Dip  0.92.4
CoinSearchTree.hpp
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1 /* $Id: CoinSearchTree.hpp 2083 2019-01-06 19:38:09Z unxusr $ */
2 // Copyright (C) 2006, International Business Machines
3 // Corporation and others. All Rights Reserved.
4 // This code is licensed under the terms of the Eclipse Public License (EPL).
5 
6 #ifndef CoinSearchTree_H
7 #define CoinSearchTree_H
8 
9 #include <vector>
10 #include <algorithm>
11 #include <cmath>
12 #include <string>
13 
14 #include "CoinFinite.hpp"
15 #include "CoinHelperFunctions.hpp"
16 
17 // #define DEBUG_PRINT
18 
19 //#############################################################################
20 
21 class BitVector128 {
22  friend bool operator<(const BitVector128 &b0, const BitVector128 &b1);
23 
24 private:
25  unsigned int bits_[4];
26 
27 public:
28  BitVector128();
29  BitVector128(unsigned int bits[4]);
30  ~BitVector128() {}
31  void set(unsigned int bits[4]);
32  void setBit(int i);
33  void clearBit(int i);
34  std::string str() const;
35 };
36 
37 bool operator<(const BitVector128 &b0, const BitVector128 &b1);
38 
39 //#############################################################################
40 
44 class CoinTreeNode {
45 protected:
46  CoinTreeNode()
47  : depth_(-1)
48  , fractionality_(-1)
49  , quality_(-COIN_DBL_MAX)
50  , true_lower_bound_(-COIN_DBL_MAX)
51  , preferred_()
52  {
53  }
54  CoinTreeNode(int d,
55  int f = -1,
56  double q = -COIN_DBL_MAX,
57  double tlb = -COIN_DBL_MAX,
58  BitVector128 p = BitVector128())
59  : depth_(d)
60  , fractionality_(f)
61  , quality_(q)
62  , true_lower_bound_(tlb)
63  , preferred_(p)
64  {
65  }
66  CoinTreeNode(const CoinTreeNode &x)
67  : depth_(x.depth_)
68  , fractionality_(x.fractionality_)
69  , quality_(x.quality_)
70  , true_lower_bound_(x.true_lower_bound_)
71  , preferred_(x.preferred_)
72  {
73  }
74  CoinTreeNode &operator=(const CoinTreeNode &x)
75  {
76  if (this != &x) {
77  depth_ = x.depth_;
78  fractionality_ = x.fractionality_;
79  quality_ = x.quality_;
80  true_lower_bound_ = x.true_lower_bound_;
81  preferred_ = x.preferred_;
82  }
83  return *this;
84  }
85 
86 private:
88  int depth_;
91  int fractionality_;
95  double quality_;
99  double true_lower_bound_;
101  BitVector128 preferred_;
102 
103 public:
104  virtual ~CoinTreeNode() {}
105 
106  inline int getDepth() const { return depth_; }
107  inline int getFractionality() const { return fractionality_; }
108  inline double getQuality() const { return quality_; }
109  inline double getTrueLB() const { return true_lower_bound_; }
110  inline BitVector128 getPreferred() const { return preferred_; }
111 
112  inline void setDepth(int d) { depth_ = d; }
113  inline void setFractionality(int f) { fractionality_ = f; }
114  inline void setQuality(double q) { quality_ = q; }
115  inline void setTrueLB(double tlb) { true_lower_bound_ = tlb; }
116  inline void setPreferred(BitVector128 p) { preferred_ = p; }
117 };
118 
119 //==============================================================================
120 
121 class CoinTreeSiblings {
122 private:
123  CoinTreeSiblings();
124  CoinTreeSiblings &operator=(const CoinTreeSiblings &);
125 
126 private:
127  int current_;
128  int numSiblings_;
129  CoinTreeNode **siblings_;
130 
131 public:
132  CoinTreeSiblings(const int n, CoinTreeNode **nodes)
133  : current_(0)
134  , numSiblings_(n)
135  , siblings_(new CoinTreeNode *[n])
136  {
137  CoinDisjointCopyN(nodes, n, siblings_);
138  }
139  CoinTreeSiblings(const CoinTreeSiblings &s)
140  : current_(s.current_)
141  , numSiblings_(s.numSiblings_)
142  , siblings_(new CoinTreeNode *[s.numSiblings_])
143  {
144  CoinDisjointCopyN(s.siblings_, s.numSiblings_, siblings_);
145  }
146  ~CoinTreeSiblings() { delete[] siblings_; }
147  inline CoinTreeNode *currentNode() const { return siblings_[current_]; }
149  inline bool advanceNode() { return ++current_ != numSiblings_; }
150  inline int toProcess() const { return numSiblings_ - current_; }
151  inline int size() const { return numSiblings_; }
152  inline void printPref() const
153  {
154  for (int i = 0; i < numSiblings_; ++i) {
155  std::string pref = siblings_[i]->getPreferred().str();
156  printf("prefs of sibligs: sibling[%i]: %s\n", i, pref.c_str());
157  }
158  }
159 };
160 
161 //#############################################################################
162 
168 struct CoinSearchTreeComparePreferred {
169  static inline const char *name() { return "CoinSearchTreeComparePreferred"; }
170  inline bool operator()(const CoinTreeSiblings *x,
171  const CoinTreeSiblings *y) const
172  {
173  const CoinTreeNode *xNode = x->currentNode();
174  const CoinTreeNode *yNode = y->currentNode();
175  const BitVector128 xPref = xNode->getPreferred();
176  const BitVector128 yPref = yNode->getPreferred();
177  bool retval = true;
178  if (xPref < yPref) {
179  retval = true;
180  } else if (yPref < xPref) {
181  retval = false;
182  } else {
183  retval = xNode->getQuality() < yNode->getQuality();
184  }
185 #ifdef DEBUG_PRINT
186  printf("Comparing xpref (%s) and ypref (%s) : %s\n",
187  xpref.str().c_str(), ypref.str().c_str(), retval ? "T" : "F");
188 #endif
189  return retval;
190  }
191 };
192 
193 //-----------------------------------------------------------------------------
195 struct CoinSearchTreeCompareDepth {
196  static inline const char *name() { return "CoinSearchTreeCompareDepth"; }
197  inline bool operator()(const CoinTreeSiblings *x,
198  const CoinTreeSiblings *y) const
199  {
200 #if 1
201  return x->currentNode()->getDepth() >= y->currentNode()->getDepth();
202 #else
203  if (x->currentNode()->getDepth() > y->currentNode()->getDepth())
204  return 1;
205  if (x->currentNode()->getDepth() == y->currentNode()->getDepth() && x->currentNode()->getQuality() <= y->currentNode()->getQuality())
206  return 1;
207  return 0;
208 #endif
209  }
210 };
211 
212 //-----------------------------------------------------------------------------
213 /* Breadth First Search */
214 struct CoinSearchTreeCompareBreadth {
215  static inline const char *name() { return "CoinSearchTreeCompareBreadth"; }
216  inline bool operator()(const CoinTreeSiblings *x,
217  const CoinTreeSiblings *y) const
218  {
219  return x->currentNode()->getDepth() < y->currentNode()->getDepth();
220  }
221 };
222 
223 //-----------------------------------------------------------------------------
225 struct CoinSearchTreeCompareBest {
226  static inline const char *name() { return "CoinSearchTreeCompareBest"; }
227  inline bool operator()(const CoinTreeSiblings *x,
228  const CoinTreeSiblings *y) const
229  {
230  return x->currentNode()->getQuality() < y->currentNode()->getQuality();
231  }
232 };
233 
234 //#############################################################################
235 
236 class CoinSearchTreeBase {
237 private:
238  CoinSearchTreeBase(const CoinSearchTreeBase &);
239  CoinSearchTreeBase &operator=(const CoinSearchTreeBase &);
240 
241 protected:
242  std::vector< CoinTreeSiblings * > candidateList_;
243  int numInserted_;
244  int size_;
245 
246 protected:
247  CoinSearchTreeBase()
248  : candidateList_()
249  , numInserted_(0)
250  , size_(0)
251  {
252  }
253 
254  virtual void realpop() = 0;
255  virtual void realpush(CoinTreeSiblings *s) = 0;
256  virtual void fixTop() = 0;
257 
258 public:
259  virtual ~CoinSearchTreeBase() {}
260  virtual const char *compName() const = 0;
261 
262  inline const std::vector< CoinTreeSiblings * > &getCandidates() const
263  {
264  return candidateList_;
265  }
266  inline bool empty() const { return candidateList_.empty(); }
267  inline int size() const { return size_; }
268  inline int numInserted() const { return numInserted_; }
269  inline CoinTreeNode *top() const
270  {
271  if (size_ == 0 || candidateList_.size() == 0)
272  return NULL;
273 #ifdef DEBUG_PRINT
274  char output[44];
275  output[43] = 0;
276  candidateList_.front()->currentNode()->getPreferred().print(output);
277  printf("top's pref: %s\n", output);
278 #endif
279  return candidateList_.front()->currentNode();
280  }
284  inline void pop()
285  {
286  CoinTreeSiblings *s = candidateList_.front();
287  if (!s->advanceNode()) {
288  realpop();
289  delete s;
290  } else {
291  fixTop();
292  }
293  --size_;
294  }
295  inline void push(int numNodes, CoinTreeNode **nodes,
296  const bool incrInserted = true)
297  {
298  CoinTreeSiblings *s = new CoinTreeSiblings(numNodes, nodes);
299  realpush(s);
300  if (incrInserted) {
301  numInserted_ += numNodes;
302  }
303  size_ += numNodes;
304  }
305  inline void push(const CoinTreeSiblings &sib,
306  const bool incrInserted = true)
307  {
308  CoinTreeSiblings *s = new CoinTreeSiblings(sib);
309 #ifdef DEBUG_PRINT
310  s->printPref();
311 #endif
312  realpush(s);
313  if (incrInserted) {
314  numInserted_ += sib.toProcess();
315  }
316  size_ += sib.toProcess();
317  }
318 };
319 
320 //#############################################################################
321 
322 // #define CAN_TRUST_STL_HEAP
323 #ifdef CAN_TRUST_STL_HEAP
324 
325 template < class Comp >
326 class CoinSearchTree : public CoinSearchTreeBase {
327 private:
328  Comp comp_;
329 
330 protected:
331  virtual void realpop()
332  {
333  candidateList_.pop_back();
334  }
335  virtual void fixTop()
336  {
337  CoinTreeSiblings *s = top();
338  realpop();
339  push(s, false);
340  }
341  virtual void realpush(CoinTreeSiblings *s)
342  {
343  nodes_.push_back(s);
344  std::push_heap(candidateList_.begin(), candidateList_.end(), comp_);
345  }
346 
347 public:
348  CoinSearchTree()
349  : CoinSearchTreeBase()
350  , comp_()
351  {
352  }
353  CoinSearchTree(const CoinSearchTreeBase &t)
354  : CoinSearchTreeBase()
355  , comp_()
356  {
357  candidateList_ = t.getCandidates();
358  std::make_heap(candidateList_.begin(), candidateList_.end(), comp_);
359  numInserted_ = t.numInserted_;
360  size_ = t.size_;
361  }
362  ~CoinSearchTree() {}
363  const char *compName() const { return Comp::name(); }
364 };
365 
366 #else
367 
368 template < class Comp >
369 class CoinSearchTree : public CoinSearchTreeBase {
370 private:
371  Comp comp_;
372 
373 protected:
374  virtual void realpop()
375  {
376  candidateList_[0] = candidateList_.back();
377  candidateList_.pop_back();
378  fixTop();
379  }
381  virtual void fixTop()
382  {
383  const size_t size = candidateList_.size();
384  if (size > 1) {
385  CoinTreeSiblings **candidates = &candidateList_[0];
386  CoinTreeSiblings *s = candidates[0];
387  --candidates;
388  size_t pos = 1;
389  size_t ch;
390  for (ch = 2; ch < size; pos = ch, ch *= 2) {
391  if (comp_(candidates[ch + 1], candidates[ch]))
392  ++ch;
393  if (comp_(s, candidates[ch]))
394  break;
395  candidates[pos] = candidates[ch];
396  }
397  if (ch == size) {
398  if (comp_(candidates[ch], s)) {
399  candidates[pos] = candidates[ch];
400  pos = ch;
401  }
402  }
403  candidates[pos] = s;
404  }
405  }
406  virtual void realpush(CoinTreeSiblings *s)
407  {
408  candidateList_.push_back(s);
409  CoinTreeSiblings **candidates = &candidateList_[0];
410  --candidates;
411  size_t pos = candidateList_.size();
412  size_t ch;
413  for (ch = pos / 2; ch != 0; pos = ch, ch /= 2) {
414  if (comp_(candidates[ch], s))
415  break;
416  candidates[pos] = candidates[ch];
417  }
418  candidates[pos] = s;
419  }
420 
421 public:
422  CoinSearchTree()
423  : CoinSearchTreeBase()
424  , comp_()
425  {
426  }
427  CoinSearchTree(const CoinSearchTreeBase &t)
428  : CoinSearchTreeBase()
429  , comp_()
430  {
431  candidateList_ = t.getCandidates();
432  std::sort(candidateList_.begin(), candidateList_.end(), comp_);
433  numInserted_ = t.numInserted();
434  size_ = t.size();
435  }
436  virtual ~CoinSearchTree() {}
437  const char *compName() const { return Comp::name(); }
438 };
439 
440 #endif
441 
442 //#############################################################################
443 
444 enum CoinNodeAction {
445  CoinAddNodeToCandidates,
446  CoinTestNodeForDiving,
447  CoinDiveIntoNode
448 };
449 
450 class CoinSearchTreeManager {
451 private:
452  CoinSearchTreeManager(const CoinSearchTreeManager &);
453  CoinSearchTreeManager &operator=(const CoinSearchTreeManager &);
454 
455 private:
456  CoinSearchTreeBase *candidates_;
457  int numSolution;
460  bool hasUB_;
461 
463  bool recentlyReevaluatedSearchStrategy_;
464 
465 public:
466  CoinSearchTreeManager()
467  : candidates_(NULL)
468  , numSolution(0)
469  , recentlyReevaluatedSearchStrategy_(true)
470  {
471  }
472  virtual ~CoinSearchTreeManager()
473  {
474  delete candidates_;
475  }
476 
477  inline void setTree(CoinSearchTreeBase *t)
478  {
479  delete candidates_;
480  candidates_ = t;
481  }
482  inline CoinSearchTreeBase *getTree() const
483  {
484  return candidates_;
485  }
486 
487  inline bool empty() const { return candidates_->empty(); }
488  inline size_t size() const { return candidates_->size(); }
489  inline size_t numInserted() const { return candidates_->numInserted(); }
490  inline CoinTreeNode *top() const { return candidates_->top(); }
491  inline void pop() { candidates_->pop(); }
492  inline void push(CoinTreeNode *node, const bool incrInserted = true)
493  {
494  candidates_->push(1, &node, incrInserted);
495  }
496  inline void push(const CoinTreeSiblings &s, const bool incrInserted = true)
497  {
498  candidates_->push(s, incrInserted);
499  }
500  inline void push(const int n, CoinTreeNode **nodes,
501  const bool incrInserted = true)
502  {
503  candidates_->push(n, nodes, incrInserted);
504  }
505 
506  inline CoinTreeNode *bestQualityCandidate() const
507  {
508  return candidates_->top();
509  }
510  inline double bestQuality() const
511  {
512  return candidates_->top()->getQuality();
513  }
514  void newSolution(double solValue);
515  void reevaluateSearchStrategy();
516 };
517 
518 //#############################################################################
519 
520 #endif
521 
522 /* vi: softtabstop=2 shiftwidth=2 expandtab tabstop=2
523 */
CoinSearchTreeManager::recentlyReevaluatedSearchStrategy_
bool recentlyReevaluatedSearchStrategy_
variable used to test whether we need to reevaluate search strategy
Definition: CoinSearchTree.hpp:463
CoinSearchTreeManager::hasUB_
bool hasUB_
Whether there is an upper bound or not.
Definition: CoinSearchTree.hpp:460
CoinSearchTreeManager::bestQuality
double bestQuality() const
Definition: CoinSearchTree.hpp:510
CoinSearchTreeBase::top
CoinTreeNode * top() const
Definition: CoinSearchTree.hpp:269
CoinSearchTreeBase::operator=
CoinSearchTreeBase & operator=(const CoinSearchTreeBase &)
CoinSearchTreeBase::~CoinSearchTreeBase
virtual ~CoinSearchTreeBase()
Definition: CoinSearchTree.hpp:259
BitVector128::clearBit
void clearBit(int i)
CoinDiveIntoNode
Definition: CoinSearchTree.hpp:447
CoinTreeNode::getDepth
int getDepth() const
Definition: CoinSearchTree.hpp:106
CoinTreeSiblings::operator=
CoinTreeSiblings & operator=(const CoinTreeSiblings &)
CoinTreeNode::CoinTreeNode
CoinTreeNode(int d, int f=-1, double q=-COIN_DBL_MAX, double tlb=-COIN_DBL_MAX, BitVector128 p=BitVector128())
Definition: CoinSearchTree.hpp:54
CoinTreeNode::preferred_
BitVector128 preferred_
Definition: CoinSearchTree.hpp:101
operator<
bool operator<(const BitVector128 &b0, const BitVector128 &b1)
CoinSearchTreeManager::numInserted
size_t numInserted() const
Definition: CoinSearchTree.hpp:489
CoinFinite.hpp
BitVector128::bits_
unsigned int bits_[4]
Definition: CoinSearchTree.hpp:25
CoinTestNodeForDiving
Definition: CoinSearchTree.hpp:446
CoinSearchTreeManager::top
CoinTreeNode * top() const
Definition: CoinSearchTree.hpp:490
CoinHelperFunctions.hpp
BitVector128::operator<
friend bool operator<(const BitVector128 &b0, const BitVector128 &b1)
CoinTreeNode::setQuality
void setQuality(double q)
Definition: CoinSearchTree.hpp:114
CoinSearchTreeComparePreferred::operator()
bool operator()(const CoinTreeSiblings *x, const CoinTreeSiblings *y) const
Definition: CoinSearchTree.hpp:170
CoinAddNodeToCandidates
Definition: CoinSearchTree.hpp:445
CoinTreeNode::CoinTreeNode
CoinTreeNode(const CoinTreeNode &x)
Definition: CoinSearchTree.hpp:66
CoinSearchTree::~CoinSearchTree
virtual ~CoinSearchTree()
Definition: CoinSearchTree.hpp:436
CoinSearchTree::realpop
virtual void realpop()
Definition: CoinSearchTree.hpp:374
CoinTreeNode::setTrueLB
void setTrueLB(double tlb)
Definition: CoinSearchTree.hpp:115
CoinTreeSiblings::printPref
void printPref() const
Definition: CoinSearchTree.hpp:152
CoinSearchTreeBase::realpush
virtual void realpush(CoinTreeSiblings *s)=0
CoinSearchTreeCompareBreadth::name
static const char * name()
Definition: CoinSearchTree.hpp:215
CoinTreeNode::getPreferred
BitVector128 getPreferred() const
Definition: CoinSearchTree.hpp:110
CoinTreeNode::fractionality_
int fractionality_
A measure of fractionality, e.g., the number of unsatisfied integrality requirements.
Definition: CoinSearchTree.hpp:91
CoinSearchTreeBase::pop
void pop()
pop will advance the next pointer among the siblings on the top and then moves the top to its correct...
Definition: CoinSearchTree.hpp:284
CoinSearchTreeManager::operator=
CoinSearchTreeManager & operator=(const CoinSearchTreeManager &)
CoinTreeNode::setFractionality
void setFractionality(int f)
Definition: CoinSearchTree.hpp:113
CoinSearchTreeManager::bestQualityCandidate
CoinTreeNode * bestQualityCandidate() const
Definition: CoinSearchTree.hpp:506
CoinSearchTreeCompareDepth::name
static const char * name()
Definition: CoinSearchTree.hpp:196
BitVector128::set
void set(unsigned int bits[4])
CoinTreeNode::getFractionality
int getFractionality() const
Definition: CoinSearchTree.hpp:107
BitVector128::setBit
void setBit(int i)
CoinTreeNode::setDepth
void setDepth(int d)
Definition: CoinSearchTree.hpp:112
CoinTreeNode::true_lower_bound_
double true_lower_bound_
A true lower bound on the node.
Definition: CoinSearchTree.hpp:99
CoinSearchTreeBase::getCandidates
const std::vector< CoinTreeSiblings * > & getCandidates() const
Definition: CoinSearchTree.hpp:262
CoinSearchTreeManager::setTree
void setTree(CoinSearchTreeBase *t)
Definition: CoinSearchTree.hpp:477
CoinSearchTreeBase::push
void push(int numNodes, CoinTreeNode **nodes, const bool incrInserted=true)
Definition: CoinSearchTree.hpp:295
CoinSearchTreeCompareBreadth::operator()
bool operator()(const CoinTreeSiblings *x, const CoinTreeSiblings *y) const
Definition: CoinSearchTree.hpp:216
CoinTreeSiblings::CoinTreeSiblings
CoinTreeSiblings(const int n, CoinTreeNode **nodes)
Definition: CoinSearchTree.hpp:132
CoinSearchTreeCompareDepth
Depth First Search.
Definition: CoinSearchTree.hpp:195
CoinSearchTreeManager::push
void push(CoinTreeNode *node, const bool incrInserted=true)
Definition: CoinSearchTree.hpp:492
COIN_DBL_MAX
const double COIN_DBL_MAX
Definition: CoinFinite.hpp:18
CoinSearchTreeBase::fixTop
virtual void fixTop()=0
CoinTreeNode::~CoinTreeNode
virtual ~CoinTreeNode()
Definition: CoinSearchTree.hpp:104
CoinTreeNode::getTrueLB
double getTrueLB() const
Definition: CoinSearchTree.hpp:109
CoinSearchTree::compName
const char * compName() const
Definition: CoinSearchTree.hpp:437
CoinTreeSiblings::advanceNode
bool advanceNode()
returns false if cannot be advanced
Definition: CoinSearchTree.hpp:149
CoinTreeSiblings::toProcess
int toProcess() const
Definition: CoinSearchTree.hpp:150
CoinTreeNode
A class from which the real tree nodes should be derived from.
Definition: CoinSearchTree.hpp:44
CoinSearchTreeBase::numInserted
int numInserted() const
Definition: CoinSearchTree.hpp:268
CoinSearchTreeManager::getTree
CoinSearchTreeBase * getTree() const
Definition: CoinSearchTree.hpp:482
CoinSearchTreeCompareDepth::operator()
bool operator()(const CoinTreeSiblings *x, const CoinTreeSiblings *y) const
Definition: CoinSearchTree.hpp:197
CoinSearchTreeBase::candidateList_
std::vector< CoinTreeSiblings * > candidateList_
Definition: CoinSearchTree.hpp:242
CoinSearchTree::realpush
virtual void realpush(CoinTreeSiblings *s)
Definition: CoinSearchTree.hpp:406
CoinSearchTreeCompareBest::name
static const char * name()
Definition: CoinSearchTree.hpp:226
CoinNodeAction
CoinNodeAction
Definition: CoinSearchTree.hpp:444
CoinTreeSiblings::CoinTreeSiblings
CoinTreeSiblings(const CoinTreeSiblings &s)
Definition: CoinSearchTree.hpp:139
CoinSearchTreeBase::compName
virtual const char * compName() const =0
CoinTreeSiblings::siblings_
CoinTreeNode ** siblings_
Definition: CoinSearchTree.hpp:129
CoinSearchTree::CoinSearchTree
CoinSearchTree(const CoinSearchTreeBase &t)
Definition: CoinSearchTree.hpp:427
CoinSearchTreeManager::push
void push(const CoinTreeSiblings &s, const bool incrInserted=true)
Definition: CoinSearchTree.hpp:496
CoinSearchTreeBase::push
void push(const CoinTreeSiblings &sib, const bool incrInserted=true)
Definition: CoinSearchTree.hpp:305
CoinTreeNode::getQuality
double getQuality() const
Definition: CoinSearchTree.hpp:108
CoinTreeNode::operator=
CoinTreeNode & operator=(const CoinTreeNode &x)
Definition: CoinSearchTree.hpp:74
CoinTreeNode::depth_
int depth_
The depth of the node in the tree.
Definition: CoinSearchTree.hpp:88
CoinSearchTreeManager::push
void push(const int n, CoinTreeNode **nodes, const bool incrInserted=true)
Definition: CoinSearchTree.hpp:500
CoinTreeNode::quality_
double quality_
Some quality for the node.
Definition: CoinSearchTree.hpp:95
CoinSearchTreeCompareBest::operator()
bool operator()(const CoinTreeSiblings *x, const CoinTreeSiblings *y) const
Definition: CoinSearchTree.hpp:227
CoinDisjointCopyN
void CoinDisjointCopyN(const T *from, const CoinBigIndex size, T *to)
This helper function copies an array to another location.
Definition: CoinHelperFunctions.hpp:138
CoinSearchTreeComparePreferred
Function objects to compare search tree nodes.
Definition: CoinSearchTree.hpp:168
BitVector128::str
std::string str() const
CoinTreeNode::setPreferred
void setPreferred(BitVector128 p)
Definition: CoinSearchTree.hpp:116
CoinSearchTree::fixTop
virtual void fixTop()
After changing data in the top node, fix the heap.
Definition: CoinSearchTree.hpp:381
CoinSearchTreeBase::realpop
virtual void realpop()=0
CoinSearchTreeManager::candidates_
CoinSearchTreeBase * candidates_
Definition: CoinSearchTree.hpp:456
CoinTreeSiblings::currentNode
CoinTreeNode * currentNode() const
Definition: CoinSearchTree.hpp:147
CoinSearchTreeManager::newSolution
void newSolution(double solValue)
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