147        } else {
   2.148 -        _left.set(me, INVALID);
   2.149 +        _left[me] = INVALID;
   2.150        }
   2.151        if (m < b) {
   2.152          Arc right = refreshRec(v,m+1,b);
   2.153 -        _right.set(me, right);
   2.154 -        _parent.set(right, me);
   2.155 +        _right[me] = right;
   2.156 +        _parent[right] = me;
   2.157        } else {
   2.158 -        _right.set(me, INVALID);
   2.159 +        _right[me] = INVALID;
   2.160        }
   2.161        return me;
   2.162      }
   2.163 @@ -1452,46 +1452,46 @@
   2.164          if (!v.empty()) {
   2.165            std::sort(v.begin(),v.end(),ArcLess(_g));
   2.166            Arc head = refreshRec(v,0,v.size()-1);
   2.167 -          _head.set(n, head);
   2.168 -          _parent.set(head, INVALID);
   2.169 +          _head[n] = head;
   2.170 +          _parent[head] = INVALID;
   2.171          }
   2.172 -        else _head.set(n, INVALID);
   2.173 +        else _head[n] = INVALID;
   2.174        }
   2.175      }
   2.176  
   2.177      void zig(Arc v) {
   2.178        Arc w = _parent[v];
   2.179 -      _parent.set(v, _parent[w]);
   2.180 -      _parent.set(w, v);
   2.181 -      _left.set(w, _right[v]);
   2.182 -      _right.set(v, w);
   2.183 +      _parent[v] = _parent[w];
   2.184 +      _parent[w] = v;
   2.185 +      _left[w] = _right[v];
   2.186 +      _right[v] = w;
   2.187        if (_parent[v] != INVALID) {
   2.188          if (_right[_parent[v]] == w) {
   2.189 -          _right.set(_parent[v], v);
   2.190 +          _right[_parent[v]] = v;
   2.191          } else {
   2.192 -          _left.set(_parent[v], v);
   2.193 +          _left[_parent[v]] = v;
   2.194          }
   2.195        }
   2.196        if (_left[w] != INVALID){
   2.197 -        _parent.set(_left[w], w);
   2.198 +        _parent[_left[w]] = w;
   2.199        }
   2.200      }
   2.201  
   2.202      void zag(Arc v) {
   2.203        Arc w = _parent[v];
   2.204 -      _parent.set(v, _parent[w]);
   2.205 -      _parent.set(w, v);
   2.206 -      _right.set(w, _left[v]);
   2.207 -      _left.set(v, w);
   2.208 +      _parent[v] = _parent[w];
   2.209 +      _parent[w] = v;
   2.210 +      _right[w] = _left[v];
   2.211 +      _left[v] = w;
   2.212        if (_parent[v] != INVALID){
   2.213          if (_left[_parent[v]] == w) {
   2.214 -          _left.set(_parent[v], v);
   2.215 +          _left[_parent[v]] = v;
   2.216          } else {
   2.217 -          _right.set(_parent[v], v);
   2.218 +          _right[_parent[v]] = v;
   2.219          }
   2.220        }
   2.221        if (_right[w] != INVALID){
   2.222 -        _parent.set(_right[w], w);
   2.223 +        _parent[_right[w]] = w;
   2.224        }
   2.225      }
   2.226  
     3.1 --- a/lemon/elevator.h	Tue Apr 14 10:34:12 2009 +0200
     3.2 +++ b/lemon/elevator.h	Tue Apr 14 10:35:38 2009 +0200
     3.3 @@ -76,7 +76,7 @@
     3.4  
     3.5      void copy(Item i, Vit p)
     3.6      {
     3.7 -      _where.set(*p=i,p);
     3.8 +      _where[*p=i] = p;
     3.9      }
    3.10      void copy(Vit s, Vit p)
    3.11      {
    3.12 @@ -84,15 +84,15 @@
    3.13          {
    3.14            Item i=*s;
    3.15            *p=i;
    3.16 -          _where.set(i,p);
    3.17 +          _where[i] = p;
    3.18          }
    3.19      }
    3.20      void swap(Vit i, Vit j)
    3.21      {
    3.22        Item ti=*i;
    3.23        Vit ct = _where[ti];
    3.24 -      _where.set(ti,_where[*i=*j]);
    3.25 -      _where.set(*j,ct);
    3.26 +      _where[ti] = _where[*i=*j];
    3.27 +      _where[*j] = ct;
    3.28        *j=ti;
    3.29      }
    3.30  
    3.31 @@ -226,7 +226,7 @@
    3.32      void liftHighestActive()
    3.33      {
    3.34        Item it = *_last_active[_highest_active];
    3.35 -      _level.set(it,_level[it]+1);
    3.36 +      ++_level[it];
    3.37        swap(_last_active[_highest_active]--,_last_active[_highest_active+1]);
    3.38        --_first[++_highest_active];
    3.39      }
    3.40 @@ -249,7 +249,7 @@
    3.41            --_last_active[l];
    3.42          }
    3.43        copy(li,_first[new_level]);
    3.44 -      _level.set(li,new_level);
    3.45 +      _level[li] = new_level;
    3.46        _highest_active=new_level;
    3.47      }
    3.48  
    3.49 @@ -269,7 +269,7 @@
    3.50          }
    3.51        copy(li,_first[_max_level]);
    3.52        --_last_active[_max_level];
    3.53 -      _level.set(li,_max_level);
    3.54 +      _level[li] = _max_level;
    3.55  
    3.56        while(_highest_active>=0 &&
    3.57              _last_active[_highest_active]<_first[_highest_active])
    3.58 @@ -299,7 +299,7 @@
    3.59      Item liftActiveOn(int level)
    3.60      {
    3.61        Item it =*_last_active[level];
    3.62 -      _level.set(it,_level[it]+1);
    3.63 +      ++_level[it];
    3.64        swap(_last_active[level]--, --_first[level+1]);
    3.65        if (level+1>_highest_active) ++_highest_active;
    3.66      }
    3.67 @@ -319,7 +319,7 @@
    3.68            copy(--_first[l+1], _last_active[l]--);
    3.69          }
    3.70        copy(ai,_first[new_level]);
    3.71 -      _level.set(ai,new_level);
    3.72 +      _level[ai] = new_level;
    3.73        if (new_level>_highest_active) _highest_active=new_level;
    3.74      }
    3.75  
    3.76 @@ -339,7 +339,7 @@
    3.77          }
    3.78        copy(ai,_first[_max_level]);
    3.79        --_last_active[_max_level];
    3.80 -      _level.set(ai,_max_level);
    3.81 +      _level[ai] = _max_level;
    3.82  
    3.83        if (_highest_active==level) {
    3.84          while(_highest_active>=0 &&
    3.85 @@ -370,7 +370,7 @@
    3.86            copy(--_first[l+1],_last_active[l]--);
    3.87          }
    3.88        copy(i,_first[new_level]);
    3.89 -      _level.set(i,new_level);
    3.90 +      _level[i] = new_level;
    3.91        if(new_level>_highest_active) _highest_active=new_level;
    3.92      }
    3.93  
    3.94 @@ -382,7 +382,7 @@
    3.95      ///only if you really know what it is for.
    3.96      ///\pre The item is on the top level.
    3.97      void dirtyTopButOne(Item i) {
    3.98 -      _level.set(i,_max_level - 1);
    3.99 +      _level[i] = _max_level - 1;
   3.100      }
   3.101  
   3.102      ///Lift all items on and above the given level to the top level.
   3.103 @@ -394,7 +394,7 @@
   3.104        const Vit f=_first[l];
   3.105        const Vit tl=_first[_max_level];
   3.106        for(Vit i=f;i!=tl;++i)
   3.107 -        _level.set(*i,_max_level);
   3.108 +        _level[*i] = _max_level;
   3.109        for(int i=l;i<=_max_level;i++)
   3.110          {
   3.111            _first[i]=f;
   3.112 @@ -433,8 +433,8 @@
   3.113        for(typename ItemSetTraits<GR,Item>::ItemIt i(_g);i!=INVALID;++i)
   3.114          {
   3.115            *n=i;
   3.116 -          _where.set(i,n);
   3.117 -          _level.set(i,_max_level);
   3.118 +          _where[i] = n;
   3.119 +          _level[i] = _max_level;
   3.120            ++n;
   3.121          }
   3.122      }
   3.123 @@ -443,7 +443,7 @@
   3.124      void initAddItem(Item i)
   3.125      {
   3.126        swap(_where[i],_init_num);
   3.127 -      _level.set(i,_init_lev);
   3.128 +      _level[i] = _init_lev;
   3.129        ++_init_num;
   3.130      }
   3.131  
   3.132 @@ -551,7 +551,7 @@
   3.133      ///Activate item \c i.
   3.134      ///\pre Item \c i shouldn't be active before.
   3.135      void activate(Item i) {
   3.136 -      _active.set(i, true);
   3.137 +      _active[i] = true;
   3.138  
   3.139        int level = _level[i];
   3.140        if (level > _highest_active) {
   3.141 @@ -560,16 +560,16 @@
   3.142  
   3.143        if (_prev[i] == INVALID || _active[_prev[i]]) return;
   3.144        //unlace
   3.145 -      _next.set(_prev[i], _next[i]);
   3.146 +      _next[_prev[i]] = _next[i];
   3.147        if (_next[i] != INVALID) {
   3.148 -        _prev.set(_next[i], _prev[i]);
   3.149 +        _prev[_next[i]] = _prev[i];
   3.150        } else {
   3.151          _last[level] = _prev[i];
   3.152        }
   3.153        //lace
   3.154 -      _next.set(i, _first[level]);
   3.155 -      _prev.set(_first[level], i);
   3.156 -      _prev.set(i, INVALID);
   3.157 +      _next[i] = _first[level];
   3.158 +      _prev[_first[level]] = i;
   3.159 +      _prev[i] = INVALID;
   3.160        _first[level] = i;
   3.161  
   3.162      }
   3.163 @@ -579,23 +579,23 @@
   3.164      ///Deactivate item \c i.
   3.165      ///\pre Item \c i must be active before.
   3.166      void deactivate(Item i) {
   3.167 -      _active.set(i, false);
   3.168 +      _active[i] = false;
   3.169        int level = _level[i];
   3.170  
   3.171        if (_next[i] == INVALID || !_active[_next[i]])
   3.172          goto find_highest_level;
   3.173  
   3.174        //unlace
   3.175 -      _prev.set(_next[i], _prev[i]);
   3.176 +      _prev[_next[i]] = _prev[i];
   3.177        if (_prev[i] != INVALID) {
   3.178 -        _next.set(_prev[i], _next[i]);
   3.179 +        _next[_prev[i]] = _next[i];
   3.180        } else {
   3.181          _first[_level[i]] = _next[i];
   3.182        }
   3.183        //lace
   3.184 -      _prev.set(i, _last[level]);
   3.185 -      _next.set(_last[level], i);
   3.186 -      _next.set(i, INVALID);
   3.187 +      _prev[i] = _last[level];
   3.188 +      _next[_last[level]] = i;
   3.189 +      _next[i] = INVALID;
   3.190        _last[level] = i;
   3.191  
   3.192      find_highest_level:
   3.193 @@ -685,21 +685,21 @@
   3.194      void liftHighestActive() {
   3.195        Item i = _first[_highest_active];
   3.196        if (_next[i] != INVALID) {
   3.197 -        _prev.set(_next[i], INVALID);
   3.198 +        _prev[_next[i]] = INVALID;
   3.199          _first[_highest_active] = _next[i];
   3.200        } else {
   3.201          _first[_highest_active] = INVALID;
   3.202          _last[_highest_active] = INVALID;
   3.203        }
   3.204 -      _level.set(i, ++_highest_active);
   3.205 +      _level[i] = ++_highest_active;
   3.206        if (_first[_highest_active] == INVALID) {
   3.207          _first[_highest_active] = i;
   3.208          _last[_highest_active] = i;
   3.209 -        _prev.set(i, INVALID);
   3.210 -        _next.set(i, INVALID);
   3.211 +        _prev[i] = INVALID;
   3.212 +        _next[i] = INVALID;
   3.213        } else {
   3.214 -        _prev.set(_first[_highest_active], i);
   3.215 -        _next.set(i, _first[_highest_active]);
   3.216 +        _prev[_first[_highest_active]] = i;
   3.217 +        _next[i] = _first[_highest_active];
   3.218          _first[_highest_active] = i;
   3.219        }
   3.220      }
   3.221 @@ -714,20 +714,20 @@
   3.222      void liftHighestActive(int new_level) {
   3.223        Item i = _first[_highest_active];
   3.224        if (_next[i] != INVALID) {
   3.225 -        _prev.set(_next[i], INVALID);
   3.226 +        _prev[_next[i]] = INVALID;
   3.227          _first[_highest_active] = _next[i];
   3.228        } else {
   3.229          _first[_highest_active] = INVALID;
   3.230          _last[_highest_active] = INVALID;
   3.231        }
   3.232 -      _level.set(i, _highest_active = new_level);
   3.233 +      _level[i] = _highest_active = new_level;
   3.234        if (_first[_highest_active] == INVALID) {
   3.235          _first[_highest_active] = _last[_highest_active] = i;
   3.236 -        _prev.set(i, INVALID);
   3.237 -        _next.set(i, INVALID);
   3.238 +        _prev[i] = INVALID;
   3.239 +        _next[i] = INVALID;
   3.240        } else {
   3.241 -        _prev.set(_first[_highest_active], i);
   3.242 -        _next.set(i, _first[_highest_active]);
   3.243 +        _prev[_first[_highest_active]] = i;
   3.244 +        _next[i] = _first[_highest_active];
   3.245          _first[_highest_active] = i;
   3.246        }
   3.247      }
   3.248 @@ -738,9 +738,9 @@
   3.249      ///deactivate it.
   3.250      void liftHighestActiveToTop() {
   3.251        Item i = _first[_highest_active];
   3.252 -      _level.set(i, _max_level);
   3.253 +      _level[i] = _max_level;
   3.254        if (_next[i] != INVALID) {
   3.255 -        _prev.set(_next[i], INVALID);
   3.256 +        _prev[_next[i]] = INVALID;
   3.257          _first[_highest_active] = _next[i];
   3.258        } else {
   3.259          _first[_highest_active] = INVALID;
   3.260 @@ -774,20 +774,20 @@
   3.261      {
   3.262        Item i = _first[l];
   3.263        if (_next[i] != INVALID) {
   3.264 -        _prev.set(_next[i], INVALID);
   3.265 +        _prev[_next[i]] = INVALID;
   3.266          _first[l] = _next[i];
   3.267        } else {
   3.268          _first[l] = INVALID;
   3.269          _last[l] = INVALID;
   3.270        }
   3.271 -      _level.set(i, ++l);
   3.272 +      _level[i] = ++l;
   3.273        if (_first[l] == INVALID) {
   3.274          _first[l] = _last[l] = i;
   3.275 -        _prev.set(i, INVALID);
   3.276 -        _next.set(i, INVALID);
   3.277 +        _prev[i] = INVALID;
   3.278 +        _next[i] = INVALID;
   3.279        } else {
   3.280 -        _prev.set(_first[l], i);
   3.281 -        _next.set(i, _first[l]);
   3.282 +        _prev[_first[l]] = i;
   3.283 +        _next[i] = _first[l];
   3.284          _first[l] = i;
   3.285        }
   3.286        if (_highest_active < l) {
   3.287 @@ -803,20 +803,20 @@
   3.288      {
   3.289        Item i = _first[l];
   3.290        if (_next[i] != INVALID) {
   3.291 -        _prev.set(_next[i], INVALID);
   3.292 +        _prev[_next[i]] = INVALID;
   3.293          _first[l] = _next[i];
   3.294        } else {
   3.295          _first[l] = INVALID;
   3.296          _last[l] = INVALID;
   3.297        }
   3.298 -      _level.set(i, l = new_level);
   3.299 +      _level[i] = l = new_level;
   3.300        if (_first[l] == INVALID) {
   3.301          _first[l] = _last[l] = i;
   3.302 -        _prev.set(i, INVALID);
   3.303 -        _next.set(i, INVALID);
   3.304 +        _prev[i] = INVALID;
   3.305 +        _next[i] = INVALID;
   3.306        } else {
   3.307 -        _prev.set(_first[l], i);
   3.308 -        _next.set(i, _first[l]);
   3.309 +        _prev[_first[l]] = i;
   3.310 +        _next[i] = _first[l];
   3.311          _first[l] = i;
   3.312        }
   3.313        if (_highest_active < l) {
   3.314 @@ -832,13 +832,13 @@
   3.315      {
   3.316        Item i = _first[l];
   3.317        if (_next[i] != INVALID) {
   3.318 -        _prev.set(_next[i], INVALID);
   3.319 +        _prev[_next[i]] = INVALID;
   3.320          _first[l] = _next[i];
   3.321        } else {
   3.322          _first[l] = INVALID;
   3.323          _last[l] = INVALID;
   3.324        }
   3.325 -      _level.set(i, _max_level);
   3.326 +      _level[i] = _max_level;
   3.327        if (l == _highest_active) {
   3.328          while (_highest_active >= 0 && activeFree(_highest_active))
   3.329            --_highest_active;
   3.330 @@ -856,23 +856,23 @@
   3.331      ///
   3.332      void lift(Item i, int new_level) {
   3.333        if (_next[i] != INVALID) {
   3.334 -        _prev.set(_next[i], _prev[i]);
   3.335 +        _prev[_next[i]] = _prev[i];
   3.336        } else {
   3.337          _last[new_level] = _prev[i];
   3.338        }
   3.339        if (_prev[i] != INVALID) {
   3.340 -        _next.set(_prev[i], _next[i]);
   3.341 +        _next[_prev[i]] = _next[i];
   3.342        } else {
   3.343          _first[new_level] = _next[i];
   3.344        }
   3.345 -      _level.set(i, new_level);
   3.346 +      _level[i] = new_level;
   3.347        if (_first[new_level] == INVALID) {
   3.348          _first[new_level] = _last[new_level] = i;
   3.349 -        _prev.set(i, INVALID);
   3.350 -        _next.set(i, INVALID);
   3.351 +        _prev[i] = INVALID;
   3.352 +        _next[i] = INVALID;
   3.353        } else {
   3.354 -        _prev.set(_first[new_level], i);
   3.355 -        _next.set(i, _first[new_level]);
   3.356 +        _prev[_first[new_level]] = i;
   3.357 +        _next[i] = _first[new_level];
   3.358          _first[new_level] = i;
   3.359        }
   3.360        if (_highest_active < new_level) {
   3.361 @@ -888,7 +888,7 @@
   3.362      ///only if you really know what it is for.
   3.363      ///\pre The item is on the top level.
   3.364      void dirtyTopButOne(Item i) {
   3.365 -      _level.set(i, _max_level - 1);
   3.366 +      _level[i] = _max_level - 1;
   3.367      }
   3.368  
   3.369      ///Lift all items on and above the given level to the top level.
   3.370 @@ -899,7 +899,7 @@
   3.371        for (int i = l + 1; _first[i] != INVALID; ++i) {
   3.372          Item n = _first[i];
   3.373          while (n != INVALID) {
   3.374 -          _level.set(n, _max_level);
   3.375 +          _level[n] = _max_level;
   3.376            n = _next[n];
   3.377          }
   3.378          _first[i] = INVALID;
   3.379 @@ -937,23 +937,23 @@
   3.380        _init_level = 0;
   3.381        for(typename ItemSetTraits<GR,Item>::ItemIt i(_graph);
   3.382            i != INVALID; ++i) {
   3.383 -        _level.set(i, _max_level);
   3.384 -        _active.set(i, false);
   3.385 +        _level[i] = _max_level;
   3.386 +        _active[i] = false;
   3.387        }
   3.388      }
   3.389  
   3.390      ///Add an item to the current level.
   3.391      void initAddItem(Item i) {
   3.392 -      _level.set(i, _init_level);
   3.393 +      _level[i] = _init_level;
   3.394        if (_last[_init_level] == INVALID) {
   3.395          _first[_init_level] = i;
   3.396          _last[_init_level] = i;
   3.397 -        _prev.set(i, INVALID);
   3.398 -        _next.set(i, INVALID);
   3.399 +        _prev[i] = INVALID;
   3.400 +        _next[i] = INVALID;
   3.401        } else {
   3.402 -        _prev.set(i, _last[_init_level]);
   3.403 -        _next.set(i, INVALID);
   3.404 -        _next.set(_last[_init_level], i);
   3.405 +        _prev[i] = _last[_init_level];
   3.406 +        _next[i] = INVALID;
   3.407 +        _next[_last[_init_level]] = i;
   3.408          _last[_init_level] = i;
   3.409        }
   3.410      }
     4.1 --- a/lemon/gomory_hu.h	Tue Apr 14 10:34:12 2009 +0200
     4.2 +++ b/lemon/gomory_hu.h	Tue Apr 14 10:35:38 2009 +0200
     4.3 @@ -143,11 +143,11 @@
     4.4  
     4.5        _root = NodeIt(_graph);
     4.6        for (NodeIt n(_graph); n != INVALID; ++n) {
     4.7 -	_pred->set(n, _root);
     4.8 -	_order->set(n, -1);
     4.9 +        (*_pred)[n] = _root;
    4.10 +        (*_order)[n] = -1;
    4.11        }
    4.12 -      _pred->set(_root, INVALID);
    4.13 -      _weight->set(_root, std::numeric_limits<Value>::max()); 
    4.14 +      (*_pred)[_root] = INVALID;
    4.15 +      (*_weight)[_root] = std::numeric_limits<Value>::max(); 
    4.16      }
    4.17  
    4.18  
    4.19 @@ -164,22 +164,22 @@
    4.20  
    4.21  	fa.runMinCut();
    4.22  
    4.23 -	_weight->set(n, fa.flowValue());
    4.24 +	(*_weight)[n] = fa.flowValue();
    4.25  
    4.26  	for (NodeIt nn(_graph); nn != INVALID; ++nn) {
    4.27  	  if (nn != n && fa.minCut(nn) && (*_pred)[nn] == pn) {
    4.28 -	    _pred->set(nn, n);
    4.29 +	    (*_pred)[nn] = n;
    4.30  	  }
    4.31  	}
    4.32  	if ((*_pred)[pn] != INVALID && fa.minCut((*_pred)[pn])) {
    4.33 -	  _pred->set(n, (*_pred)[pn]);
    4.34 -	  _pred->set(pn, n);
    4.35 -	  _weight->set(n, (*_weight)[pn]);
    4.36 -	  _weight->set(pn, fa.flowValue());	
    4.37 +	  (*_pred)[n] = (*_pred)[pn];
    4.38 +	  (*_pred)[pn] = n;
    4.39 +	  (*_weight)[n] = (*_weight)[pn];
    4.40 +	  (*_weight)[pn] = fa.flowValue();
    4.41  	}
    4.42        }
    4.43  
    4.44 -      _order->set(_root, 0);
    4.45 +      (*_order)[_root] = 0;
    4.46        int index = 1;
    4.47  
    4.48        for (NodeIt n(_graph); n != INVALID; ++n) {
    4.49 @@ -190,7 +190,7 @@
    4.50  	  nn = (*_pred)[nn];
    4.51  	}
    4.52  	while (!st.empty()) {
    4.53 -	  _order->set(st.back(), index++);
    4.54 +	  (*_order)[st.back()] = index++;
    4.55  	  st.pop_back();
    4.56  	}
    4.57        }
    4.58 @@ -309,9 +309,9 @@
    4.59        }
    4.60  
    4.61        typename Graph::template NodeMap<bool> reached(_graph, false);
    4.62 -      reached.set(_root, true);
    4.63 +      reached[_root] = true;
    4.64        cutMap.set(_root, !s_root);
    4.65 -      reached.set(rn, true);
    4.66 +      reached[rn] = true;
    4.67        cutMap.set(rn, s_root);
    4.68  
    4.69        std::vector<Node> st;
     5.1 --- a/lemon/hao_orlin.h	Tue Apr 14 10:34:12 2009 +0200
     5.2 +++ b/lemon/hao_orlin.h	Tue Apr 14 10:35:38 2009 +0200
     5.3 @@ -161,56 +161,56 @@
     5.4    private:
     5.5  
     5.6      void activate(const Node& i) {
     5.7 -      _active->set(i, true);
     5.8 +      (*_active)[i] = true;
     5.9  
    5.10        int bucket = (*_bucket)[i];
    5.11  
    5.12        if ((*_prev)[i] == INVALID || (*_active)[(*_prev)[i]]) return;
    5.13        //unlace
    5.14 -      _next->set((*_prev)[i], (*_next)[i]);
    5.15 +      (*_next)[(*_prev)[i]] = (*_next)[i];
    5.16        if ((*_next)[i] != INVALID) {
    5.17 -        _prev->set((*_next)[i], (*_prev)[i]);
    5.18 +        (*_prev)[(*_next)[i]] = (*_prev)[i];
    5.19        } else {
    5.20          _last[bucket] = (*_prev)[i];
    5.21        }
    5.22        //lace
    5.23 -      _next->set(i, _first[bucket]);
    5.24 -      _prev->set(_first[bucket], i);
    5.25 -      _prev->set(i, INVALID);
    5.26 +      (*_next)[i] = _first[bucket];
    5.27 +      (*_prev)[_first[bucket]] = i;
    5.28 +      (*_prev)[i] = INVALID;
    5.29        _first[bucket] = i;
    5.30      }
    5.31  
    5.32      void deactivate(const Node& i) {
    5.33 -      _active->set(i, false);
    5.34 +      (*_active)[i] = false;
    5.35        int bucket = (*_bucket)[i];
    5.36  
    5.37        if ((*_next)[i] == INVALID || !(*_active)[(*_next)[i]]) return;
    5.38  
    5.39        //unlace
    5.40 -      _prev->set((*_next)[i], (*_prev)[i]);
    5.41 +      (*_prev)[(*_next)[i]] = (*_prev)[i];
    5.42        if ((*_prev)[i] != INVALID) {
    5.43 -        _next->set((*_prev)[i], (*_next)[i]);
    5.44 +        (*_next)[(*_prev)[i]] = (*_next)[i];
    5.45        } else {
    5.46          _first[bucket] = (*_next)[i];
    5.47        }
    5.48        //lace
    5.49 -      _prev->set(i, _last[bucket]);
    5.50 -      _next->set(_last[bucket], i);
    5.51 -      _next->set(i, INVALID);
    5.52 +      (*_prev)[i] = _last[bucket];
    5.53 +      (*_next)[_last[bucket]] = i;
    5.54 +      (*_next)[i] = INVALID;
    5.55        _last[bucket] = i;
    5.56      }
    5.57  
    5.58      void addItem(const Node& i, int bucket) {
    5.59        (*_bucket)[i] = bucket;
    5.60        if (_last[bucket] != INVALID) {
    5.61 -        _prev->set(i, _last[bucket]);
    5.62 -        _next->set(_last[bucket], i);
    5.63 -        _next->set(i, INVALID);
    5.64 +        (*_prev)[i] = _last[bucket];
    5.65 +        (*_next)[_last[bucket]] = i;
    5.66 +        (*_next)[i] = INVALID;
    5.67          _last[bucket] = i;
    5.68        } else {
    5.69 -        _prev->set(i, INVALID);
    5.70 +        (*_prev)[i] = INVALID;
    5.71          _first[bucket] = i;
    5.72 -        _next->set(i, INVALID);
    5.73 +        (*_next)[i] = INVALID;
    5.74          _last[bucket] = i;
    5.75        }
    5.76      }
    5.77 @@ -218,11 +218,11 @@
    5.78      void findMinCutOut() {
    5.79  
    5.80        for (NodeIt n(_graph); n != INVALID; ++n) {
    5.81 -        _excess->set(n, 0);
    5.82 +        (*_excess)[n] = 0;
    5.83        }
    5.84  
    5.85        for (ArcIt a(_graph); a != INVALID; ++a) {
    5.86 -        _flow->set(a, 0);
    5.87 +        (*_flow)[a] = 0;
    5.88        }
    5.89  
    5.90        int bucket_num = 0;
    5.91 @@ -232,7 +232,7 @@
    5.92        {
    5.93          typename Digraph::template NodeMap<bool> reached(_graph, false);
    5.94  
    5.95 -        reached.set(_source, true);
    5.96 +        reached[_source] = true;
    5.97          bool first_set = true;
    5.98  
    5.99          for (NodeIt t(_graph); t != INVALID; ++t) {
   5.100 @@ -240,7 +240,7 @@
   5.101            _sets.push_front(std::list<int>());
   5.102  
   5.103            queue[qlast++] = t;
   5.104 -          reached.set(t, true);
   5.105 +          reached[t] = true;
   5.106  
   5.107            while (qfirst != qlast) {
   5.108              if (qsep == qfirst) {
   5.109 @@ -257,7 +257,7 @@
   5.110              for (InArcIt a(_graph, n); a != INVALID; ++a) {
   5.111                Node u = _graph.source(a);
   5.112                if (!reached[u] && _tolerance.positive((*_capacity)[a])) {
   5.113 -                reached.set(u, true);
   5.114 +                reached[u] = true;
   5.115                  queue[qlast++] = u;
   5.116                }
   5.117              }
   5.118 @@ -266,18 +266,18 @@
   5.119          }
   5.120  
   5.121          ++bucket_num;
   5.122 -        _bucket->set(_source, 0);
   5.123 +        (*_bucket)[_source] = 0;
   5.124          _dormant[0] = true;
   5.125        }
   5.126 -      _source_set->set(_source, true);
   5.127 +      (*_source_set)[_source] = true;
   5.128  
   5.129        Node target = _last[_sets.back().back()];
   5.130        {
   5.131          for (OutArcIt a(_graph, _source); a != INVALID; ++a) {
   5.132            if (_tolerance.positive((*_capacity)[a])) {
   5.133              Node u = _graph.target(a);
   5.134 -            _flow->set(a, (*_capacity)[a]);
   5.135 -            _excess->set(u, (*_excess)[u] + (*_capacity)[a]);
   5.136 +            (*_flow)[a] = (*_capacity)[a];
   5.137 +            (*_excess)[u] += (*_capacity)[a];
   5.138              if (!(*_active)[u] && u != _source) {
   5.139                activate(u);
   5.140              }
   5.141 @@ -318,14 +318,14 @@
   5.142                  activate(v);
   5.143                }
   5.144                if (!_tolerance.less(rem, excess)) {
   5.145 -                _flow->set(a, (*_flow)[a] + excess);
   5.146 -                _excess->set(v, (*_excess)[v] + excess);
   5.147 +                (*_flow)[a] += excess;
   5.148 +                (*_excess)[v] += excess;
   5.149                  excess = 0;
   5.150                  goto no_more_push;
   5.151                } else {
   5.152                  excess -= rem;
   5.153 -                _excess->set(v, (*_excess)[v] + rem);
   5.154 -                _flow->set(a, (*_capacity)[a]);
   5.155 +                (*_excess)[v] += rem;
   5.156 +                (*_flow)[a] = (*_capacity)[a];
   5.157                }
   5.158              } else if (next_bucket > (*_bucket)[v]) {
   5.159                next_bucket = (*_bucket)[v];
   5.160 @@ -342,14 +342,14 @@
   5.161                  activate(v);
   5.162                }
   5.163                if (!_tolerance.less(rem, excess)) {
   5.164 -                _flow->set(a, (*_flow)[a] - excess);
   5.165 -                _excess->set(v, (*_excess)[v] + excess);
   5.166 +                (*_flow)[a] -= excess;
   5.167 +                (*_excess)[v] += excess;
   5.168                  excess = 0;
   5.169                  goto no_more_push;
   5.170                } else {
   5.171                  excess -= rem;
   5.172 -                _excess->set(v, (*_excess)[v] + rem);
   5.173 -                _flow->set(a, 0);
   5.174 +                (*_excess)[v] += rem;
   5.175 +                (*_flow)[a] = 0;
   5.176                }
   5.177              } else if (next_bucket > (*_bucket)[v]) {
   5.178                next_bucket = (*_bucket)[v];
   5.179 @@ -358,7 +358,7 @@
   5.180  
   5.181          no_more_push:
   5.182  
   5.183 -          _excess->set(n, excess);
   5.184 +          (*_excess)[n] = excess;
   5.185  
   5.186            if (excess != 0) {
   5.187              if ((*_next)[n] == INVALID) {
   5.188 @@ -376,16 +376,16 @@
   5.189                }
   5.190              } else if (next_bucket == _node_num) {
   5.191                _first[(*_bucket)[n]] = (*_next)[n];
   5.192 -              _prev->set((*_next)[n], INVALID);
   5.193 +              (*_prev)[(*_next)[n]] = INVALID;
   5.194  
   5.195                std::list<std::list<int> >::iterator new_set =
   5.196                  _sets.insert(--_sets.end(), std::list<int>());
   5.197  
   5.198                new_set->push_front(bucket_num);
   5.199 -              _bucket->set(n, bucket_num);
   5.200 +              (*_bucket)[n] = bucket_num;
   5.201                _first[bucket_num] = _last[bucket_num] = n;
   5.202 -              _next->set(n, INVALID);
   5.203 -              _prev->set(n, INVALID);
   5.204 +              (*_next)[n] = INVALID;
   5.205 +              (*_prev)[n] = INVALID;
   5.206                _dormant[bucket_num] = true;
   5.207                ++bucket_num;
   5.208  
   5.209 @@ -395,7 +395,7 @@
   5.210                }
   5.211              } else {
   5.212                _first[*_highest] = (*_next)[n];
   5.213 -              _prev->set((*_next)[n], INVALID);
   5.214 +              (*_prev)[(*_next)[n]] = INVALID;
   5.215  
   5.216                while (next_bucket != *_highest) {
   5.217                  --_highest;
   5.218 @@ -409,10 +409,10 @@
   5.219                }
   5.220                --_highest;
   5.221  
   5.222 -              _bucket->set(n, *_highest);
   5.223 -              _next->set(n, _first[*_highest]);
   5.224 +              (*_bucket)[n] = *_highest;
   5.225 +              (*_next)[n] = _first[*_highest];
   5.226                if (_first[*_highest] != INVALID) {
   5.227 -                _prev->set(_first[*_highest], n);
   5.228 +                (*_prev)[_first[*_highest]] = n;
   5.229                } else {
   5.230                  _last[*_highest] = n;
   5.231                }
   5.232 @@ -434,13 +434,13 @@
   5.233          if ((*_excess)[target] < _min_cut) {
   5.234            _min_cut = (*_excess)[target];
   5.235            for (NodeIt i(_graph); i != INVALID; ++i) {
   5.236 -            _min_cut_map->set(i, true);
   5.237 +            (*_min_cut_map)[i] = true;
   5.238            }
   5.239            for (std::list<int>::iterator it = _sets.back().begin();
   5.240                 it != _sets.back().end(); ++it) {
   5.241              Node n = _first[*it];
   5.242              while (n != INVALID) {
   5.243 -              _min_cut_map->set(n, false);
   5.244 +              (*_min_cut_map)[n] = false;
   5.245                n = (*_next)[n];
   5.246              }
   5.247            }
   5.248 @@ -453,13 +453,13 @@
   5.249                _last[(*_bucket)[target]] = (*_prev)[target];
   5.250                new_target = (*_prev)[target];
   5.251              } else {
   5.252 -              _prev->set((*_next)[target], (*_prev)[target]);
   5.253 +              (*_prev)[(*_next)[target]] = (*_prev)[target];
   5.254                new_target = (*_next)[target];
   5.255              }
   5.256              if ((*_prev)[target] == INVALID) {
   5.257                _first[(*_bucket)[target]] = (*_next)[target];
   5.258              } else {
   5.259 -              _next->set((*_prev)[target], (*_next)[target]);
   5.260 +              (*_next)[(*_prev)[target]] = (*_next)[target];
   5.261              }
   5.262            } else {
   5.263              _sets.back().pop_back();
   5.264 @@ -475,9 +475,9 @@
   5.265              new_target = _last[_sets.back().back()];
   5.266            }
   5.267  
   5.268 -          _bucket->set(target, 0);
   5.269 +          (*_bucket)[target] = 0;
   5.270  
   5.271 -          _source_set->set(target, true);
   5.272 +          (*_source_set)[target] = true;
   5.273            for (OutArcIt a(_graph, target); a != INVALID; ++a) {
   5.274              Value rem = (*_capacity)[a] - (*_flow)[a];
   5.275              if (!_tolerance.positive(rem)) continue;
   5.276 @@ -485,8 +485,8 @@
   5.277              if (!(*_active)[v] && !(*_source_set)[v]) {
   5.278                activate(v);
   5.279              }
   5.280 -            _excess->set(v, (*_excess)[v] + rem);
   5.281 -            _flow->set(a, (*_capacity)[a]);
   5.282 +            (*_excess)[v] += rem;
   5.283 +            (*_flow)[a] = (*_capacity)[a];
   5.284            }
   5.285  
   5.286            for (InArcIt a(_graph, target); a != INVALID; ++a) {
   5.287 @@ -496,8 +496,8 @@
   5.288              if (!(*_active)[v] && !(*_source_set)[v]) {
   5.289                activate(v);
   5.290              }
   5.291 -            _excess->set(v, (*_excess)[v] + rem);
   5.292 -            _flow->set(a, 0);
   5.293 +            (*_excess)[v] += rem;
   5.294 +            (*_flow)[a] = 0;
   5.295            }
   5.296  
   5.297            target = new_target;
   5.298 @@ -517,11 +517,11 @@
   5.299      void findMinCutIn() {
   5.300  
   5.301        for (NodeIt n(_graph); n != INVALID; ++n) {
   5.302 -        _excess->set(n, 0);
   5.303 +        (*_excess)[n] = 0;
   5.304        }
   5.305  
   5.306        for (ArcIt a(_graph); a != INVALID; ++a) {
   5.307 -        _flow->set(a, 0);
   5.308 +        (*_flow)[a] = 0;
   5.309        }
   5.310  
   5.311        int bucket_num = 0;
   5.312 @@ -531,7 +531,7 @@
   5.313        {
   5.314          typename Digraph::template NodeMap<bool> reached(_graph, false);
   5.315  
   5.316 -        reached.set(_source, true);
   5.317 +        reached[_source] = true;
   5.318  
   5.319          bool first_set = true;
   5.320  
   5.321 @@ -540,7 +540,7 @@
   5.322            _sets.push_front(std::list<int>());
   5.323  
   5.324            queue[qlast++] = t;
   5.325 -          reached.set(t, true);
   5.326 +          reached[t] = true;
   5.327  
   5.328            while (qfirst != qlast) {
   5.329              if (qsep == qfirst) {
   5.330 @@ -557,7 +557,7 @@
   5.331              for (OutArcIt a(_graph, n); a != INVALID; ++a) {
   5.332                Node u = _graph.target(a);
   5.333                if (!reached[u] && _tolerance.positive((*_capacity)[a])) {
   5.334 -                reached.set(u, true);
   5.335 +                reached[u] = true;
   5.336                  queue[qlast++] = u;
   5.337                }
   5.338              }
   5.339 @@ -566,18 +566,18 @@
   5.340          }
   5.341  
   5.342          ++bucket_num;
   5.343 -        _bucket->set(_source, 0);
   5.344 +        (*_bucket)[_source] = 0;
   5.345          _dormant[0] = true;
   5.346        }
   5.347 -      _source_set->set(_source, true);
   5.348 +      (*_source_set)[_source] = true;
   5.349  
   5.350        Node target = _last[_sets.back().back()];
   5.351        {
   5.352          for (InArcIt a(_graph, _source); a != INVALID; ++a) {
   5.353            if (_tolerance.positive((*_capacity)[a])) {
   5.354              Node u = _graph.source(a);
   5.355 -            _flow->set(a, (*_capacity)[a]);
   5.356 -            _excess->set(u, (*_excess)[u] + (*_capacity)[a]);
   5.357 +            (*_flow)[a] = (*_capacity)[a];
   5.358 +            (*_excess)[u] += (*_capacity)[a];
   5.359              if (!(*_active)[u] && u != _source) {
   5.360                activate(u);
   5.361              }
   5.362 @@ -618,14 +618,14 @@
   5.363                  activate(v);
   5.364                }
   5.365                if (!_tolerance.less(rem, excess)) {
   5.366 -                _flow->set(a, (*_flow)[a] + excess);
   5.367 -                _excess->set(v, (*_excess)[v] + excess);
   5.368 +                (*_flow)[a] += excess;
   5.369 +                (*_excess)[v] += excess;
   5.370                  excess = 0;
   5.371                  goto no_more_push;
   5.372                } else {
   5.373                  excess -= rem;
   5.374 -                _excess->set(v, (*_excess)[v] + rem);
   5.375 -                _flow->set(a, (*_capacity)[a]);
   5.376 +                (*_excess)[v] += rem;
   5.377 +                (*_flow)[a] = (*_capacity)[a];
   5.378                }
   5.379              } else if (next_bucket > (*_bucket)[v]) {
   5.380                next_bucket = (*_bucket)[v];
   5.381 @@ -642,14 +642,14 @@
   5.382                  activate(v);
   5.383                }
   5.384                if (!_tolerance.less(rem, excess)) {
   5.385 -                _flow->set(a, (*_flow)[a] - excess);
   5.386 -                _excess->set(v, (*_excess)[v] + excess);
   5.387 +                (*_flow)[a] -= excess;
   5.388 +                (*_excess)[v] += excess;
   5.389                  excess = 0;
   5.390                  goto no_more_push;
   5.391                } else {
   5.392                  excess -= rem;
   5.393 -                _excess->set(v, (*_excess)[v] + rem);
   5.394 -                _flow->set(a, 0);
   5.395 +                (*_excess)[v] += rem;
   5.396 +                (*_flow)[a] = 0;
   5.397                }
   5.398              } else if (next_bucket > (*_bucket)[v]) {
   5.399                next_bucket = (*_bucket)[v];
   5.400 @@ -658,7 +658,7 @@
   5.401  
   5.402          no_more_push:
   5.403  
   5.404 -          _excess->set(n, excess);
   5.405 +          (*_excess)[n] = excess;
   5.406  
   5.407            if (excess != 0) {
   5.408              if ((*_next)[n] == INVALID) {
   5.409 @@ -676,16 +676,16 @@
   5.410                }
   5.411              } else if (next_bucket == _node_num) {
   5.412                _first[(*_bucket)[n]] = (*_next)[n];
   5.413 -              _prev->set((*_next)[n], INVALID);
   5.414 +              (*_prev)[(*_next)[n]] = INVALID;
   5.415  
   5.416                std::list<std::list<int> >::iterator new_set =
   5.417                  _sets.insert(--_sets.end(), std::list<int>());
   5.418  
   5.419                new_set->push_front(bucket_num);
   5.420 -              _bucket->set(n, bucket_num);
   5.421 +              (*_bucket)[n] = bucket_num;
   5.422                _first[bucket_num] = _last[bucket_num] = n;
   5.423 -              _next->set(n, INVALID);
   5.424 -              _prev->set(n, INVALID);
   5.425 +              (*_next)[n] = INVALID;
   5.426 +              (*_prev)[n] = INVALID;
   5.427                _dormant[bucket_num] = true;
   5.428                ++bucket_num;
   5.429  
   5.430 @@ -695,7 +695,7 @@
   5.431                }
   5.432              } else {
   5.433                _first[*_highest] = (*_next)[n];
   5.434 -              _prev->set((*_next)[n], INVALID);
   5.435 +              (*_prev)[(*_next)[n]] = INVALID;
   5.436  
   5.437                while (next_bucket != *_highest) {
   5.438                  --_highest;
   5.439 @@ -708,10 +708,10 @@
   5.440                }
   5.441                --_highest;
   5.442  
   5.443 -              _bucket->set(n, *_highest);
   5.444 -              _next->set(n, _first[*_highest]);
   5.445 +              (*_bucket)[n] = *_highest;
   5.446 +              (*_next)[n] = _first[*_highest];
   5.447                if (_first[*_highest] != INVALID) {
   5.448 -                _prev->set(_first[*_highest], n);
   5.449 +                (*_prev)[_first[*_highest]] = n;
   5.450                } else {
   5.451                  _last[*_highest] = n;
   5.452                }
   5.453 @@ -733,13 +733,13 @@
   5.454          if ((*_excess)[target] < _min_cut) {
   5.455            _min_cut = (*_excess)[target];
   5.456            for (NodeIt i(_graph); i != INVALID; ++i) {
   5.457 -            _min_cut_map->set(i, false);
   5.458 +            (*_min_cut_map)[i] = false;
   5.459            }
   5.460            for (std::list<int>::iterator it = _sets.back().begin();
   5.461                 it != _sets.back().end(); ++it) {
   5.462              Node n = _first[*it];
   5.463              while (n != INVALID) {
   5.464 -              _min_cut_map->set(n, true);
   5.465 +              (*_min_cut_map)[n] = true;
   5.466                n = (*_next)[n];
   5.467              }
   5.468            }
   5.469 @@ -752,13 +752,13 @@
   5.470                _last[(*_bucket)[target]] = (*_prev)[target];
   5.471                new_target = (*_prev)[target];
   5.472              } else {
   5.473 -              _prev->set((*_next)[target], (*_prev)[target]);
   5.474 +              (*_prev)[(*_next)[target]] = (*_prev)[target];
   5.475                new_target = (*_next)[target];
   5.476              }
   5.477              if ((*_prev)[target] == INVALID) {
   5.478                _first[(*_bucket)[target]] = (*_next)[target];
   5.479              } else {
   5.480 -              _next->set((*_prev)[target], (*_next)[target]);
   5.481 +              (*_next)[(*_prev)[target]] = (*_next)[target];
   5.482              }
   5.483            } else {
   5.484              _sets.back().pop_back();
   5.485 @@ -774,9 +774,9 @@
   5.486              new_target = _last[_sets.back().back()];
   5.487            }
   5.488  
   5.489 -          _bucket->set(target, 0);
   5.490 +          (*_bucket)[target] = 0;
   5.491  
   5.492 -          _source_set->set(target, true);
   5.493 +          (*_source_set)[target] = true;
   5.494            for (InArcIt a(_graph, target); a != INVALID; ++a) {
   5.495              Value rem = (*_capacity)[a] - (*_flow)[a];
   5.496              if (!_tolerance.positive(rem)) continue;
   5.497 @@ -784,8 +784,8 @@
   5.498              if (!(*_active)[v] && !(*_source_set)[v]) {
   5.499                activate(v);
   5.500              }
   5.501 -            _excess->set(v, (*_excess)[v] + rem);
   5.502 -            _flow->set(a, (*_capacity)[a]);
   5.503 +            (*_excess)[v] += rem;
   5.504 +            (*_flow)[a] = (*_capacity)[a];
   5.505            }
   5.506  
   5.507            for (OutArcIt a(_graph, target); a != INVALID; ++a) {
   5.508 @@ -795,8 +795,8 @@
   5.509              if (!(*_active)[v] && !(*_source_set)[v]) {
   5.510                activate(v);
   5.511              }
   5.512 -            _excess->set(v, (*_excess)[v] + rem);
   5.513 -            _flow->set(a, 0);
   5.514 +            (*_excess)[v] += rem;
   5.515 +            (*_flow)[a] = 0;
   5.516            }
   5.517  
   5.518            target = new_target;
     6.1 --- a/lemon/max_matching.h	Tue Apr 14 10:34:12 2009 +0200
     6.2 +++ b/lemon/max_matching.h	Tue Apr 14 10:35:38 2009 +0200
     6.3 @@ -282,20 +282,20 @@
     6.4          Node base = (*_blossom_rep)[_blossom_set->find(node)];
     6.5  
     6.6          while (base != nca) {
     6.7 -          _ear->set(node, arc);
     6.8 +          (*_ear)[node] = arc;
     6.9  
    6.10            Node n = node;
    6.11            while (n != base) {
    6.12              n = _graph.target((*_matching)[n]);
    6.13              Arc a = (*_ear)[n];
    6.14              n = _graph.target(a);
    6.15 -            _ear->set(n, _graph.oppositeArc(a));
    6.16 +            (*_ear)[n] = _graph.oppositeArc(a);
    6.17            }
    6.18            node = _graph.target((*_matching)[base]);
    6.19            _tree_set->erase(base);
    6.20            _tree_set->erase(node);
    6.21            _blossom_set->insert(node, _blossom_set->find(base));
    6.22 -          _status->set(node, EVEN);
    6.23 +          (*_status)[node] = EVEN;
    6.24            _node_queue[_last++] = node;
    6.25            arc = _graph.oppositeArc((*_ear)[node]);
    6.26            node = _graph.target((*_ear)[node]);
    6.27 @@ -304,7 +304,7 @@
    6.28          }
    6.29        }
    6.30  
    6.31 -      _blossom_rep->set(_blossom_set->find(nca), nca);
    6.32 +      (*_blossom_rep)[_blossom_set->find(nca)] = nca;
    6.33  
    6.34        {
    6.35  
    6.36 @@ -313,20 +313,20 @@
    6.37          Node base = (*_blossom_rep)[_blossom_set->find(node)];
    6.38  
    6.39          while (base != nca) {
    6.40 -          _ear->set(node, arc);
    6.41 +          (*_ear)[node] = arc;
    6.42  
    6.43            Node n = node;
    6.44            while (n != base) {
    6.45              n = _graph.target((*_matching)[n]);
    6.46              Arc a = (*_ear)[n];
    6.47              n = _graph.target(a);
    6.48 -            _ear->set(n, _graph.oppositeArc(a));
    6.49 +            (*_ear)[n] = _graph.oppositeArc(a);
    6.50            }
    6.51            node = _graph.target((*_matching)[base]);
    6.52            _tree_set->erase(base);
    6.53            _tree_set->erase(node);
    6.54            _blossom_set->insert(node, _blossom_set->find(base));
    6.55 -          _status->set(node, EVEN);
    6.56 +          (*_status)[node] = EVEN;
    6.57            _node_queue[_last++] = node;
    6.58            arc = _graph.oppositeArc((*_ear)[node]);
    6.59            node = _graph.target((*_ear)[node]);
    6.60 @@ -335,7 +335,7 @@
    6.61          }
    6.62        }
    6.63  
    6.64 -      _blossom_rep->set(_blossom_set->find(nca), nca);
    6.65 +      (*_blossom_rep)[_blossom_set->find(nca)] = nca;
    6.66      }
    6.67  
    6.68  
    6.69 @@ -344,11 +344,11 @@
    6.70        Node base = _graph.source(a);
    6.71        Node odd = _graph.target(a);
    6.72  
    6.73 -      _ear->set(odd, _graph.oppositeArc(a));
    6.74 +      (*_ear)[odd] = _graph.oppositeArc(a);
    6.75        Node even = _graph.target((*_matching)[odd]);
    6.76 -      _blossom_rep->set(_blossom_set->insert(even), even);
    6.77 -      _status->set(odd, ODD);
    6.78 -      _status->set(even, EVEN);
    6.79 +      (*_blossom_rep)[_blossom_set->insert(even)] = even;
    6.80 +      (*_status)[odd] = ODD;
    6.81 +      (*_status)[even] = EVEN;
    6.82        int tree = _tree_set->find((*_blossom_rep)[_blossom_set->find(base)]);
    6.83        _tree_set->insert(odd, tree);
    6.84        _tree_set->insert(even, tree);
    6.85 @@ -362,30 +362,30 @@
    6.86  
    6.87        int tree = _tree_set->find((*_blossom_rep)[_blossom_set->find(even)]);
    6.88  
    6.89 -      _matching->set(odd, _graph.oppositeArc(a));
    6.90 -      _status->set(odd, MATCHED);
    6.91 +      (*_matching)[odd] = _graph.oppositeArc(a);
    6.92 +      (*_status)[odd] = MATCHED;
    6.93  
    6.94        Arc arc = (*_matching)[even];
    6.95 -      _matching->set(even, a);
    6.96 +      (*_matching)[even] = a;
    6.97  
    6.98        while (arc != INVALID) {
    6.99          odd = _graph.target(arc);
   6.100          arc = (*_ear)[odd];
   6.101          even = _graph.target(arc);
   6.102 -        _matching->set(odd, arc);
   6.103 +        (*_matching)[odd] = arc;
   6.104          arc = (*_matching)[even];
   6.105 -        _matching->set(even, _graph.oppositeArc((*_matching)[odd]));
   6.106 +        (*_matching)[even] = _graph.oppositeArc((*_matching)[odd]);
   6.107        }
   6.108  
   6.109        for (typename TreeSet::ItemIt it(*_tree_set, tree);
   6.110             it != INVALID; ++it) {
   6.111          if ((*_status)[it] == ODD) {
   6.112 -          _status->set(it, MATCHED);
   6.113 +          (*_status)[it] = MATCHED;
   6.114          } else {
   6.115            int blossom = _blossom_set->find(it);
   6.116            for (typename BlossomSet::ItemIt jt(*_blossom_set, blossom);
   6.117                 jt != INVALID; ++jt) {
   6.118 -            _status->set(jt, MATCHED);
   6.119 +            (*_status)[jt] = MATCHED;
   6.120            }
   6.121            _blossom_set->eraseClass(blossom);
   6.122          }
   6.123 @@ -427,8 +427,8 @@
   6.124      void init() {
   6.125        createStructures();
   6.126        for(NodeIt n(_graph); n != INVALID; ++n) {
   6.127 -        _matching->set(n, INVALID);
   6.128 -        _status->set(n, UNMATCHED);
   6.129 +        (*_matching)[n] = INVALID;
   6.130 +        (*_status)[n] = UNMATCHED;
   6.131        }
   6.132      }
   6.133  
   6.134 @@ -438,18 +438,18 @@
   6.135      void greedyInit() {
   6.136        createStructures();
   6.137        for (NodeIt n(_graph); n != INVALID; ++n) {
   6.138 -        _matching->set(n, INVALID);
   6.139 -        _status->set(n, UNMATCHED);
   6.140 +        (*_matching)[n] = INVALID;
   6.141 +        (*_status)[n] = UNMATCHED;
   6.142        }
   6.143        for (NodeIt n(_graph); n != INVALID; ++n) {
   6.144          if ((*_matching)[n] == INVALID) {
   6.145            for (OutArcIt a(_graph, n); a != INVALID ; ++a) {
   6.146              Node v = _graph.target(a);
   6.147              if ((*_matching)[v] == INVALID && v != n) {
   6.148 -              _matching->set(n, a);
   6.149 -              _status->set(n, MATCHED);
   6.150 -              _matching->set(v, _graph.oppositeArc(a));
   6.151 -              _status->set(v, MATCHED);
   6.152 +              (*_matching)[n] = a;
   6.153 +              (*_status)[n] = MATCHED;
   6.154 +              (*_matching)[v] = _graph.oppositeArc(a);
   6.155 +              (*_status)[v] = MATCHED;
   6.156                break;
   6.157              }
   6.158            }
   6.159 @@ -469,21 +469,21 @@
   6.160        createStructures();
   6.161  
   6.162        for (NodeIt n(_graph); n != INVALID; ++n) {
   6.163 -        _matching->set(n, INVALID);
   6.164 -        _status->set(n, UNMATCHED);
   6.165 +        (*_matching)[n] = INVALID;
   6.166 +        (*_status)[n] = UNMATCHED;
   6.167        }
   6.168        for(EdgeIt e(_graph); e!=INVALID; ++e) {
   6.169          if (matching[e]) {
   6.170  
   6.171            Node u = _graph.u(e);
   6.172            if ((*_matching)[u] != INVALID) return false;
   6.173 -          _matching->set(u, _graph.direct(e, true));
   6.174 -          _status->set(u, MATCHED);
   6.175 +          (*_matching)[u] = _graph.direct(e, true);
   6.176 +          (*_status)[u] = MATCHED;
   6.177  
   6.178            Node v = _graph.v(e);
   6.179            if ((*_matching)[v] != INVALID) return false;
   6.180 -          _matching->set(v, _graph.direct(e, false));
   6.181 -          _status->set(v, MATCHED);
   6.182 +          (*_matching)[v] = _graph.direct(e, false);
   6.183 +          (*_status)[v] = MATCHED;
   6.184          }
   6.185        }
   6.186        return true;
   6.187 @@ -497,7 +497,7 @@
   6.188          if ((*_status)[n] == UNMATCHED) {
   6.189            (*_blossom_rep)[_blossom_set->insert(n)] = n;
   6.190            _tree_set->insert(n);
   6.191 -          _status->set(n, EVEN);
   6.192 +          (*_status)[n] = EVEN;
   6.193            processSparse(n);
   6.194          }
   6.195        }
   6.196 @@ -512,7 +512,7 @@
   6.197          if ((*_status)[n] == UNMATCHED) {
   6.198            (*_blossom_rep)[_blossom_set->insert(n)] = n;
   6.199            _tree_set->insert(n);
   6.200 -          _status->set(n, EVEN);
   6.201 +          (*_status)[n] = EVEN;
   6.202            processDense(n);
   6.203          }
   6.204        }
   6.205 @@ -1548,9 +1548,9 @@
   6.206          int bi = (*_node_index)[base];
   6.207          Value pot = (*_node_data)[bi].pot;
   6.208  
   6.209 -        _matching->set(base, matching);
   6.210 +        (*_matching)[base] = matching;
   6.211          _blossom_node_list.push_back(base);
   6.212 -        _node_potential->set(base, pot);
   6.213 +        (*_node_potential)[base] = pot;
   6.214        } else {
   6.215  
   6.216          Value pot = (*_blossom_data)[blossom].pot;
   6.217 @@ -1644,17 +1644,17 @@
   6.218        createStructures();
   6.219  
   6.220        for (ArcIt e(_graph); e != INVALID; ++e) {
   6.221 -        _node_heap_index->set(e, BinHeap<Value, IntArcMap>::PRE_HEAP);
   6.222 +        (*_node_heap_index)[e] = BinHeap<Value, IntArcMap>::PRE_HEAP;
   6.223        }
   6.224        for (NodeIt n(_graph); n != INVALID; ++n) {
   6.225 -        _delta1_index->set(n, _delta1->PRE_HEAP);
   6.226 +        (*_delta1_index)[n] = _delta1->PRE_HEAP;
   6.227        }
   6.228        for (EdgeIt e(_graph); e != INVALID; ++e) {
   6.229 -        _delta3_index->set(e, _delta3->PRE_HEAP);
   6.230 +        (*_delta3_index)[e] = _delta3->PRE_HEAP;
   6.231        }
   6.232        for (int i = 0; i < _blossom_num; ++i) {
   6.233 -        _delta2_index->set(i, _delta2->PRE_HEAP);
   6.234 -        _delta4_index->set(i, _delta4->PRE_HEAP);
   6.235 +        (*_delta2_index)[i] = _delta2->PRE_HEAP;
   6.236 +        (*_delta4_index)[i] = _delta4->PRE_HEAP;
   6.237        }
   6.238  
   6.239        int index = 0;
   6.240 @@ -1666,7 +1666,7 @@
   6.241              max = (dualScale * _weight[e]) / 2;
   6.242            }
   6.243          }
   6.244 -        _node_index->set(n, index);
   6.245 +        (*_node_index)[n] = index;
   6.246          (*_node_data)[index].pot = max;
   6.247          _delta1->push(n, max);
   6.248          int blossom =
   6.249 @@ -2741,9 +2741,9 @@
   6.250          int bi = (*_node_index)[base];
   6.251          Value pot = (*_node_data)[bi].pot;
   6.252  
   6.253 -        _matching->set(base, matching);
   6.254 +        (*_matching)[base] = matching;
   6.255          _blossom_node_list.push_back(base);
   6.256 -        _node_potential->set(base, pot);
   6.257 +        (*_node_potential)[base] = pot;
   6.258        } else {
   6.259  
   6.260          Value pot = (*_blossom_data)[blossom].pot;
   6.261 @@ -2831,14 +2831,14 @@
   6.262        createStructures();
   6.263  
   6.264        for (ArcIt e(_graph); e != INVALID; ++e) {
   6.265 -        _node_heap_index->set(e, BinHeap<Value, IntArcMap>::PRE_HEAP);
   6.266 +        (*_node_heap_index)[e] = BinHeap<Value, IntArcMap>::PRE_HEAP;
   6.267        }
   6.268        for (EdgeIt e(_graph); e != INVALID; ++e) {
   6.269 -        _delta3_index->set(e, _delta3->PRE_HEAP);
   6.270 +        (*_delta3_index)[e] = _delta3->PRE_HEAP;
   6.271        }
   6.272        for (int i = 0; i < _blossom_num; ++i) {
   6.273 -        _delta2_index->set(i, _delta2->PRE_HEAP);
   6.274 -        _delta4_index->set(i, _delta4->PRE_HEAP);
   6.275 +        (*_delta2_index)[i] = _delta2->PRE_HEAP;
   6.276 +        (*_delta4_index)[i] = _delta4->PRE_HEAP;
   6.277        }
   6.278  
   6.279        int index = 0;
   6.280 @@ -2850,7 +2850,7 @@
   6.281              max = (dualScale * _weight[e]) / 2;
   6.282            }
   6.283          }
   6.284 -        _node_index->set(n, index);
   6.285 +        (*_node_index)[n] = index;
   6.286          (*_node_data)[index].pot = max;
   6.287          int blossom =
   6.288            _blossom_set->insert(n, std::numeric_limits<Value>::max());
     7.1 --- a/lemon/min_cost_arborescence.h	Tue Apr 14 10:34:12 2009 +0200
     7.2 +++ b/lemon/min_cost_arborescence.h	Tue Apr 14 10:35:38 2009 +0200
     7.3 @@ -293,7 +293,7 @@
     7.4            minimum = (*_cost_arcs)[nodes[i]];
     7.5          }
     7.6        }
     7.7 -      _arc_order->set(minimum.arc, _dual_variables.size());
     7.8 +      (*_arc_order)[minimum.arc] = _dual_variables.size();
     7.9        DualVariable var(_dual_node_list.size() - 1,
    7.10                         _dual_node_list.size(), minimum.value);
    7.11        _dual_variables.push_back(var);
    7.12 @@ -335,7 +335,7 @@
    7.13            minimum = (*_cost_arcs)[nodes[i]];
    7.14          }
    7.15        }
    7.16 -      _arc_order->set(minimum.arc, _dual_variables.size());
    7.17 +      (*_arc_order)[minimum.arc] = _dual_variables.size();
    7.18        DualVariable var(node_bottom, _dual_node_list.size(), minimum.value);
    7.19        _dual_variables.push_back(var);
    7.20        StackLevel level;
    7.21 @@ -364,7 +364,7 @@
    7.22        while (!_heap->empty()) {
    7.23          Node source = _heap->top();
    7.24          _heap->pop();
    7.25 -        _node_order->set(source, -1);
    7.26 +        (*_node_order)[source] = -1;
    7.27          for (OutArcIt it(*_digraph, source); it != INVALID; ++it) {
    7.28            if ((*_arc_order)[it] < 0) continue;
    7.29            Node target = _digraph->target(it);
    7.30 @@ -650,13 +650,13 @@
    7.31        _heap->clear();
    7.32        for (NodeIt it(*_digraph); it != INVALID; ++it) {
    7.33          (*_cost_arcs)[it].arc = INVALID;
    7.34 -        _node_order->set(it, -3);
    7.35 -        _heap_cross_ref->set(it, Heap::PRE_HEAP);
    7.36 +        (*_node_order)[it] = -3;
    7.37 +        (*_heap_cross_ref)[it] = Heap::PRE_HEAP;
    7.38          _pred->set(it, INVALID);
    7.39        }
    7.40        for (ArcIt it(*_digraph); it != INVALID; ++it) {
    7.41          _arborescence->set(it, false);
    7.42 -        _arc_order->set(it, -1);
    7.43 +        (*_arc_order)[it] = -1;
    7.44        }
    7.45        _dual_node_list.clear();
    7.46        _dual_variables.clear();
     8.1 --- a/lemon/preflow.h	Tue Apr 14 10:34:12 2009 +0200
     8.2 +++ b/lemon/preflow.h	Tue Apr 14 10:35:38 2009 +0200
     8.3 @@ -404,7 +404,7 @@
     8.4  
     8.5        _phase = true;
     8.6        for (NodeIt n(_graph); n != INVALID; ++n) {
     8.7 -        _excess->set(n, 0);
     8.8 +        (*_excess)[n] = 0;
     8.9        }
    8.10  
    8.11        for (ArcIt e(_graph); e != INVALID; ++e) {
    8.12 @@ -417,10 +417,10 @@
    8.13        _level->initAddItem(_target);
    8.14  
    8.15        std::vector<Node> queue;
    8.16 -      reached.set(_source, true);
    8.17 +      reached[_source] = true;
    8.18  
    8.19        queue.push_back(_target);
    8.20 -      reached.set(_target, true);
    8.21 +      reached[_target] = true;
    8.22        while (!queue.empty()) {
    8.23          _level->initNewLevel();
    8.24          std::vector<Node> nqueue;
    8.25 @@ -429,7 +429,7 @@
    8.26            for (InArcIt e(_graph, n); e != INVALID; ++e) {
    8.27              Node u = _graph.source(e);
    8.28              if (!reached[u] && _tolerance.positive((*_capacity)[e])) {
    8.29 -              reached.set(u, true);
    8.30 +              reached[u] = true;
    8.31                _level->initAddItem(u);
    8.32                nqueue.push_back(u);
    8.33              }
    8.34 @@ -444,7 +444,7 @@
    8.35            Node u = _graph.target(e);
    8.36            if ((*_level)[u] == _level->maxLevel()) continue;
    8.37            _flow->set(e, (*_capacity)[e]);
    8.38 -          _excess->set(u, (*_excess)[u] + (*_capacity)[e]);
    8.39 +          (*_excess)[u] += (*_capacity)[e];
    8.40            if (u != _target && !_level->active(u)) {
    8.41              _level->activate(u);
    8.42            }
    8.43 @@ -478,7 +478,7 @@
    8.44            excess -= (*_flow)[e];
    8.45          }
    8.46          if (excess < 0 && n != _source) return false;
    8.47 -        _excess->set(n, excess);
    8.48 +        (*_excess)[n] = excess;
    8.49        }
    8.50  
    8.51        typename Digraph::template NodeMap<bool> reached(_graph, false);
    8.52 @@ -487,10 +487,10 @@
    8.53        _level->initAddItem(_target);
    8.54  
    8.55        std::vector<Node> queue;
    8.56 -      reached.set(_source, true);
    8.57 +      reached[_source] = true;
    8.58  
    8.59        queue.push_back(_target);
    8.60 -      reached.set(_target, true);
    8.61 +      reached[_target] = true;
    8.62        while (!queue.empty()) {
    8.63          _level->initNewLevel();
    8.64          std::vector<Node> nqueue;
    8.65 @@ -500,7 +500,7 @@
    8.66              Node u = _graph.source(e);
    8.67              if (!reached[u] &&
    8.68                  _tolerance.positive((*_capacity)[e] - (*_flow)[e])) {
    8.69 -              reached.set(u, true);
    8.70 +              reached[u] = true;
    8.71                _level->initAddItem(u);
    8.72                nqueue.push_back(u);
    8.73              }
    8.74 @@ -508,7 +508,7 @@
    8.75            for (OutArcIt e(_graph, n); e != INVALID; ++e) {
    8.76              Node v = _graph.target(e);
    8.77              if (!reached[v] && _tolerance.positive((*_flow)[e])) {
    8.78 -              reached.set(v, true);
    8.79 +              reached[v] = true;
    8.80                _level->initAddItem(v);
    8.81                nqueue.push_back(v);
    8.82              }
    8.83 @@ -524,7 +524,7 @@
    8.84            Node u = _graph.target(e);
    8.85            if ((*_level)[u] == _level->maxLevel()) continue;
    8.86            _flow->set(e, (*_capacity)[e]);
    8.87 -          _excess->set(u, (*_excess)[u] + rem);
    8.88 +          (*_excess)[u] += rem;
    8.89            if (u != _target && !_level->active(u)) {
    8.90              _level->activate(u);
    8.91            }
    8.92 @@ -536,7 +536,7 @@
    8.93            Node v = _graph.source(e);
    8.94            if ((*_level)[v] == _level->maxLevel()) continue;
    8.95            _flow->set(e, 0);
    8.96 -          _excess->set(v, (*_excess)[v] + rem);
    8.97 +          (*_excess)[v] += rem;
    8.98            if (v != _target && !_level->active(v)) {
    8.99              _level->activate(v);
   8.100            }
   8.101 @@ -577,12 +577,12 @@
   8.102                }
   8.103                if (!_tolerance.less(rem, excess)) {
   8.104                  _flow->set(e, (*_flow)[e] + excess);
   8.105 -                _excess->set(v, (*_excess)[v] + excess);
   8.106 +                (*_excess)[v] += excess;
   8.107                  excess = 0;
   8.108                  goto no_more_push_1;
   8.109                } else {
   8.110                  excess -= rem;
   8.111 -                _excess->set(v, (*_excess)[v] + rem);
   8.112 +                (*_excess)[v] += rem;
   8.113                  _flow->set(e, (*_capacity)[e]);
   8.114                }
   8.115              } else if (new_level > (*_level)[v]) {
   8.116 @@ -600,12 +600,12 @@
   8.117                }
   8.118                if (!_tolerance.less(rem, excess)) {
   8.119                  _flow->set(e, (*_flow)[e] - excess);
   8.120 -                _excess->set(v, (*_excess)[v] + excess);
   8.121 +                (*_excess)[v] += excess;
   8.122                  excess = 0;
   8.123                  goto no_more_push_1;
   8.124                } else {
   8.125                  excess -= rem;
   8.126 -                _excess->set(v, (*_excess)[v] + rem);
   8.127 +                (*_excess)[v] += rem;
   8.128                  _flow->set(e, 0);
   8.129                }
   8.130              } else if (new_level > (*_level)[v]) {
   8.131 @@ -615,7 +615,7 @@
   8.132  
   8.133          no_more_push_1:
   8.134  
   8.135 -          _excess->set(n, excess);
   8.136 +          (*_excess)[n] = excess;
   8.137  
   8.138            if (excess != 0) {
   8.139              if (new_level + 1 < _level->maxLevel()) {
   8.140 @@ -650,12 +650,12 @@
   8.141                }
   8.142                if (!_tolerance.less(rem, excess)) {
   8.143                  _flow->set(e, (*_flow)[e] + excess);
   8.144 -                _excess->set(v, (*_excess)[v] + excess);
   8.145 +                (*_excess)[v] += excess;
   8.146                  excess = 0;
   8.147                  goto no_more_push_2;
   8.148                } else {
   8.149                  excess -= rem;
   8.150 -                _excess->set(v, (*_excess)[v] + rem);
   8.151 +                (*_excess)[v] += rem;
   8.152                  _flow->set(e, (*_capacity)[e]);
   8.153                }
   8.154              } else if (new_level > (*_level)[v]) {
   8.155 @@ -673,12 +673,12 @@
   8.156                }
   8.157                if (!_tolerance.less(rem, excess)) {
   8.158                  _flow->set(e, (*_flow)[e] - excess);
   8.159 -                _excess->set(v, (*_excess)[v] + excess);
   8.160 +                (*_excess)[v] += excess;
   8.161                  excess = 0;
   8.162                  goto no_more_push_2;
   8.163                } else {
   8.164                  excess -= rem;
   8.165 -                _excess->set(v, (*_excess)[v] + rem);
   8.166 +                (*_excess)[v] += rem;
   8.167                  _flow->set(e, 0);
   8.168                }
   8.169              } else if (new_level > (*_level)[v]) {
   8.170 @@ -688,7 +688,7 @@
   8.171  
   8.172          no_more_push_2:
   8.173  
   8.174 -          _excess->set(n, excess);
   8.175 +          (*_excess)[n] = excess;
   8.176  
   8.177            if (excess != 0) {
   8.178              if (new_level + 1 < _level->maxLevel()) {
   8.179 @@ -731,7 +731,7 @@
   8.180  
   8.181        typename Digraph::template NodeMap<bool> reached(_graph);
   8.182        for (NodeIt n(_graph); n != INVALID; ++n) {
   8.183 -        reached.set(n, (*_level)[n] < _level->maxLevel());
   8.184 +        reached[n] = (*_level)[n] < _level->maxLevel();
   8.185        }
   8.186  
   8.187        _level->initStart();
   8.188 @@ -739,7 +739,7 @@
   8.189  
   8.190        std::vector<Node> queue;
   8.191        queue.push_back(_source);
   8.192 -      reached.set(_source, true);
   8.193 +      reached[_source] = true;
   8.194  
   8.195        while (!queue.empty()) {
   8.196          _level->initNewLevel();
   8.197 @@ -749,7 +749,7 @@
   8.198            for (OutArcIt e(_graph, n); e != INVALID; ++e) {
   8.199              Node v = _graph.target(e);
   8.200              if (!reached[v] && _tolerance.positive((*_flow)[e])) {
   8.201 -              reached.set(v, true);
   8.202 +              reached[v] = true;
   8.203                _level->initAddItem(v);
   8.204                nqueue.push_back(v);
   8.205              }
   8.206 @@ -758,7 +758,7 @@
   8.207              Node u = _graph.source(e);
   8.208              if (!reached[u] &&
   8.209                  _tolerance.positive((*_capacity)[e] - (*_flow)[e])) {
   8.210 -              reached.set(u, true);
   8.211 +              reached[u] = true;
   8.212                _level->initAddItem(u);
   8.213                nqueue.push_back(u);
   8.214              }
   8.215 @@ -792,12 +792,12 @@
   8.216              }
   8.217              if (!_tolerance.less(rem, excess)) {
   8.218                _flow->set(e, (*_flow)[e] + excess);
   8.219 -              _excess->set(v, (*_excess)[v] + excess);
   8.220 +              (*_excess)[v] += excess;
   8.221                excess = 0;
   8.222                goto no_more_push;
   8.223              } else {
   8.224                excess -= rem;
   8.225 -              _excess->set(v, (*_excess)[v] + rem);
   8.226 +              (*_excess)[v] += rem;
   8.227                _flow->set(e, (*_capacity)[e]);
   8.228              }
   8.229            } else if (new_level > (*_level)[v]) {
   8.230 @@ -815,12 +815,12 @@
   8.231              }
   8.232              if (!_tolerance.less(rem, excess)) {
   8.233                _flow->set(e, (*_flow)[e] - excess);
   8.234 -              _excess->set(v, (*_excess)[v] + excess);
   8.235 +              (*_excess)[v] += excess;
   8.236                excess = 0;
   8.237                goto no_more_push;
   8.238              } else {
   8.239                excess -= rem;
   8.240 -              _excess->set(v, (*_excess)[v] + rem);
   8.241 +              (*_excess)[v] += rem;
   8.242                _flow->set(e, 0);
   8.243              }
   8.244            } else if (new_level > (*_level)[v]) {
   8.245 @@ -830,7 +830,7 @@
   8.246  
   8.247        no_more_push:
   8.248  
   8.249 -        _excess->set(n, excess);
   8.250 +        (*_excess)[n] = excess;
   8.251  
   8.252          if (excess != 0) {
   8.253            if (new_level + 1 < _level->maxLevel()) {
     9.1 --- a/test/kruskal_test.cc	Tue Apr 14 10:34:12 2009 +0200
     9.2 +++ b/test/kruskal_test.cc	Tue Apr 14 10:35:38 2009 +0200
     9.3 @@ -99,16 +99,16 @@
     9.4    check(kruskal(G, edge_cost_map, tree_map)==10,
     9.5          "Total cost should be 10");
     9.6  
     9.7 -  edge_cost_map.set(e1, -10);
     9.8 -  edge_cost_map.set(e2, -9);
     9.9 -  edge_cost_map.set(e3, -8);
    9.10 -  edge_cost_map.set(e4, -7);
    9.11 -  edge_cost_map.set(e5, -6);
    9.12 -  edge_cost_map.set(e6, -5);
    9.13 -  edge_cost_map.set(e7, -4);
    9.14 -  edge_cost_map.set(e8, -3);
    9.15 -  edge_cost_map.set(e9, -2);
    9.16 -  edge_cost_map.set(e10, -1);
    9.17 +  edge_cost_map[e1] = -10;
    9.18 +  edge_cost_map[e2] = -9;
    9.19 +  edge_cost_map[e3] = -8;
    9.20 +  edge_cost_map[e4] = -7;
    9.21 +  edge_cost_map[e5] = -6;
    9.22 +  edge_cost_map[e6] = -5;
    9.23 +  edge_cost_map[e7] = -4;
    9.24 +  edge_cost_map[e8] = -3;
    9.25 +  edge_cost_map[e9] = -2;
    9.26 +  edge_cost_map[e10] = -1;
    9.27  
    9.28    vector<Edge> tree_edge_vec(5);
    9.29