Scippy

SCIP

Solving Constraint Integer Programs

scip_reopt.c
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1/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
2/* */
3/* This file is part of the program and library */
4/* SCIP --- Solving Constraint Integer Programs */
5/* */
6/* Copyright (c) 2002-2024 Zuse Institute Berlin (ZIB) */
7/* */
8/* Licensed under the Apache License, Version 2.0 (the "License"); */
9/* you may not use this file except in compliance with the License. */
10/* You may obtain a copy of the License at */
11/* */
12/* http://www.apache.org/licenses/LICENSE-2.0 */
13/* */
14/* Unless required by applicable law or agreed to in writing, software */
15/* distributed under the License is distributed on an "AS IS" BASIS, */
16/* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. */
17/* See the License for the specific language governing permissions and */
18/* limitations under the License. */
19/* */
20/* You should have received a copy of the Apache-2.0 license */
21/* along with SCIP; see the file LICENSE. If not visit scipopt.org. */
22/* */
23/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
24
25/**@file scip_reopt.c
26 * @ingroup OTHER_CFILES
27 * @brief public methods for reoptimization
28 * @author Tobias Achterberg
29 * @author Timo Berthold
30 * @author Gerald Gamrath
31 * @author Leona Gottwald
32 * @author Stefan Heinz
33 * @author Gregor Hendel
34 * @author Thorsten Koch
35 * @author Alexander Martin
36 * @author Marc Pfetsch
37 * @author Michael Winkler
38 * @author Kati Wolter
39 *
40 * @todo check all SCIP_STAGE_* switches, and include the new stages TRANSFORMED and INITSOLVE
41 */
42
43/*---+----1----+----2----+----3----+----4----+----5----+----6----+----7----+----8----+----9----+----0----+----1----+----2*/
44
45#include "scip/debug.h"
46#include "scip/pub_message.h"
47#include "scip/pub_reopt.h"
48#include "scip/pub_tree.h"
49#include "scip/reopt.h"
50#include "scip/scip_mem.h"
51#include "scip/scip_reopt.h"
52#include "scip/scip_tree.h"
53#include "scip/struct_mem.h"
54#include "scip/struct_prob.h"
55#include "scip/struct_scip.h"
56#include "scip/struct_set.h"
57#include "scip/struct_stat.h"
58
59/** return the ids of child nodes stored in the reoptimization tree
60 *
61 * @return \ref SCIP_OKAY is returned if everything worked. Otherwise a suitable error code is passed. See \ref
62 * SCIP_Retcode "SCIP_RETCODE" for a complete list of error codes.
63 *
64 * @pre This method can be called if @p scip is in one of the following stages:
65 * - \ref SCIP_STAGE_PRESOLVED
66 * - \ref SCIP_STAGE_SOLVING
67 * - \ref SCIP_STAGE_SOLVED
68 */
70 SCIP* scip, /**< SCIP data structure */
71 SCIP_NODE* node, /**< node of the search tree */
72 unsigned int* ids, /**< array of ids */
73 int idssize, /**< allocated memory */
74 int* nids /**< number of child nodes */
75 )
76{
77 assert(scip != NULL);
78
79 SCIP_CALL( SCIPcheckStage(scip, "SCIPgetReoptChildIDs", FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE, FALSE, TRUE, TRUE, FALSE, FALSE, FALSE) );
80
81 (*nids) = 0;
82
83 if( !scip->set->reopt_enable )
84 return SCIP_OKAY;
85
86 SCIP_CALL( SCIPreoptGetChildIDs(scip->reopt, scip->set, scip->mem->probmem, node, ids, idssize, nids) );
87
88 return SCIP_OKAY;
89}
90
91/** return the ids of all leave nodes store in the reoptimization tree induced by the given node
92 *
93 * @return \ref SCIP_OKAY is returned if everything worked. Otherwise a suitable error code is passed. See \ref
94 * SCIP_Retcode "SCIP_RETCODE" for a complete list of error codes.
95 *
96 * @pre This method can be called if @p scip is in one of the following stages:
97 * - \ref SCIP_STAGE_PRESOLVED
98 * - \ref SCIP_STAGE_SOLVING
99 * - \ref SCIP_STAGE_SOLVED
100 */
102 SCIP* scip, /**< SCIP data structure */
103 SCIP_NODE* node, /**< node of the search tree */
104 unsigned int* ids, /**< array of ids */
105 int idssize, /**< size of ids array */
106 int* nids /**< number of child nodes */
107 )
108{
109 assert(scip != NULL);
110
111 SCIP_CALL( SCIPcheckStage(scip, "SCIPgetReoptLeaveIDs", FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE, FALSE, TRUE, TRUE, FALSE, FALSE, FALSE) );
112
113 (*nids) = 0;
114
115 if( idssize == 0 || !scip->set->reopt_enable )
116 return SCIP_OKAY;
117
118 SCIP_CALL( SCIPreoptGetLeaves(scip->reopt, node, ids, idssize, nids) );
119
120 return SCIP_OKAY;
121}
122
123/** returns the number of nodes in the reoptimization tree induced by @p node; if @p node == NULL the method
124 * returns the number of nodes of the whole reoptimization tree.
125 */
127 SCIP* scip, /**< SCIP data structure */
128 SCIP_NODE* node /**< node of the search tree */
129 )
130{
131 assert(scip != NULL);
132 assert(scip->set->reopt_enable);
133 assert(scip->reopt != NULL);
134
135 return SCIPreoptGetNNodes(scip->reopt, node);
136}
137
138/** returns the number of leaf nodes of the subtree induced by @p node; if @p node == NULL, the method
139 * returns the number of leaf nodes of the whole reoptimization tree.
140 */
142 SCIP* scip, /**< SCIP data structure */
143 SCIP_NODE* node /**< node of the search tree */
144 )
145{
146 assert(scip != NULL);
147 assert(scip->set->reopt_enable);
148 assert(scip->reopt != NULL);
149
150 return SCIPreoptGetNLeaves(scip->reopt, node);
151}
152
153/** gets the node of the reoptimization tree corresponding to the unique @p id */
155 SCIP* scip, /**< SCIP data structure */
156 unsigned int id /**< unique id */
157 )
158{
159 assert(scip != NULL);
160 assert(scip->set->reopt_enable);
161 assert(scip->reopt != NULL);
162
163 return SCIPreoptGetReoptnode(scip->reopt, id);
164}
165
166/** add a variable bound change to a given reoptnode
167 *
168 * @return \ref SCIP_OKAY is returned if everything worked. Otherwise a suitable error code is passed. See \ref
169 * SCIP_Retcode "SCIP_RETCODE" for a complete list of error codes.
170 *
171 * @pre This method can be called if @p scip is in one of the following stages:
172 * - \ref SCIP_STAGE_PRESOLVED
173 * - \ref SCIP_STAGE_SOLVING
174 * - \ref SCIP_STAGE_SOLVED
175 */
177 SCIP* scip, /**< SCIP data structure */
178 SCIP_REOPTNODE* reoptnode, /**< node of the reoptimization tree */
179 SCIP_VAR* var, /**< variable pointer */
180 SCIP_Real bound, /**< variable bound to add */
181 SCIP_BOUNDTYPE boundtype /**< bound type of the variable value */
182 )
183{
184 assert(scip != NULL);
185 assert(reoptnode != NULL);
186 assert(scip->set->reopt_enable);
187 assert(scip->reopt != NULL);
188
189 SCIP_CALL( SCIPcheckStage(scip, "SCIPaddReoptnodeBndchg", FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE, FALSE, TRUE, TRUE, FALSE, FALSE, FALSE) );
190
191 SCIP_CALL( SCIPreoptnodeAddBndchg(reoptnode, scip->set, scip->mem->probmem, var, bound, boundtype) );
192
193 return SCIP_OKAY;
194}
195
196/** set the @p representation as the new search frontier
197 *
198 * @return \ref SCIP_OKAY is returned if everything worked. Otherwise a suitable error code is passed. See \ref
199 * SCIP_Retcode "SCIP_RETCODE" for a complete list of error codes.
200 *
201 * @pre This method can be called if @p scip is in one of the following stages:
202 * - \ref SCIP_STAGE_PRESOLVED
203 */
205 SCIP* scip, /**< SCIP data structure */
206 SCIP_REOPTNODE** representation, /**< array of representatives */
207 int nrepresentatives, /**< number of representatives */
208 SCIP_Bool* success /**< pointer to store the result */
209 )
210{
211 assert(scip != NULL);
212 assert(representation != NULL);
213 assert(nrepresentatives > 0);
214 assert(scip->set->reopt_enable);
215 assert(scip->reopt != NULL);
216
217 SCIP_CALL( SCIPcheckStage(scip, "SCIPsetReoptCompression", FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE) );
218
219 SCIP_CALL( SCIPreoptApplyCompression(scip->reopt, scip->set, scip->mem->probmem, representation, nrepresentatives, success) );
220
221 return SCIP_OKAY;
222}
223
224/** add stored constraint to a reoptimization node
225 *
226 * @return \ref SCIP_OKAY is returned if everything worked. Otherwise a suitable error code is passed. See \ref
227 * SCIP_Retcode "SCIP_RETCODE" for a complete list of error codes.
228 *
229 * @pre This method can be called if @p scip is in one of the following stages:
230 * - \ref SCIP_STAGE_PRESOLVED
231 */
233 SCIP* scip, /**< SCIP data structure */
234 SCIP_REOPTNODE* reoptnode, /**< node of the reoptimization tree */
235 SCIP_VAR** vars, /**< array of variables */
236 SCIP_Real* vals, /**< array of variable bounds */
237 SCIP_BOUNDTYPE* boundtypes, /**< array of variable boundtypes */
238 SCIP_Real lhs, /**< lhs of the constraint */
239 SCIP_Real rhs, /**< rhs of the constraint */
240 int nvars, /**< number of variables */
241 REOPT_CONSTYPE constype, /**< type of the constraint */
242 SCIP_Bool linear /**< the given constraint has a linear representation */
243 )
244{
245 assert(scip != NULL);
246 assert(reoptnode != NULL);
247 assert(vars != NULL);
248 assert(vals != NULL);
249 assert(nvars >= 0);
250
251 SCIP_CALL( SCIPcheckStage(scip, "SCIPaddReoptnodeCons", FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE) );
252
253 SCIP_CALL( SCIPreoptnodeAddCons(reoptnode, scip->set, scip->mem->probmem, vars, vals, boundtypes, lhs, rhs, nvars,
254 constype, linear) );
255
256 return SCIP_OKAY;
257}
258
259/** return the branching path stored in the reoptree at ID id */
261 SCIP* scip, /**< SCIP data structure */
262 SCIP_REOPTNODE* reoptnode, /**< node of the reoptimization tree */
263 SCIP_VAR** vars, /**< array of variables */
264 SCIP_Real* vals, /**< array of variable bounds */
265 SCIP_BOUNDTYPE* boundtypes, /**< array of bound types */
266 int mem, /**< allocated memory */
267 int* nvars, /**< number of variables */
268 int* nafterdualvars /**< number of variables directly after the first based on dual information */
269 )
270{
271 assert(scip != NULL);
272 assert(vars != NULL);
273 assert(vals != NULL);
274 assert(boundtypes != NULL);
275 assert(scip->set->reopt_enable);
276 assert(scip->reopt != NULL);
277
278 SCIPreoptnodeGetPath(scip->reopt, reoptnode, vars, vals, boundtypes, mem, nvars, nafterdualvars);
279}
280
281/** initialize a set of empty reoptimization nodes
282 *
283 * @return \ref SCIP_OKAY is returned if everything worked. Otherwise a suitable error code is passed. See \ref
284 * SCIP_Retcode "SCIP_RETCODE" for a complete list of error codes.
285 *
286 * @pre This method can be called if @p scip is in one of the following stages:
287 * - \ref SCIP_STAGE_PRESOLVED
288 */
290 SCIP* scip, /**< SCIP data structure */
291 SCIP_REOPTNODE** representatives, /**< array of representatives */
292 int nrepresentatives /**< number of representatives */
293 )
294{
295 int r;
296
297 assert(scip != NULL);
298 assert(representatives != NULL);
299
300 SCIP_CALL( SCIPcheckStage(scip, "SCIPinitRepresentation", FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE) );
301
302 for( r = 0; r < nrepresentatives; r++ )
303 {
304 SCIP_CALL( SCIPallocBlockMemory(scip, &representatives[r]) ); /*lint !e866*/
305 SCIPreoptnodeInit(representatives[r], scip->set);
306 }
307
308 return SCIP_OKAY;
309}
310
311/** reset a set of initialized reoptimization nodes
312 *
313 * @return \ref SCIP_OKAY is returned if everything worked. Otherwise a suitable error code is passed. See \ref
314 * SCIP_Retcode "SCIP_RETCODE" for a complete list of error codes.
315 *
316 * @pre This method can be called if @p scip is in one of the following stages:
317 * - \ref SCIP_STAGE_PRESOLVED
318 */
320 SCIP* scip, /**< SCIP data structure */
321 SCIP_REOPTNODE** representatives, /**< array of representatives */
322 int nrepresentatives /**< number of representatives */
323 )
324{
325 int r;
326
327 assert(scip != NULL);
328 assert(representatives != NULL);
329
330 SCIP_CALL( SCIPcheckStage(scip, "SCIPresetRepresentation", FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE) );
331
332 for( r = 0; r < nrepresentatives; r++ )
333 {
334 SCIP_CALL( SCIPreoptnodeReset(scip->reopt, scip->set, scip->mem->probmem, representatives[r]) );
335 }
336
337 return SCIP_OKAY;
338}
339
340/** free a set of initialized reoptimization nodes
341 *
342 * @return \ref SCIP_OKAY is returned if everything worked. Otherwise a suitable error code is passed. See \ref
343 * SCIP_Retcode "SCIP_RETCODE" for a complete list of error codes.
344 *
345 * @pre This method can be called if @p scip is in one of the following stages:
346 * - \ref SCIP_STAGE_PRESOLVED
347 */
349 SCIP* scip, /**< SCIP data structure */
350 SCIP_REOPTNODE** representatives, /**< array of representatives */
351 int nrepresentatives /**< number of representatives */
352 )
353{
354 int r;
355
356 assert(scip != NULL);
357 assert(representatives != NULL);
358
359 SCIP_CALL( SCIPcheckStage(scip, "SCIPfreeRepresentation", FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE) );
360
361 for( r = 0; r < nrepresentatives; r++ )
362 {
363 if( representatives[r] != NULL )
364 {
365 SCIP_CALL( SCIPreoptnodeDelete(&representatives[r], scip->mem->probmem) );
366 assert(representatives[r] == NULL);
367 }
368 }
369
370 return SCIP_OKAY;
371}
372
373/** reactivate the given @p reoptnode and split them into several nodes if necessary
374 *
375 * @return \ref SCIP_OKAY is returned if everything worked. Otherwise a suitable error code is passed. See \ref
376 * SCIP_Retcode "SCIP_RETCODE" for a complete list of error codes.
377 *
378 * @pre This method can be called if @p scip is in one of the following stages:
379 * - \ref SCIP_STAGE_SOLVING
380 * - \ref SCIP_STAGE_SOLVED
381 */
383 SCIP* scip, /**< SCIP data structure */
384 SCIP_REOPTNODE* reoptnode, /**< node to reactivate */
385 unsigned int id, /**< unique id of the reoptimization node */
386 SCIP_Real estimate, /**< estimate of the child nodes that should be created */
387 SCIP_NODE** childnodes, /**< array to store the created child nodes */
388 int* ncreatedchilds, /**< pointer to store number of created child nodes */
389 int* naddedconss, /**< pointer to store number of generated constraints */
390 int childnodessize, /**< available size of childnodes array */
391 SCIP_Bool* success /**< pointer store the result*/
392 )
393{
394 assert(scip != NULL);
395 assert(reoptnode != NULL);
396
398
399 SCIP_CALL( SCIPreoptApply(scip->reopt, scip, scip->set, scip->stat, scip->transprob, scip->origprob, scip->tree,
400 scip->lp, scip->branchcand, scip->eventqueue, scip->cliquetable, scip->mem->probmem, reoptnode, id, estimate,
401 childnodes, ncreatedchilds, naddedconss, childnodessize, success) );
402
403 return SCIP_OKAY;
404}
405
406/** return the similarity between two objective functions */
408 SCIP* scip, /**< SCIP data structure */
409 int run1, /**< number of run */
410 int run2 /**< number of run */
411 )
412{
413 assert(scip != NULL);
414 assert(run1 > 0 && run1 <= scip->stat->nreoptruns);
415 assert(run2 > 0 && run2 <= scip->stat->nreoptruns);
416
417 if( (run1 == scip->stat->nreoptruns && run2 == run1-1) || (run2 == scip->stat->nreoptruns && run1 == run2-1) )
418 return SCIPreoptGetSimToPrevious(scip->reopt);
419 else
420 return SCIPreoptGetSimilarity(scip->reopt, scip->set, run1, run2, scip->origprob->vars, scip->origprob->nvars);
421}
422
423/** returns if a node should be reoptimized */
425 SCIP* scip, /**< SCIP data structure */
426 SCIP_NODE* node /**< node of the search tree */
427 )
428{
429 assert(scip != NULL);
430 assert(node != NULL);
431
432 if( scip->set->reopt_enable )
433 {
434 SCIP_REOPTNODE* reoptnode;
435 unsigned int id;
436
437 assert(scip->reopt != NULL);
438
439 id = SCIPnodeGetReoptID(node);
440
441 if( id == 0 && node != SCIPgetRootNode(scip) )
442 return FALSE;
443 else
444 {
445 reoptnode = SCIPgetReoptnode(scip, id);
446 assert(reoptnode != NULL);
447
448 return SCIPreoptnodeGetNChildren(reoptnode) > 0;
449 }
450 }
451 else
452 return FALSE;
453}
454
455/** deletes the given reoptimization node
456 *
457 * @return \ref SCIP_OKAY is returned if everything worked. Otherwise a suitable error code is passed. See \ref
458 * SCIP_Retcode "SCIP_RETCODE" for a complete list of error codes.
459 *
460 * @pre This method can be called if @p scip is in one of the following stages:
461 * - \ref SCIP_STAGE_TRANSFORMED
462 * - \ref SCIP_STAGE_SOLVING
463 */
465 SCIP* scip, /**< SCIP data structure */
466 SCIP_REOPTNODE** reoptnode /**< node of the reoptimization tree */
467 )
468{
469 assert(scip != NULL);
470 assert(scip->set->reopt_enable);
471 assert(scip->reopt != NULL);
472 assert((*reoptnode) != NULL);
473
475
476 SCIP_CALL( SCIPreoptnodeDelete(reoptnode, scip->mem->probmem) );
477
478 return SCIP_OKAY;
479}
480
481/** splits the root into several nodes and moves the child nodes of the root to one of the created nodes
482 *
483 * @return \ref SCIP_OKAY is returned if everything worked. Otherwise a suitable error code is passed. See \ref
484 * SCIP_Retcode "SCIP_RETCODE" for a complete list of error codes.
485 *
486 * @pre This method can be called if @p scip is in one of the following stages:
487 * - \ref SCIP_STAGE_SOLVING
488 */
490 SCIP* scip, /**< SCIP data structure */
491 int* ncreatedchilds, /**< pointer to store the number of created nodes */
492 int* naddedconss /**< pointer to store the number added constraints */
493 )
494{
495 assert(scip != NULL);
496 assert(scip->set->reopt_enable);
497 assert(scip->reopt != NULL);
498
500
501 SCIP_CALL( SCIPreoptSplitRoot(scip->reopt, scip->tree, scip->set, scip->stat, scip->mem->probmem, ncreatedchilds,
502 naddedconss) );
503
504 return SCIP_OKAY;
505}
506
507/** remove the stored information about bound changes based in dual information
508 *
509 * @return \ref SCIP_OKAY is returned if everything worked. Otherwise a suitable error code is passed. See \ref
510 * SCIP_Retcode "SCIP_RETCODE" for a complete list of error codes.
511 *
512 * @pre This method can be called if @p scip is in one of the following stages:
513 * - \ref SCIP_STAGE_SOLVING
514 * - \ref SCIP_STAGE_SOLVED
515 */
517 SCIP* scip, /**< SCIP data structure */
518 SCIP_NODE* node /**< node of the search tree */
519 )
520{
521 assert(scip != NULL);
522 assert(scip->set->reopt_enable);
523 assert(node != NULL);
524
525 SCIP_CALL( SCIPcheckStage(scip, "SCIPresetReoptnodeDualcons", FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE, TRUE, FALSE, FALSE, FALSE) );
526
527 SCIP_CALL( SCIPreoptResetDualBndchgs(scip->reopt, node, scip->mem->probmem) );
528
529 return SCIP_OKAY;
530}
static long bound
SCIP_Real * r
Definition: circlepacking.c:59
SCIP_RETCODE SCIPcheckStage(SCIP *scip, const char *method, SCIP_Bool init, SCIP_Bool problem, SCIP_Bool transforming, SCIP_Bool transformed, SCIP_Bool initpresolve, SCIP_Bool presolving, SCIP_Bool exitpresolve, SCIP_Bool presolved, SCIP_Bool initsolve, SCIP_Bool solving, SCIP_Bool solved, SCIP_Bool exitsolve, SCIP_Bool freetrans, SCIP_Bool freescip)
Definition: debug.c:2208
methods for debugging
#define NULL
Definition: def.h:266
#define SCIP_Bool
Definition: def.h:91
#define SCIP_Real
Definition: def.h:172
#define TRUE
Definition: def.h:93
#define FALSE
Definition: def.h:94
#define SCIP_CALL(x)
Definition: def.h:373
#define SCIPallocBlockMemory(scip, ptr)
Definition: scip_mem.h:89
unsigned int SCIPnodeGetReoptID(SCIP_NODE *node)
Definition: tree.c:7581
int SCIPgetNReoptnodes(SCIP *scip, SCIP_NODE *node)
Definition: scip_reopt.c:126
int SCIPgetNReoptLeaves(SCIP *scip, SCIP_NODE *node)
Definition: scip_reopt.c:141
SCIP_RETCODE SCIPaddReoptnodeBndchg(SCIP *scip, SCIP_REOPTNODE *reoptnode, SCIP_VAR *var, SCIP_Real bound, SCIP_BOUNDTYPE boundtype)
Definition: scip_reopt.c:176
SCIP_REOPTNODE * SCIPgetReoptnode(SCIP *scip, unsigned int id)
Definition: scip_reopt.c:154
SCIP_Bool SCIPreoptimizeNode(SCIP *scip, SCIP_NODE *node)
Definition: scip_reopt.c:424
SCIP_RETCODE SCIPinitRepresentation(SCIP *scip, SCIP_REOPTNODE **representatives, int nrepresentatives)
Definition: scip_reopt.c:289
SCIP_RETCODE SCIPdeleteReoptnode(SCIP *scip, SCIP_REOPTNODE **reoptnode)
Definition: scip_reopt.c:464
SCIP_RETCODE SCIPsetReoptCompression(SCIP *scip, SCIP_REOPTNODE **representation, int nrepresentatives, SCIP_Bool *success)
Definition: scip_reopt.c:204
SCIP_RETCODE SCIPgetReoptLeaveIDs(SCIP *scip, SCIP_NODE *node, unsigned int *ids, int idssize, int *nids)
Definition: scip_reopt.c:101
void SCIPgetReoptnodePath(SCIP *scip, SCIP_REOPTNODE *reoptnode, SCIP_VAR **vars, SCIP_Real *vals, SCIP_BOUNDTYPE *boundtypes, int mem, int *nvars, int *nafterdualvars)
Definition: scip_reopt.c:260
SCIP_RETCODE SCIPapplyReopt(SCIP *scip, SCIP_REOPTNODE *reoptnode, unsigned int id, SCIP_Real estimate, SCIP_NODE **childnodes, int *ncreatedchilds, int *naddedconss, int childnodessize, SCIP_Bool *success)
Definition: scip_reopt.c:382
SCIP_RETCODE SCIPaddReoptnodeCons(SCIP *scip, SCIP_REOPTNODE *reoptnode, SCIP_VAR **vars, SCIP_Real *vals, SCIP_BOUNDTYPE *boundtypes, SCIP_Real lhs, SCIP_Real rhs, int nvars, REOPT_CONSTYPE constype, SCIP_Bool linear)
Definition: scip_reopt.c:232
SCIP_RETCODE SCIPfreeRepresentation(SCIP *scip, SCIP_REOPTNODE **representatives, int nrepresentatives)
Definition: scip_reopt.c:348
SCIP_RETCODE SCIPresetRepresentation(SCIP *scip, SCIP_REOPTNODE **representatives, int nrepresentatives)
Definition: scip_reopt.c:319
SCIP_Real SCIPgetReoptSimilarity(SCIP *scip, int run1, int run2)
Definition: scip_reopt.c:407
SCIP_RETCODE SCIPresetReoptnodeDualcons(SCIP *scip, SCIP_NODE *node)
Definition: scip_reopt.c:516
SCIP_RETCODE SCIPsplitReoptRoot(SCIP *scip, int *ncreatedchilds, int *naddedconss)
Definition: scip_reopt.c:489
SCIP_RETCODE SCIPgetReoptChildIDs(SCIP *scip, SCIP_NODE *node, unsigned int *ids, int idssize, int *nids)
Definition: scip_reopt.c:69
SCIP_NODE * SCIPgetRootNode(SCIP *scip)
Definition: scip_tree.c:110
public methods for message output
public methods for reoptimization
int SCIPreoptnodeGetNChildren(SCIP_REOPTNODE *reoptnode)
Definition: reopt.c:5854
public methods for branch and bound tree
SCIP_RETCODE SCIPreoptnodeReset(SCIP_REOPT *reopt, SCIP_SET *set, BMS_BLKMEM *blkmem, SCIP_REOPTNODE *reoptnode)
Definition: reopt.c:7940
SCIP_RETCODE SCIPreoptnodeAddBndchg(SCIP_REOPTNODE *reoptnode, SCIP_SET *set, BMS_BLKMEM *blkmem, SCIP_VAR *var, SCIP_Real val, SCIP_BOUNDTYPE boundtype)
Definition: reopt.c:7972
SCIP_RETCODE SCIPreoptnodeAddCons(SCIP_REOPTNODE *reoptnode, SCIP_SET *set, BMS_BLKMEM *blkmem, SCIP_VAR **vars, SCIP_Real *bounds, SCIP_BOUNDTYPE *boundtypes, SCIP_Real lhs, SCIP_Real rhs, int nvars, REOPT_CONSTYPE constype, SCIP_Bool linear)
Definition: reopt.c:8000
SCIP_RETCODE SCIPreoptSplitRoot(SCIP_REOPT *reopt, SCIP_TREE *tree, SCIP_SET *set, SCIP_STAT *stat, BMS_BLKMEM *blkmem, int *ncreatedchilds, int *naddedconss)
Definition: reopt.c:6894
SCIP_RETCODE SCIPreoptResetDualBndchgs(SCIP_REOPT *reopt, SCIP_NODE *node, BMS_BLKMEM *blkmem)
Definition: reopt.c:7192
SCIP_RETCODE SCIPreoptApply(SCIP_REOPT *reopt, SCIP *scip, SCIP_SET *set, SCIP_STAT *stat, SCIP_PROB *transprob, SCIP_PROB *origprob, SCIP_TREE *tree, SCIP_LP *lp, SCIP_BRANCHCAND *branchcand, SCIP_EVENTQUEUE *eventqueue, SCIP_CLIQUETABLE *cliquetable, BMS_BLKMEM *blkmem, SCIP_REOPTNODE *reoptnode, unsigned int id, SCIP_Real estimate, SCIP_NODE **childnodes, int *ncreatedchilds, int *naddedconss, int childnodessize, SCIP_Bool *success)
Definition: reopt.c:7296
void SCIPreoptnodeGetPath(SCIP_REOPT *reopt, SCIP_REOPTNODE *reoptnode, SCIP_VAR **vars, SCIP_Real *vals, SCIP_BOUNDTYPE *boundtypes, int varssize, int *nbndchgs, int *nbndchgsafterdual)
Definition: reopt.c:7217
int SCIPreoptGetNNodes(SCIP_REOPT *reopt, SCIP_NODE *node)
Definition: reopt.c:5781
SCIP_RETCODE SCIPreoptnodeDelete(SCIP_REOPTNODE **reoptnode, BMS_BLKMEM *blkmem)
Definition: reopt.c:7958
SCIP_Real SCIPreoptGetSimilarity(SCIP_REOPT *reopt, SCIP_SET *set, int run1, int run2, SCIP_VAR **origvars, int norigvars)
Definition: reopt.c:5651
SCIP_RETCODE SCIPreoptGetLeaves(SCIP_REOPT *reopt, SCIP_NODE *node, unsigned int *leaves, int leavessize, int *nleaves)
Definition: reopt.c:6418
SCIP_REOPTNODE * SCIPreoptGetReoptnode(SCIP_REOPT *reopt, unsigned int id)
Definition: reopt.c:5684
SCIP_RETCODE SCIPreoptApplyCompression(SCIP_REOPT *reopt, SCIP_SET *set, BMS_BLKMEM *blkmem, SCIP_REOPTNODE **representatives, int nrepresentatives, SCIP_Bool *success)
Definition: reopt.c:6678
SCIP_Real SCIPreoptGetSimToPrevious(SCIP_REOPT *reopt)
Definition: reopt.c:5633
SCIP_RETCODE SCIPreoptGetChildIDs(SCIP_REOPT *reopt, SCIP_SET *set, BMS_BLKMEM *blkmem, SCIP_NODE *node, unsigned int *childs, int childssize, int *nchilds)
Definition: reopt.c:6367
void SCIPreoptnodeInit(SCIP_REOPTNODE *reoptnode, SCIP_SET *set)
Definition: reopt.c:7907
int SCIPreoptGetNLeaves(SCIP_REOPT *reopt, SCIP_NODE *node)
Definition: reopt.c:5931
data structures and methods for collecting reoptimization information
public methods for memory management
public methods for reoptimization
public methods for the branch-and-bound tree
datastructures for block memory pools and memory buffers
datastructures for storing and manipulating the main problem
SCIP main data structure.
datastructures for global SCIP settings
datastructures for problem statistics
enum SCIP_BoundType SCIP_BOUNDTYPE
Definition: type_lp.h:59
enum Reopt_ConsType REOPT_CONSTYPE
Definition: type_reopt.h:76
@ SCIP_OKAY
Definition: type_retcode.h:42
enum SCIP_Retcode SCIP_RETCODE
Definition: type_retcode.h:63