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alpar (Alpar Juttner)
alpar@cs.elte.hu
Port Elevator from svn -r3516 (#174) - the unify script hes also been applied
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/* -*- mode: C++; indent-tabs-mode: nil; -*-
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 *
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 * This file is a part of LEMON, a generic C++ optimization library.
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 *
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 * Copyright (C) 2003-2008
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 * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
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 * (Egervary Research Group on Combinatorial Optimization, EGRES).
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 *
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 * Permission to use, modify and distribute this software is granted
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 * provided that this copyright notice appears in all copies. For
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 * precise terms see the accompanying LICENSE file.
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 *
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 * This software is provided "AS IS" with no warranty of any kind,
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 * express or implied, and with no claim as to its suitability for any
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 * purpose.
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 *
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 */
18

	
19
#ifndef LEMON_ELEVATOR_H
20
#define LEMON_ELEVATOR_H
21

	
22
///\ingroup auxdat
23
///\file
24
///\brief Elevator class
25
///
26
///Elevator class implements an efficient data structure
27
///for labeling items in push-relabel type algorithms.
28
///
29

	
30
#include <test/test_tools.h>
31
namespace lemon {
32

	
33
  ///Class for handling "labels" in push-relabel type algorithms.
34

	
35
  ///A class for handling "labels" in push-relabel type algorithms.
36
  ///
37
  ///\ingroup auxdat
38
  ///Using this class you can assign "labels" (nonnegative integer numbers)
39
  ///to the edges or nodes of a graph, manipulate and query them through
40
  ///operations typically arising in "push-relabel" type algorithms.
41
  ///
42
  ///Each item is either \em active or not, and you can also choose a
43
  ///highest level active item.
44
  ///
45
  ///\sa LinkedElevator
46
  ///
47
  ///\param Graph the underlying graph type
48
  ///\param Item Type of the items the data is assigned to (Graph::Node,
49
  ///Graph::Edge, Graph::UEdge)
50
  template<class Graph, class Item>
51
  class Elevator
52
  {
53
  public:
54

	
55
    typedef Item Key;
56
    typedef int Value;
57

	
58
  private:
59

	
60
    typedef typename std::vector<Item>::iterator Vit;
61
    typedef typename ItemSetTraits<Graph,Item>::template Map<Vit>::Type VitMap;
62
    typedef typename ItemSetTraits<Graph,Item>::template Map<int>::Type IntMap;
63

	
64
    const Graph &_g;
65
    int _max_level;
66
    int _item_num;
67
    VitMap _where;
68
    IntMap _level;
69
    std::vector<Item> _items;
70
    std::vector<Vit> _first;
71
    std::vector<Vit> _last_active;
72

	
73
    int _highest_active;
74

	
75
    void copy(Item i, Vit p)
76
    {
77
      _where[*p=i]=p;
78
    }
79
    void copy(Vit s, Vit p)
80
    {
81
      if(s!=p)
82
        {
83
          Item i=*s;
84
          *p=i;
85
          _where[i]=p;
86
        }
87
    }
88
    void swap(Vit i, Vit j)
89
    {
90
      Item ti=*i;
91
      Vit ct = _where[ti];
92
      _where[ti]=_where[*i=*j];
93
      _where[*j]=ct;
94
      *j=ti;
95
    }
96

	
97
  public:
98

	
99
    ///Constructor with given maximum level.
100

	
101
    ///Constructor with given maximum level.
102
    ///
103
    ///\param g The underlying graph
104
    ///\param max_level Set the range of the possible labels to
105
    ///[0...\c max_level]
106
    Elevator(const Graph &g,int max_level) :
107
      _g(g),
108
      _max_level(max_level),
109
      _item_num(_max_level),
110
      _where(g),
111
      _level(g,0),
112
      _items(_max_level),
113
      _first(_max_level+2),
114
      _last_active(_max_level+2),
115
      _highest_active(-1) {}
116
    ///Constructor.
117

	
118
    ///Constructor.
119
    ///
120
    ///\param g The underlying graph
121
    ///The range of the possible labels is [0...\c max_level],
122
    ///where \c max_level is equal to the number of labeled items in the graph.
123
    Elevator(const Graph &g) :
124
      _g(g),
125
      _max_level(countItems<Graph, Item>(g)),
126
      _item_num(_max_level),
127
      _where(g),
128
      _level(g,0),
129
      _items(_max_level),
130
      _first(_max_level+2),
131
      _last_active(_max_level+2),
132
      _highest_active(-1)
133
    {
134
    }
135

	
136
    ///Activate item \c i.
137

	
138
    ///Activate item \c i.
139
    ///\pre Item \c i shouldn't be active before.
140
    void activate(Item i)
141
    {
142
      const int l=_level[i];
143
      swap(_where[i],++_last_active[l]);
144
      if(l>_highest_active) _highest_active=l;
145
    }
146

	
147
    ///Deactivate item \c i.
148

	
149
    ///Deactivate item \c i.
150
    ///\pre Item \c i must be active before.
151
    void deactivate(Item i)
152
    {
153
      swap(_where[i],_last_active[_level[i]]--);
154
      while(_highest_active>=0 &&
155
            _last_active[_highest_active]<_first[_highest_active])
156
        _highest_active--;
157
    }
158

	
159
    ///Query whether item \c i is active
160
    bool active(Item i) const { return _where[i]<=_last_active[_level[i]]; }
161

	
162
    ///Return the level of item \c i.
163
    int operator[](Item i) const { return _level[i]; }
164

	
165
    ///Return the number of items on level \c l.
166
    int onLevel(int l) const
167
    {
168
      return _first[l+1]-_first[l];
169
    }
170
    ///Return true if the level is empty.
171
    bool emptyLevel(int l) const
172
    {
173
      return _first[l+1]-_first[l]==0;
174
    }
175
    ///Return the number of items above level \c l.
176
    int aboveLevel(int l) const
177
    {
178
      return _first[_max_level+1]-_first[l+1];
179
    }
180
    ///Return the number of active items on level \c l.
181
    int activesOnLevel(int l) const
182
    {
183
      return _last_active[l]-_first[l]+1;
184
    }
185
    ///Return true if there is not active item on level \c l.
186
    bool activeFree(int l) const
187
    {
188
      return _last_active[l]<_first[l];
189
    }
190
    ///Return the maximum allowed level.
191
    int maxLevel() const
192
    {
193
      return _max_level;
194
    }
195

	
196
    ///\name Highest Active Item
197
    ///Functions for working with the highest level
198
    ///active item.
199

	
200
    ///@{
201

	
202
    ///Return a highest level active item.
203

	
204
    ///Return a highest level active item.
205
    ///
206
    ///\return the highest level active item or INVALID if there is no active
207
    ///item.
208
    Item highestActive() const
209
    {
210
      return _highest_active>=0?*_last_active[_highest_active]:INVALID;
211
    }
212

	
213
    ///Return a highest active level.
214

	
215
    ///Return a highest active level.
216
    ///
217
    ///\return the level of the highest active item or -1 if there is no active
218
    ///item.
219
    int highestActiveLevel() const
220
    {
221
      return _highest_active;
222
    }
223

	
224
    ///Lift the highest active item by one.
225

	
226
    ///Lift the item returned by highestActive() by one.
227
    ///
228
    void liftHighestActive()
229
    {
230
      ++_level[*_last_active[_highest_active]];
231
      swap(_last_active[_highest_active]--,_last_active[_highest_active+1]);
232
      --_first[++_highest_active];
233
    }
234

	
235
    ///Lift the highest active item.
236

	
237
    ///Lift the item returned by highestActive() to level \c new_level.
238
    ///
239
    ///\warning \c new_level must be strictly higher
240
    ///than the current level.
241
    ///
242
    void liftHighestActive(int new_level)
243
    {
244
      const Item li = *_last_active[_highest_active];
245

	
246
      copy(--_first[_highest_active+1],_last_active[_highest_active]--);
247
      for(int l=_highest_active+1;l<new_level;l++)
248
        {
249
          copy(--_first[l+1],_first[l]);
250
          --_last_active[l];
251
        }
252
      copy(li,_first[new_level]);
253
      _level[li]=new_level;
254
      _highest_active=new_level;
255
    }
256

	
257
    ///Lift the highest active item.
258

	
259
    ///Lift the item returned by highestActive() to the top level and
260
    ///deactivates it.
261
    ///
262
    ///\warning \c new_level must be strictly higher
263
    ///than the current level.
264
    ///
265
    void liftHighestActiveToTop()
266
    {
267
      const Item li = *_last_active[_highest_active];
268

	
269
      copy(--_first[_highest_active+1],_last_active[_highest_active]--);
270
      for(int l=_highest_active+1;l<_max_level;l++)
271
        {
272
          copy(--_first[l+1],_first[l]);
273
          --_last_active[l];
274
        }
275
      copy(li,_first[_max_level]);
276
      --_last_active[_max_level];
277
      _level[li]=_max_level;
278

	
279
      while(_highest_active>=0 &&
280
            _last_active[_highest_active]<_first[_highest_active])
281
        _highest_active--;
282
    }
283

	
284
    ///@}
285

	
286
    ///\name Active Item on Certain Level
287
    ///Functions for working with the active items.
288

	
289
    ///@{
290

	
291
    ///Returns an active item on level \c l.
292

	
293
    ///Returns an active item on level \c l.
294
    ///
295
    ///Returns an active item on level \c l or \ref INVALID if there is no such
296
    ///an item. (\c l must be from the range [0...\c max_level].
297
    Item activeOn(int l) const
298
    {
299
      return _last_active[l]>=_first[l]?*_last_active[l]:INVALID;
300
    }
301

	
302
    ///Lifts the active item returned by \c activeOn() member function.
303

	
304
    ///Lifts the active item returned by \c activeOn() member function
305
    ///by one.
306
    Item liftActiveOn(int level)
307
    {
308
      ++_level[*_last_active[level]];
309
      swap(_last_active[level]--, --_first[level+1]);
310
      if (level+1>_highest_active) ++_highest_active;
311
    }
312

	
313
    ///Lifts the active item returned by \c activeOn() member function.
314

	
315
    ///Lifts the active item returned by \c activeOn() member function
316
    ///to the given level.
317
    void liftActiveOn(int level, int new_level)
318
    {
319
      const Item ai = *_last_active[level];
320

	
321
      copy(--_first[level+1], _last_active[level]--);
322
      for(int l=level+1;l<new_level;l++)
323
        {
324
          copy(_last_active[l],_first[l]);
325
          copy(--_first[l+1], _last_active[l]--);
326
        }
327
      copy(ai,_first[new_level]);
328
      _level[ai]=new_level;
329
      if (new_level>_highest_active) _highest_active=new_level;
330
    }
331

	
332
    ///Lifts the active item returned by \c activeOn() member function.
333

	
334
    ///Lifts the active item returned by \c activeOn() member function
335
    ///to the top level.
336
    void liftActiveToTop(int level)
337
    {
338
      const Item ai = *_last_active[level];
339

	
340
      copy(--_first[level+1],_last_active[level]--);
341
      for(int l=level+1;l<_max_level;l++)
342
        {
343
          copy(_last_active[l],_first[l]);
344
          copy(--_first[l+1], _last_active[l]--);
345
        }
346
      copy(ai,_first[_max_level]);
347
      --_last_active[_max_level];
348
      _level[ai]=_max_level;
349

	
350
      if (_highest_active==level) {
351
        while(_highest_active>=0 &&
352
              _last_active[_highest_active]<_first[_highest_active])
353
          _highest_active--;
354
      }
355
    }
356

	
357
    ///@}
358

	
359
    ///Lift an active item to a higher level.
360

	
361
    ///Lift an active item to a higher level.
362
    ///\param i The item to be lifted. It must be active.
363
    ///\param new_level The new level of \c i. It must be strictly higher
364
    ///than the current level.
365
    ///
366
    void lift(Item i, int new_level)
367
    {
368
      const int lo = _level[i];
369
      const Vit w = _where[i];
370

	
371
      copy(_last_active[lo],w);
372
      copy(--_first[lo+1],_last_active[lo]--);
373
      for(int l=lo+1;l<new_level;l++)
374
        {
375
          copy(_last_active[l],_first[l]);
376
          copy(--_first[l+1],_last_active[l]--);
377
        }
378
      copy(i,_first[new_level]);
379
      _level[i]=new_level;
380
      if(new_level>_highest_active) _highest_active=new_level;
381
    }
382

	
383
    ///Mark the node as it did not reach the max level
384

	
385
    ///Mark the node as it did not reach the max level. It sets the
386
    ///level to the under the max level value. The node will be never
387
    ///more activated because the push operation from the maximum
388
    ///level is forbidden in the push-relabel algorithms. The node
389
    ///should be lifted previously to the top level.
390
    void markToBottom(Item i) {
391
      _level[i] = _max_level - 1;
392
    }
393

	
394
    ///Lift all nodes on and above a level to the top (and deactivate them).
395

	
396
    ///This function lifts all nodes on and above level \c l to \c
397
    ///maxLevel(), and also deactivates them.
398
    void liftToTop(int l)
399
    {
400
      const Vit f=_first[l];
401
      const Vit tl=_first[_max_level];
402
      for(Vit i=f;i!=tl;++i)
403
        _level[*i]=_max_level;
404
      for(int i=l;i<=_max_level;i++)
405
        {
406
          _first[i]=f;
407
          _last_active[i]=f-1;
408
        }
409
      for(_highest_active=l-1;
410
          _highest_active>=0 &&
411
            _last_active[_highest_active]<_first[_highest_active];
412
          _highest_active--) ;
413
    }
414

	
415
  private:
416
    int _init_lev;
417
    Vit _init_num;
418

	
419
  public:
420

	
421
    ///\name Initialization
422
    ///Using this function you can initialize the levels of the item.
423
    ///\n
424
    ///This initializatios is started with calling \c initStart().
425
    ///Then the
426
    ///items should be listed levels by levels statring with the lowest one
427
    ///(with level 0). This is done by using \c initAddItem()
428
    ///and \c initNewLevel(). Finally \c initFinish() must be called.
429
    ///The items not listed will be put on the highest level.
430
    ///@{
431

	
432
    ///Start the initialization process.
433

	
434
    void initStart()
435
    {
436
      _init_lev=0;
437
      _init_num=_items.begin();
438
      _first[0]=_items.begin();
439
      _last_active[0]=_items.begin()-1;
440
      Vit n=_items.begin();
441
      for(typename ItemSetTraits<Graph,Item>::ItemIt i(_g);i!=INVALID;++i)
442
        {
443
          *n=i;
444
          _where[i]=n;
445
          _level[i]=_max_level;
446
          ++n;
447
        }
448
    }
449

	
450
    ///Add an item to the current level.
451

	
452
    void initAddItem(Item i)
453
    {
454
     swap(_where[i],_init_num);
455
      _level[i]=_init_lev;
456
      ++_init_num;
457
    }
458

	
459
    ///Start a new level.
460

	
461
    ///Start a new level.
462
    ///It shouldn't be used before the items on level 0 are listed.
463
    void initNewLevel()
464
    {
465
      _init_lev++;
466
      _first[_init_lev]=_init_num;
467
      _last_active[_init_lev]=_init_num-1;
468
    }
469

	
470
    ///Finalize the initialization process.
471

	
472
    void initFinish()
473
    {
474
      for(_init_lev++;_init_lev<=_max_level;_init_lev++)
475
        {
476
          _first[_init_lev]=_init_num;
477
          _last_active[_init_lev]=_init_num-1;
478
        }
479
      _first[_max_level+1]=_items.begin()+_item_num;
480
      _last_active[_max_level+1]=_items.begin()+_item_num-1;
481
      _highest_active = -1;
482
    }
483

	
484
    ///@}
485

	
486
  };
487

	
488
  ///Class for handling "labels" in push-relabel type algorithms.
489

	
490
  ///A class for handling "labels" in push-relabel type algorithms.
491
  ///
492
  ///\ingroup auxdat
493
  ///Using this class you can assign "labels" (nonnegative integer numbers)
494
  ///to the edges or nodes of a graph, manipulate and query them through
495
  ///operations typically arising in "push-relabel" type algorithms.
496
  ///
497
  ///Each item is either \em active or not, and you can also choose a
498
  ///highest level active item.
499
  ///
500
  ///\sa Elevator
501
  ///
502
  ///\param Graph the underlying graph type
503
  ///\param Item Type of the items the data is assigned to (Graph::Node,
504
  ///Graph::Edge, Graph::UEdge)
505
  template <class Graph, class Item>
506
  class LinkedElevator {
507
  public:
508

	
509
    typedef Item Key;
510
    typedef int Value;
511

	
512
  private:
513

	
514
    typedef typename ItemSetTraits<Graph,Item>::
515
    template Map<Item>::Type ItemMap;
516
    typedef typename ItemSetTraits<Graph,Item>::
517
    template Map<int>::Type IntMap;
518
    typedef typename ItemSetTraits<Graph,Item>::
519
    template Map<bool>::Type BoolMap;
520

	
521
    const Graph &_graph;
522
    int _max_level;
523
    int _item_num;
524
    std::vector<Item> _first, _last;
525
    ItemMap _prev, _next;
526
    int _highest_active;
527
    IntMap _level;
528
    BoolMap _active;
529

	
530
  public:
531
    ///Constructor with given maximum level.
532

	
533
    ///Constructor with given maximum level.
534
    ///
535
    ///\param g The underlying graph
536
    ///\param max_level Set the range of the possible labels to
537
    ///[0...\c max_level]
538
    LinkedElevator(const Graph& graph, int max_level)
539
      : _graph(graph), _max_level(max_level), _item_num(_max_level),
540
        _first(_max_level + 1), _last(_max_level + 1),
541
        _prev(graph), _next(graph),
542
        _highest_active(-1), _level(graph), _active(graph) {}
543

	
544
    ///Constructor.
545

	
546
    ///Constructor.
547
    ///
548
    ///\param g The underlying graph
549
    ///The range of the possible labels is [0...\c max_level],
550
    ///where \c max_level is equal to the number of labeled items in the graph.
551
    LinkedElevator(const Graph& graph)
552
      : _graph(graph), _max_level(countItems<Graph, Item>(graph)),
553
        _item_num(_max_level),
554
        _first(_max_level + 1), _last(_max_level + 1),
555
        _prev(graph, INVALID), _next(graph, INVALID),
556
        _highest_active(-1), _level(graph), _active(graph) {}
557

	
558

	
559
    ///Activate item \c i.
560

	
561
    ///Activate item \c i.
562
    ///\pre Item \c i shouldn't be active before.
563
    void activate(Item i) {
564
      _active.set(i, true);
565

	
566
      int level = _level[i];
567
      if (level > _highest_active) {
568
        _highest_active = level;
569
      }
570

	
571
      if (_prev[i] == INVALID || _active[_prev[i]]) return;
572
      //unlace
573
      _next.set(_prev[i], _next[i]);
574
      if (_next[i] != INVALID) {
575
        _prev.set(_next[i], _prev[i]);
576
      } else {
577
        _last[level] = _prev[i];
578
      }
579
      //lace
580
      _next.set(i, _first[level]);
581
      _prev.set(_first[level], i);
582
      _prev.set(i, INVALID);
583
      _first[level] = i;
584

	
585
    }
586

	
587
    ///Deactivate item \c i.
588

	
589
    ///Deactivate item \c i.
590
    ///\pre Item \c i must be active before.
591
    void deactivate(Item i) {
592
      _active.set(i, false);
593
      int level = _level[i];
594

	
595
      if (_next[i] == INVALID || !_active[_next[i]])
596
        goto find_highest_level;
597

	
598
      //unlace
599
      _prev.set(_next[i], _prev[i]);
600
      if (_prev[i] != INVALID) {
601
        _next.set(_prev[i], _next[i]);
602
      } else {
603
        _first[_level[i]] = _next[i];
604
      }
605
      //lace
606
      _prev.set(i, _last[level]);
607
      _next.set(_last[level], i);
608
      _next.set(i, INVALID);
609
      _last[level] = i;
610

	
611
    find_highest_level:
612
      if (level == _highest_active) {
613
        while (_highest_active >= 0 && activeFree(_highest_active))
614
          --_highest_active;
615
      }
616
    }
617

	
618
    ///Query whether item \c i is active
619
    bool active(Item i) const { return _active[i]; }
620

	
621
    ///Return the level of item \c i.
622
    int operator[](Item i) const { return _level[i]; }
623

	
624
    ///Return the number of items on level \c l.
625
    int onLevel(int l) const {
626
      int num = 0;
627
      Item n = _first[l];
628
      while (n != INVALID) {
629
        ++num;
630
        n = _next[n];
631
      }
632
      return num;
633
    }
634

	
635
    ///Return true if the level is empty.
636
    bool emptyLevel(int l) const {
637
      return _first[l] == INVALID;
638
    }
639

	
640
    ///Return the number of items above level \c l.
641
    int aboveLevel(int l) const {
642
      int num = 0;
643
      for (int level = l + 1; level < _max_level; ++level)
644
        num += onLevel(level);
645
      return num;
646
    }
647

	
648
    ///Return the number of active items on level \c l.
649
    int activesOnLevel(int l) const {
650
      int num = 0;
651
      Item n = _first[l];
652
      while (n != INVALID && _active[n]) {
653
        ++num;
654
        n = _next[n];
655
      }
656
      return num;
657
    }
658

	
659
    ///Return true if there is not active item on level \c l.
660
    bool activeFree(int l) const {
661
      return _first[l] == INVALID || !_active[_first[l]];
662
    }
663

	
664
    ///Return the maximum allowed level.
665
    int maxLevel() const {
666
      return _max_level;
667
    }
668

	
669
    ///\name Highest Active Item
670
    ///Functions for working with the highest level
671
    ///active item.
672

	
673
    ///@{
674

	
675
    ///Return a highest level active item.
676

	
677
    ///Return a highest level active item.
678
    ///
679
    ///\return the highest level active item or INVALID if there is no
680
    ///active item.
681
    Item highestActive() const {
682
      return _highest_active >= 0 ? _first[_highest_active] : INVALID;
683
    }
684

	
685
    ///Return a highest active level.
686

	
687
    ///Return a highest active level.
688
    ///
689
    ///\return the level of the highest active item or -1 if there is
690
    ///no active item.
691
    int highestActiveLevel() const {
692
      return _highest_active;
693
    }
694

	
695
    ///Lift the highest active item by one.
696

	
697
    ///Lift the item returned by highestActive() by one.
698
    ///
699
    void liftHighestActive() {
700
      Item i = _first[_highest_active];
701
      if (_next[i] != INVALID) {
702
        _prev.set(_next[i], INVALID);
703
        _first[_highest_active] = _next[i];
704
      } else {
705
        _first[_highest_active] = INVALID;
706
        _last[_highest_active] = INVALID;
707
      }
708
      _level.set(i, ++_highest_active);
709
      if (_first[_highest_active] == INVALID) {
710
        _first[_highest_active] = i;
711
        _last[_highest_active] = i;
712
        _prev.set(i, INVALID);
713
        _next.set(i, INVALID);
714
      } else {
715
        _prev.set(_first[_highest_active], i);
716
        _next.set(i, _first[_highest_active]);
717
        _first[_highest_active] = i;
718
      }
719
    }
720

	
721
    ///Lift the highest active item.
722

	
723
    ///Lift the item returned by highestActive() to level \c new_level.
724
    ///
725
    ///\warning \c new_level must be strictly higher
726
    ///than the current level.
727
    ///
728
    void liftHighestActive(int new_level) {
729
      Item i = _first[_highest_active];
730
      if (_next[i] != INVALID) {
731
        _prev.set(_next[i], INVALID);
732
        _first[_highest_active] = _next[i];
733
      } else {
734
        _first[_highest_active] = INVALID;
735
        _last[_highest_active] = INVALID;
736
      }
737
      _level.set(i, _highest_active = new_level);
738
      if (_first[_highest_active] == INVALID) {
739
        _first[_highest_active] = _last[_highest_active] = i;
740
        _prev.set(i, INVALID);
741
        _next.set(i, INVALID);
742
      } else {
743
        _prev.set(_first[_highest_active], i);
744
        _next.set(i, _first[_highest_active]);
745
        _first[_highest_active] = i;
746
      }
747
    }
748

	
749
    ///Lift the highest active to top.
750

	
751
    ///Lift the item returned by highestActive() to the top level and
752
    ///deactivates the node.
753
    ///
754
    void liftHighestActiveToTop() {
755
      Item i = _first[_highest_active];
756
      _level.set(i, _max_level);
757
      if (_next[i] != INVALID) {
758
        _prev.set(_next[i], INVALID);
759
        _first[_highest_active] = _next[i];
760
      } else {
761
        _first[_highest_active] = INVALID;
762
        _last[_highest_active] = INVALID;
763
      }
764
      while (_highest_active >= 0 && activeFree(_highest_active))
765
        --_highest_active;
766
    }
767

	
768
    ///@}
769

	
770
    ///\name Active Item on Certain Level
771
    ///Functions for working with the active items.
772

	
773
    ///@{
774

	
775
    ///Returns an active item on level \c l.
776

	
777
    ///Returns an active item on level \c l.
778
    ///
779
    ///Returns an active item on level \c l or \ref INVALID if there is no such
780
    ///an item. (\c l must be from the range [0...\c max_level].
781
    Item activeOn(int l) const
782
    {
783
      return _active[_first[l]] ? _first[l] : INVALID;
784
    }
785

	
786
    ///Lifts the active item returned by \c activeOn() member function.
787

	
788
    ///Lifts the active item returned by \c activeOn() member function
789
    ///by one.
790
    Item liftActiveOn(int l)
791
    {
792
      Item i = _first[l];
793
      if (_next[i] != INVALID) {
794
        _prev.set(_next[i], INVALID);
795
        _first[l] = _next[i];
796
      } else {
797
        _first[l] = INVALID;
798
        _last[l] = INVALID;
799
      }
800
      _level.set(i, ++l);
801
      if (_first[l] == INVALID) {
802
        _first[l] = _last[l] = i;
803
        _prev.set(i, INVALID);
804
        _next.set(i, INVALID);
805
      } else {
806
        _prev.set(_first[l], i);
807
        _next.set(i, _first[l]);
808
        _first[l] = i;
809
      }
810
      if (_highest_active < l) {
811
        _highest_active = l;
812
      }
813
    }
814

	
815
    /// \brief Lifts the active item returned by \c activeOn() member function.
816
    ///
817
    /// Lifts the active item returned by \c activeOn() member function
818
    /// to the given level.
819
    void liftActiveOn(int l, int new_level)
820
    {
821
      Item i = _first[l];
822
      if (_next[i] != INVALID) {
823
        _prev.set(_next[i], INVALID);
824
        _first[l] = _next[i];
825
      } else {
826
        _first[l] = INVALID;
827
        _last[l] = INVALID;
828
      }
829
      _level.set(i, l = new_level);
830
      if (_first[l] == INVALID) {
831
        _first[l] = _last[l] = i;
832
        _prev.set(i, INVALID);
833
        _next.set(i, INVALID);
834
      } else {
835
        _prev.set(_first[l], i);
836
        _next.set(i, _first[l]);
837
        _first[l] = i;
838
      }
839
      if (_highest_active < l) {
840
        _highest_active = l;
841
      }
842
    }
843

	
844
    ///Lifts the active item returned by \c activeOn() member function.
845

	
846
    ///Lifts the active item returned by \c activeOn() member function
847
    ///to the top level.
848
    void liftActiveToTop(int l)
849
    {
850
      Item i = _first[l];
851
      if (_next[i] != INVALID) {
852
        _prev.set(_next[i], INVALID);
853
        _first[l] = _next[i];
854
      } else {
855
        _first[l] = INVALID;
856
        _last[l] = INVALID;
857
      }
858
      _level.set(i, _max_level);
859
      if (l == _highest_active) {
860
        while (_highest_active >= 0 && activeFree(_highest_active))
861
          --_highest_active;
862
      }
863
    }
864

	
865
    ///@}
866

	
867
    /// \brief Lift an active item to a higher level.
868
    ///
869
    /// Lift an active item to a higher level.
870
    /// \param i The item to be lifted. It must be active.
871
    /// \param new_level The new level of \c i. It must be strictly higher
872
    /// than the current level.
873
    ///
874
    void lift(Item i, int new_level) {
875
      if (_next[i] != INVALID) {
876
        _prev.set(_next[i], _prev[i]);
877
      } else {
878
        _last[new_level] = _prev[i];
879
      }
880
      if (_prev[i] != INVALID) {
881
        _next.set(_prev[i], _next[i]);
882
      } else {
883
        _first[new_level] = _next[i];
884
      }
885
      _level.set(i, new_level);
886
      if (_first[new_level] == INVALID) {
887
        _first[new_level] = _last[new_level] = i;
888
        _prev.set(i, INVALID);
889
        _next.set(i, INVALID);
890
      } else {
891
        _prev.set(_first[new_level], i);
892
        _next.set(i, _first[new_level]);
893
        _first[new_level] = i;
894
      }
895
      if (_highest_active < new_level) {
896
        _highest_active = new_level;
897
      }
898
    }
899

	
900
    ///Mark the node as it did not reach the max level
901

	
902
    ///Mark the node as it did not reach the max level. It sets the
903
    ///level to the under the max level value. The node will be never
904
    ///more activated because the push operation from the maximum
905
    ///level is forbidden in the push-relabel algorithms. The node
906
    ///should be lifted previously to the top level.
907
    void markToBottom(Item i) {
908
      _level.set(i, _max_level - 1);
909
    }
910

	
911
    ///Lift all nodes on and above a level to the top (and deactivate them).
912

	
913
    ///This function lifts all nodes on and above level \c l to \c
914
    ///maxLevel(), and also deactivates them.
915
    void liftToTop(int l)  {
916
      for (int i = l + 1; _first[i] != INVALID; ++i) {
917
        Item n = _first[i];
918
        while (n != INVALID) {
919
          _level.set(n, _max_level);
920
          n = _next[n];
921
        }
922
        _first[i] = INVALID;
923
        _last[i] = INVALID;
924
      }
925
      if (_highest_active > l - 1) {
926
        _highest_active = l - 1;
927
        while (_highest_active >= 0 && activeFree(_highest_active))
928
          --_highest_active;
929
      }
930
    }
931

	
932
  private:
933

	
934
    int _init_level;
935

	
936
  public:
937

	
938
    ///\name Initialization
939
    ///Using this function you can initialize the levels of the item.
940
    ///\n
941
    ///This initializatios is started with calling \c initStart().
942
    ///Then the
943
    ///items should be listed levels by levels statring with the lowest one
944
    ///(with level 0). This is done by using \c initAddItem()
945
    ///and \c initNewLevel(). Finally \c initFinish() must be called.
946
    ///The items not listed will be put on the highest level.
947
    ///@{
948

	
949
    ///Start the initialization process.
950

	
951
    void initStart() {
952

	
953
      for (int i = 0; i <= _max_level; ++i) {
954
        _first[i] = _last[i] = INVALID;
955
      }
956
      _init_level = 0;
957
      for(typename ItemSetTraits<Graph,Item>::ItemIt i(_graph);
958
          i != INVALID; ++i) {
959
        _level.set(i, _max_level);
960
        _active.set(i, false);
961
      }
962
    }
963

	
964
    ///Add an item to the current level.
965

	
966
    void initAddItem(Item i) {
967
      _level.set(i, _init_level);
968
      if (_last[_init_level] == INVALID) {
969
        _first[_init_level] = i;
970
        _last[_init_level] = i;
971
        _prev.set(i, INVALID);
972
        _next.set(i, INVALID);
973
      } else {
974
        _prev.set(i, _last[_init_level]);
975
        _next.set(i, INVALID);
976
        _next.set(_last[_init_level], i);
977
        _last[_init_level] = i;
978
      }
979
    }
980

	
981
    ///Start a new level.
982

	
983
    ///Start a new level.
984
    ///It shouldn't be used before the items on level 0 are listed.
985
    void initNewLevel() {
986
      ++_init_level;
987
    }
988

	
989
    ///Finalize the initialization process.
990

	
991
    void initFinish() {
992
      _highest_active = -1;
993
    }
994

	
995
    ///@}
996

	
997
  };
998

	
999

	
1000
} //END OF NAMESPACE LEMON
1001

	
1002
#endif
1003

	
Show white space 4 line context
... ...
@@ -28,4 +28,5 @@
28 28
        lemon/dijkstra.h \
29 29
        lemon/dim2.h \
30
	lemon/elevator.h \
30 31
	lemon/error.h \
31 32
	lemon/full_graph.h \
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