Scippy

SCIP

Solving Constraint Integer Programs

cons.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 cons.c
26 * @ingroup OTHER_CFILES
27 * @brief methods for constraints and constraint handlers
28 * @author Tobias Achterberg
29 * @author Timo Berthold
30 */
31
32/*---+----1----+----2----+----3----+----4----+----5----+----6----+----7----+----8----+----9----+----0----+----1----+----2*/
33
34#include <assert.h>
35
36#include "scip/def.h"
37#include "scip/set.h"
38#include "scip/stat.h"
39#include "scip/clock.h"
40#include "scip/var.h"
41#include "scip/prob.h"
42#include "scip/tree.h"
43#include "scip/scip.h"
44#include "scip/sepastore.h"
45#include "scip/cons.h"
46#include "scip/branch.h"
47#include "scip/reopt.h"
48#include "scip/pub_misc.h"
49
50#ifndef NDEBUG
51#include "scip/struct_cons.h"
52#endif
53
54
55#define AGERESETAVG_INIT 1000.0 /**< initial value of the exponentially decaying weighted sum for ages */
56#define AGERESETAVG_MIN 100.0 /**< minimal value to use for weighted sum of ages */
57#define AGERESETAVG_DECAY 0.0005 /**< weight of a new addend in the exponentially decyaing sum */
58#define AGERESETAVG_AGELIMIT 2.0 /**< in dynamic setting, a constraint is deleted if its age exceeds the
59 * average reset age by this factor */
60#define AGERESETAVG_OBSOLETEAGE 1.8 /**< in dynamic setting, a constraint is marked obsolete if its age exceeds the
61 * average reset age by this factor */
62
63
64/* #define CHECKCONSARRAYS */
65
66
67/*
68 * dynamic memory arrays
69 */
70
71
72/** resizes conss array to be able to store at least num constraints */
73static
75 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
76 SCIP_SET* set, /**< global SCIP settings */
77 int num /**< minimal number of slots in array */
78 )
79{
80 assert(conshdlr != NULL);
81 assert(set != NULL);
82
83 if( num > conshdlr->consssize )
84 {
85 int newsize;
86
87 newsize = SCIPsetCalcMemGrowSize(set, num);
88 SCIP_ALLOC( BMSreallocMemoryArray(&conshdlr->conss, newsize) );
89 conshdlr->consssize = newsize;
90 }
91 assert(num <= conshdlr->consssize);
92
93 return SCIP_OKAY;
94}
95
96/** resizes initconss array to be able to store at least num constraints */
97static
99 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
100 SCIP_SET* set, /**< global SCIP settings */
101 int num /**< minimal number of slots in array */
102 )
103{
104 assert(conshdlr != NULL);
105 assert(set != NULL);
106
107 if( num > conshdlr->initconsssize )
108 {
109 int newsize;
110
111 newsize = SCIPsetCalcMemGrowSize(set, num);
112 SCIP_ALLOC( BMSreallocMemoryArray(&conshdlr->initconss, newsize) );
113 conshdlr->initconsssize = newsize;
114 }
115 assert(num <= conshdlr->initconsssize);
116
117 return SCIP_OKAY;
118}
119
120/** resizes sepaconss array to be able to store at least num constraints */
121static
123 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
124 SCIP_SET* set, /**< global SCIP settings */
125 int num /**< minimal number of slots in array */
126 )
127{
128 assert(conshdlr != NULL);
129 assert(set != NULL);
130
131 if( num > conshdlr->sepaconsssize )
132 {
133 int newsize;
134
135 newsize = SCIPsetCalcMemGrowSize(set, num);
136 SCIP_ALLOC( BMSreallocMemoryArray(&conshdlr->sepaconss, newsize) );
137 conshdlr->sepaconsssize = newsize;
138 }
139 assert(num <= conshdlr->sepaconsssize);
140
141 return SCIP_OKAY;
142}
143
144/** resizes enfoconss array to be able to store at least num constraints */
145static
147 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
148 SCIP_SET* set, /**< global SCIP settings */
149 int num /**< minimal number of slots in array */
150 )
151{
152 assert(conshdlr != NULL);
153 assert(set != NULL);
154
155 if( num > conshdlr->enfoconsssize )
156 {
157 int newsize;
158
159 newsize = SCIPsetCalcMemGrowSize(set, num);
160 SCIP_ALLOC( BMSreallocMemoryArray(&conshdlr->enfoconss, newsize) );
161 conshdlr->enfoconsssize = newsize;
162 }
163 assert(num <= conshdlr->enfoconsssize);
164
165 return SCIP_OKAY;
166}
167
168/** resizes checkconss array to be able to store at least num constraints */
169static
171 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
172 SCIP_SET* set, /**< global SCIP settings */
173 int num /**< minimal number of slots in array */
174 )
175{
176 assert(conshdlr != NULL);
177 assert(set != NULL);
178
179 if( num > conshdlr->checkconsssize )
180 {
181 int newsize;
182
183 newsize = SCIPsetCalcMemGrowSize(set, num);
184 SCIP_ALLOC( BMSreallocMemoryArray(&conshdlr->checkconss, newsize) );
185 conshdlr->checkconsssize = newsize;
186 }
187 assert(num <= conshdlr->checkconsssize);
188
189 return SCIP_OKAY;
190}
191
192/** resizes propconss array to be able to store at least num constraints */
193static
195 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
196 SCIP_SET* set, /**< global SCIP settings */
197 int num /**< minimal number of slots in array */
198 )
199{
200 assert(conshdlr != NULL);
201 assert(set != NULL);
202
203 if( num > conshdlr->propconsssize )
204 {
205 int newsize;
206
207 newsize = SCIPsetCalcMemGrowSize(set, num);
208 SCIP_ALLOC( BMSreallocMemoryArray(&conshdlr->propconss, newsize) );
209 conshdlr->propconsssize = newsize;
210 }
211 assert(num <= conshdlr->propconsssize);
212
213 return SCIP_OKAY;
214}
215
216/** resizes updateconss array to be able to store at least num constraints */
217static
219 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
220 SCIP_SET* set, /**< global SCIP settings */
221 int num /**< minimal number of slots in array */
222 )
223{
224 assert(conshdlr != NULL);
225 assert(set != NULL);
226
227 if( num > conshdlr->updateconsssize )
228 {
229 int newsize;
230
231 newsize = SCIPsetCalcMemGrowSize(set, num);
232 SCIP_ALLOC( BMSreallocMemoryArray(&conshdlr->updateconss, newsize) );
233 conshdlr->updateconsssize = newsize;
234 }
235 assert(num <= conshdlr->updateconsssize);
236
237 return SCIP_OKAY;
238}
239
240
241
242
243/*
244 * Constraint handler methods
245 */
246
247#define checkConssArrays(conshdlr) /**/
248#ifndef NDEBUG
249#ifdef CHECKCONSARRAYS
250#undef checkConssArrays
251/** sanity check for the constraint arrays of the constraint handler (only in debug mode) */
252static
254 SCIP_CONSHDLR* conshdlr /**< constraint handler */
255 )
256{
257 int c;
258
259 assert(conshdlr != NULL);
260 assert(0 <= conshdlr->nactiveconss && conshdlr->nactiveconss <= conshdlr->nconss);
261
262 for( c = 0; c < conshdlr->nconss; ++c )
263 {
264 assert(conshdlr->conss[c] != NULL);
265 assert(!conshdlr->conss[c]->original);
266 assert(conshdlr->conss[c]->active == (c < conshdlr->nactiveconss));
267 assert(conshdlr->conss[c]->consspos == c);
268 }
269
270 for( c = 0; c < conshdlr->ninitconss; ++c )
271 {
272 assert(conshdlr->initconss[c] != NULL);
273 assert(!conshdlr->initconss[c]->original);
274 assert(c < conshdlr->ninitconsskept || conshdlr->initconss[c]->active);
275 assert(conshdlr->initconss[c]->initial);
276 }
277
278 for( c = 0; c < conshdlr->nsepaconss; ++c )
279 {
280 assert(conshdlr->sepaconss[c] != NULL);
281 assert(!conshdlr->sepaconss[c]->original);
282 assert(conshdlr->sepaconss[c]->active);
283 assert(conshdlr->sepaconss[c]->separate);
284 assert(conshdlr->sepaconss[c]->sepaenabled);
285 assert(conshdlr->sepaconss[c]->obsolete == (c >= conshdlr->nusefulsepaconss));
286 }
287
288 for( c = 0; c < conshdlr->nenfoconss; ++c )
289 {
290 assert(conshdlr->enfoconss[c] != NULL);
291 assert(!conshdlr->enfoconss[c]->original);
292 assert(conshdlr->enfoconss[c]->active);
293 assert(conshdlr->enfoconss[c]->enforce);
294 assert(conshdlr->enfoconss[c]->obsolete == (c >= conshdlr->nusefulenfoconss));
295 }
296
297 for( c = 0; c < conshdlr->ncheckconss; ++c )
298 {
299 assert(conshdlr->checkconss[c] != NULL);
300 assert(!conshdlr->checkconss[c]->original);
301 assert(conshdlr->checkconss[c]->active);
302 assert(conshdlr->checkconss[c]->check);
303 assert(conshdlr->checkconss[c]->obsolete == (c >= conshdlr->nusefulcheckconss));
304 }
305
306 for( c = 0; c < conshdlr->npropconss; ++c )
307 {
308 assert(conshdlr->propconss[c] != NULL);
309 assert(!conshdlr->propconss[c]->original);
310 assert(conshdlr->propconss[c]->active);
311 assert(conshdlr->propconss[c]->propagate);
312 assert(conshdlr->propconss[c]->propenabled);
313 assert(conshdlr->propconss[c]->markpropagate == (c < conshdlr->nmarkedpropconss));
314 assert(conshdlr->propconss[c]->markpropagate || (conshdlr->propconss[c]->obsolete == (c >= conshdlr->nusefulpropconss)));
315 }
316 assert(conshdlr->nmarkedpropconss <= conshdlr->npropconss);
317}
318#endif
319#endif
320
321/** returns whether the constraint updates of the constraint handler are currently delayed */
322static
324 SCIP_CONSHDLR* conshdlr /**< constraint handler */
325 )
326{
327 return (conshdlr->delayupdatecount > 0);
328}
329
330/** returns the exponentially decaying weighted age average for age resets */
331static
333 SCIP_CONSHDLR* conshdlr /**< constraint handler */
334 )
335{
336 assert(conshdlr != NULL);
337
338 return MAX(conshdlr->ageresetavg, AGERESETAVG_MIN);
339}
340
341/** updates the exponentially decaying weighted age average for age resets after a constraint age was reset */
342static
344 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
345 SCIP_Real age /**< age of the constraint that is reset to zero */
346 )
347{
348 assert(conshdlr != NULL);
349
350 conshdlr->ageresetavg *= (1.0-AGERESETAVG_DECAY);
351 conshdlr->ageresetavg += AGERESETAVG_DECAY * age;
352}
353
354/** returns whether the constraint's age exceeds the age limit */
355static
357 SCIP_CONS* cons, /**< constraint to check */
358 SCIP_SET* set /**< global SCIP settings */
359 )
360{
361 assert(cons != NULL);
362 assert(set != NULL);
363
364 return (cons->dynamic
365 && ((set->cons_agelimit > 0 && cons->age > set->cons_agelimit)
366 || (set->cons_agelimit == 0 && cons->age > AGERESETAVG_AGELIMIT * conshdlrGetAgeresetavg(cons->conshdlr))));
367}
368
369/** returns whether the constraint's age exceeds the obsolete age limit */
370static
372 SCIP_CONS* cons, /**< constraint to check */
373 SCIP_SET* set /**< global SCIP settings */
374 )
375{
376 assert(cons != NULL);
377 assert(set != NULL);
378
379 return (cons->dynamic
380 && ((set->cons_obsoleteage > 0 && cons->age > set->cons_obsoleteage)
381 || (set->cons_obsoleteage == 0 && cons->age > AGERESETAVG_OBSOLETEAGE * conshdlrGetAgeresetavg(cons->conshdlr))));
382}
383
384/** marks constraint to be obsolete; it will be moved to the last part of the constraint arrays, such that
385 * it is checked, enforced, separated, and propagated after the useful constraints
386 */
387static
389 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
390 SCIP_CONS* cons /**< constraint to be marked obsolete */
391 )
392{
393 SCIP_CONS* tmpcons;
394
395 assert(conshdlr != NULL);
396 assert(conshdlr->nusefulsepaconss <= conshdlr->nsepaconss);
397 assert(conshdlr->nusefulenfoconss <= conshdlr->nenfoconss);
398 assert(conshdlr->nusefulcheckconss <= conshdlr->ncheckconss);
399 assert(conshdlr->nusefulpropconss <= conshdlr->npropconss);
400 assert(cons != NULL);
401 assert(!cons->original);
402 assert(!cons->obsolete);
403 assert(!conshdlrAreUpdatesDelayed(conshdlr));
404
405 cons->obsolete = TRUE;
406
407 if( cons->active )
408 {
409 if( cons->check )
410 {
411 assert(0 <= cons->checkconsspos && cons->checkconsspos < conshdlr->nusefulcheckconss);
412
413 /* switch the last useful (non-obsolete) check constraint with this constraint */
414 tmpcons = conshdlr->checkconss[conshdlr->nusefulcheckconss-1];
415 assert(tmpcons->checkconsspos == conshdlr->nusefulcheckconss-1);
416
417 conshdlr->checkconss[conshdlr->nusefulcheckconss-1] = cons;
418 conshdlr->checkconss[cons->checkconsspos] = tmpcons;
419 tmpcons->checkconsspos = cons->checkconsspos;
420 cons->checkconsspos = conshdlr->nusefulcheckconss-1;
421
422 conshdlr->nusefulcheckconss--;
423 }
424 }
425 if( cons->enabled )
426 {
427 if( cons->separate && cons->sepaenabled )
428 {
429 assert(0 <= cons->sepaconsspos && cons->sepaconsspos < conshdlr->nusefulsepaconss);
430
431 if( cons->sepaconsspos < conshdlr->lastnusefulsepaconss )
432 conshdlr->lastnusefulsepaconss--;
433
434 /* switch the last useful (non-obsolete) sepa constraint with this constraint */
435 tmpcons = conshdlr->sepaconss[conshdlr->nusefulsepaconss-1];
436 assert(tmpcons->sepaconsspos == conshdlr->nusefulsepaconss-1);
437
438 conshdlr->sepaconss[conshdlr->nusefulsepaconss-1] = cons;
439 conshdlr->sepaconss[cons->sepaconsspos] = tmpcons;
440 tmpcons->sepaconsspos = cons->sepaconsspos;
441 cons->sepaconsspos = conshdlr->nusefulsepaconss-1;
442
443 conshdlr->nusefulsepaconss--;
444 }
445 if( cons->enforce )
446 {
447 assert(0 <= cons->enfoconsspos && cons->enfoconsspos < conshdlr->nusefulenfoconss);
448
449 if( cons->enfoconsspos < conshdlr->lastnusefulenfoconss )
450 conshdlr->lastnusefulenfoconss--;
451 else
452 {
453 /* the constraint that becomes obsolete is not yet enforced on the current solution:
454 * we have to make sure that it will be enforced the next time; this is not done, if the current
455 * solution was already enforced and only enforcement on the additional constraints is performed
456 * (because in this case, only the new useful constraints are enforced);
457 * thus, we have to reset the enforcement counters in order to enforce all constraints again, especially
458 * the now obsolete one;
459 * this case should occur almost never, because a constraint that was not enforced in the last enforcement
460 * is a newly added one, and it is very unlikely that this constraint will become obsolete before the next
461 * enforcement call;
462 * this reset is not performed for separation and propagation, because they are not vital for correctness
463 */
464 conshdlr->lastenfolplpcount = -1;
465 conshdlr->lastenfolpdomchgcount = -1;
466 conshdlr->lastenfopsdomchgcount = -1;
467 conshdlr->lastenforelaxdomchgcount = -1;
468 conshdlr->lastenforelaxrelaxcount = -1;
469 conshdlr->lastenfolpnode = -1;
470 conshdlr->lastenfopsnode = -1;
471 }
472
473 /* switch the last useful (non-obsolete) enfo constraint with this constraint */
474 tmpcons = conshdlr->enfoconss[conshdlr->nusefulenfoconss-1];
475 assert(tmpcons->enfoconsspos == conshdlr->nusefulenfoconss-1);
476
477 conshdlr->enfoconss[conshdlr->nusefulenfoconss-1] = cons;
478 conshdlr->enfoconss[cons->enfoconsspos] = tmpcons;
479 tmpcons->enfoconsspos = cons->enfoconsspos;
480 cons->enfoconsspos = conshdlr->nusefulenfoconss-1;
481
482 conshdlr->nusefulenfoconss--;
483 }
484 /* in case the constraint is marked to be propagated, we do not move it in the propconss array since the first
485 * part of the array contains all marked constraints independently of their age
486 */
487 assert((!cons->markpropagate) == (cons->propconsspos < conshdlr->nmarkedpropconss));
488 if( cons->propagate && cons->propenabled && !cons->markpropagate )
489 {
490 assert(0 <= cons->propconsspos && cons->propconsspos < conshdlr->nusefulpropconss);
491
492 if( cons->propconsspos < conshdlr->lastnusefulpropconss )
493 conshdlr->lastnusefulpropconss--;
494
495 /* switch the last useful (non-obsolete) prop constraint with this constraint */
496 tmpcons = conshdlr->propconss[conshdlr->nusefulpropconss-1];
497 assert(tmpcons->propconsspos == conshdlr->nusefulpropconss-1);
498
499 conshdlr->propconss[conshdlr->nusefulpropconss-1] = cons;
500 conshdlr->propconss[cons->propconsspos] = tmpcons;
501 tmpcons->propconsspos = cons->propconsspos;
502 cons->propconsspos = conshdlr->nusefulpropconss-1;
503
504 conshdlr->nusefulpropconss--;
505 }
506 }
507
508 checkConssArrays(conshdlr);
509
510 return SCIP_OKAY;
511}
512
513/** marks obsolete constraint to be not obsolete anymore;
514 * it will be moved to the first part of the constraint arrays, such that it is checked, enforced, separated,
515 * and propagated before the obsolete constraints
516 */
517static
519 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
520 SCIP_CONS* cons /**< constraint to be marked obsolete */
521 )
522{
523 SCIP_CONS* tmpcons;
524
525 assert(conshdlr != NULL);
526 assert(conshdlr->nusefulsepaconss <= conshdlr->nsepaconss);
527 assert(conshdlr->nusefulenfoconss <= conshdlr->nenfoconss);
528 assert(conshdlr->nusefulcheckconss <= conshdlr->ncheckconss);
529 assert(conshdlr->nusefulpropconss <= conshdlr->npropconss);
530 assert(cons != NULL);
531 assert(!cons->original);
532 assert(cons->obsolete);
533 assert(!conshdlrAreUpdatesDelayed(conshdlr));
534
535 cons->obsolete = FALSE;
536
537 if( cons->active )
538 {
539 if( cons->check )
540 {
541 assert(conshdlr->nusefulcheckconss <= cons->checkconsspos && cons->checkconsspos < conshdlr->ncheckconss);
542
543 /* switch the first obsolete check constraint with this constraint */
544 tmpcons = conshdlr->checkconss[conshdlr->nusefulcheckconss];
545 assert(tmpcons->checkconsspos == conshdlr->nusefulcheckconss);
546
547 conshdlr->checkconss[conshdlr->nusefulcheckconss] = cons;
548 conshdlr->checkconss[cons->checkconsspos] = tmpcons;
549 tmpcons->checkconsspos = cons->checkconsspos;
550 cons->checkconsspos = conshdlr->nusefulcheckconss;
551
552 conshdlr->nusefulcheckconss++;
553 }
554 }
555 if( cons->enabled )
556 {
557 if( cons->separate && cons->sepaenabled )
558 {
559 assert(conshdlr->nusefulsepaconss <= cons->sepaconsspos && cons->sepaconsspos < conshdlr->nsepaconss);
560
561 /* switch the first obsolete sepa constraint with this constraint */
562 tmpcons = conshdlr->sepaconss[conshdlr->nusefulsepaconss];
563 assert(tmpcons->sepaconsspos == conshdlr->nusefulsepaconss);
564
565 conshdlr->sepaconss[conshdlr->nusefulsepaconss] = cons;
566 conshdlr->sepaconss[cons->sepaconsspos] = tmpcons;
567 tmpcons->sepaconsspos = cons->sepaconsspos;
568 cons->sepaconsspos = conshdlr->nusefulsepaconss;
569
570 conshdlr->nusefulsepaconss++;
571 }
572 if( cons->enforce )
573 {
574 assert(conshdlr->nusefulenfoconss <= cons->enfoconsspos && cons->enfoconsspos < conshdlr->nenfoconss);
575
576 /* switch the first obsolete enfo constraint with this constraint */
577 tmpcons = conshdlr->enfoconss[conshdlr->nusefulenfoconss];
578 assert(tmpcons->enfoconsspos == conshdlr->nusefulenfoconss);
579
580 conshdlr->enfoconss[conshdlr->nusefulenfoconss] = cons;
581 conshdlr->enfoconss[cons->enfoconsspos] = tmpcons;
582 tmpcons->enfoconsspos = cons->enfoconsspos;
583 cons->enfoconsspos = conshdlr->nusefulenfoconss;
584
585 conshdlr->nusefulenfoconss++;
586 }
587 /* in case the constraint is marked to be propagated, we do not move it in the propconss array since the first
588 * part of the array contains all marked constraints independently of their age
589 */
590 assert((!cons->markpropagate) == (cons->propconsspos < conshdlr->nmarkedpropconss));
591 if( cons->propagate && cons->propenabled && !cons->markpropagate)
592 {
593 assert(conshdlr->nusefulpropconss <= cons->propconsspos && cons->propconsspos < conshdlr->npropconss);
594
595 /* switch the first obsolete prop constraint with this constraint */
596 tmpcons = conshdlr->propconss[conshdlr->nusefulpropconss];
597 assert(tmpcons->propconsspos == conshdlr->nusefulpropconss);
598
599 conshdlr->propconss[conshdlr->nusefulpropconss] = cons;
600 conshdlr->propconss[cons->propconsspos] = tmpcons;
601 tmpcons->propconsspos = cons->propconsspos;
602 cons->propconsspos = conshdlr->nusefulpropconss;
603
604 conshdlr->nusefulpropconss++;
605 }
606 }
607
608 checkConssArrays(conshdlr);
609
610 return SCIP_OKAY;
611}
612
613/** marks constraint to be propagated in the next propagation round;
614 *
615 * @note the propagation array is divided into three parts in contrast to the other constraint arrays;
616 * the first part contains constraints which were marked to be propagated (independently of its age)
617 * the second part contains the useful (non-obsolete) constraints which are not marked to be propagated
618 * finally, the third part contains obsolete constraints which are not marked to be propagated
619 *
620 * @note if a constraint gets marked for propagation we put it into the first part regardless of its age
621 */
622static
624 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
625 SCIP_CONS* cons /**< constraint to be marked obsolete */
626 )
627{
628 SCIP_CONS* tmpcons;
629
630 assert(conshdlr != NULL);
631 assert(conshdlr->nmarkedpropconss <= conshdlr->nusefulpropconss);
632 assert(conshdlr->nusefulpropconss <= conshdlr->npropconss);
633 assert(cons != NULL);
634 assert(!cons->original);
635
636 /* it may happen that the constraint is deleted while updates are delayed: in this case we just return */
637 if( !cons->enabled )
638 return;
639
640 if( cons->markpropagate )
641 return;
642
643 cons->markpropagate = TRUE;
644
645 /* propagation of the constraint is globally or locally disabled, so we do not have to move the constraint in the
646 * propconss array
647 */
648 if( !cons->propagate || !cons->propenabled )
649 {
650 assert(cons->propconsspos == -1);
651 return;
652 }
653 assert(cons->propconsspos >= conshdlr->nmarkedpropconss);
654
655 /* if the constraint is obsolete, we need to move it first to the non-obsolete part of the array */
656 if( cons->obsolete )
657 {
658 assert(conshdlr->nusefulpropconss <= cons->propconsspos && cons->propconsspos < conshdlr->npropconss);
659
660 /* switch the first obsolete prop constraint with this constraint */
661 tmpcons = conshdlr->propconss[conshdlr->nusefulpropconss];
662 assert(tmpcons->propconsspos == conshdlr->nusefulpropconss);
663
664 conshdlr->propconss[conshdlr->nusefulpropconss] = cons;
665 conshdlr->propconss[cons->propconsspos] = tmpcons;
666 tmpcons->propconsspos = cons->propconsspos;
667 cons->propconsspos = conshdlr->nusefulpropconss;
668
669 conshdlr->nusefulpropconss++;
670 }
671 assert(conshdlr->nmarkedpropconss <= cons->propconsspos && cons->propconsspos < conshdlr->nusefulpropconss);
672
673 /* switch the first useful prop constraint with this constraint */
674 tmpcons = conshdlr->propconss[conshdlr->nmarkedpropconss];
675 assert(tmpcons->propconsspos == conshdlr->nmarkedpropconss);
676
677 conshdlr->propconss[conshdlr->nmarkedpropconss] = cons;
678 conshdlr->propconss[cons->propconsspos] = tmpcons;
679 tmpcons->propconsspos = cons->propconsspos;
680 cons->propconsspos = conshdlr->nmarkedpropconss;
681
682 conshdlr->nmarkedpropconss++;
683 assert(conshdlr->nmarkedpropconss <= conshdlr->npropconss);
684
685 checkConssArrays(conshdlr);
686}
687
688/** unmarks constraint to be propagated in the next propagation round;
689 *
690 * @note the propagation array is divided into three parts in contrast to the other constraint arrays;
691 * the first part contains constraints which were marked to be propagated (independently of its age)
692 * the second part contains the useful (non-obsolete) constraints which are not marked to be propagated
693 * finally, the third part contains obsolete constraints which are not marked to be propagated
694 *
695 * @note if a constraint gets unmarked for propagation, it is put into the right part depending on its age
696 */
697static
699 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
700 SCIP_CONS* cons /**< constraint to be marked obsolete */
701 )
702{
703 SCIP_CONS* tmpcons;
704
705 assert(conshdlr != NULL);
706 assert(conshdlr->nmarkedpropconss <= conshdlr->nusefulpropconss);
707 assert(conshdlr->nusefulpropconss <= conshdlr->npropconss);
708 assert(cons != NULL);
709 assert(!cons->original);
710
711 /* it may happen that the constraint is deleted while updates are delayed: in this case we just return */
712 if( !cons->enabled )
713 return;
714
715 if( !cons->markpropagate )
716 return;
717
718 cons->markpropagate = FALSE;
719
720 /* propagation of the constraint is globally or locally disabled, so we do not have to move the constraint in the
721 * propconss array
722 */
723 if( !cons->propagate || !cons->propenabled )
724 {
725 assert(cons->propconsspos == -1);
726 return;
727 }
728 assert(cons->propconsspos >= 0);
729 assert(cons->propconsspos < conshdlr->nmarkedpropconss);
730
731 /* first, move the constraint out of the first part to the second part of the constraint array */
732 if( cons->propconsspos < conshdlr->nmarkedpropconss - 1 )
733 {
734 conshdlr->nmarkedpropconss--;
735
736 /* switch the last marked prop constraint with this constraint */
737 tmpcons = conshdlr->propconss[conshdlr->nmarkedpropconss];
738 assert(tmpcons->propconsspos == conshdlr->nmarkedpropconss);
739
740 conshdlr->propconss[conshdlr->nmarkedpropconss] = cons;
741 conshdlr->propconss[cons->propconsspos] = tmpcons;
742 tmpcons->propconsspos = cons->propconsspos;
743 cons->propconsspos = conshdlr->nmarkedpropconss;
744 }
745 else if( cons->propconsspos == conshdlr->nmarkedpropconss - 1 )
746 conshdlr->nmarkedpropconss--;
747 assert(cons->propconsspos == conshdlr->nmarkedpropconss);
748
749 /* if the constraint is obsolete, move it to the last part of the constraint array */
750 if( cons->obsolete )
751 {
752 conshdlr->nusefulpropconss--;
753
754 /* switch the last useful prop constraint with this constraint */
755 tmpcons = conshdlr->propconss[conshdlr->nusefulpropconss];
756 assert(tmpcons->propconsspos == conshdlr->nusefulpropconss);
757
758 conshdlr->propconss[conshdlr->nusefulpropconss] = cons;
759 conshdlr->propconss[cons->propconsspos] = tmpcons;
760 tmpcons->propconsspos = cons->propconsspos;
761 cons->propconsspos = conshdlr->nusefulpropconss;
762 }
763
764 checkConssArrays(conshdlr);
765}
766
767
768/** adds constraint to the conss array of constraint handler */
769static
771 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
772 SCIP_SET* set, /**< global SCIP settings */
773 SCIP_CONS* cons /**< constraint to add */
774 )
775{
776 assert(conshdlr != NULL);
777 assert(cons != NULL);
778 assert(cons->conshdlr == conshdlr);
779 assert(!cons->original);
780 assert(!cons->active);
781 assert(cons->consspos == -1);
782 assert(set != NULL);
783 assert(cons->scip == set->scip);
784
785 /* insert the constraint as inactive constraint into the transformed constraints array */
786 SCIP_CALL( conshdlrEnsureConssMem(conshdlr, set, conshdlr->nconss+1) );
787 conshdlr->conss[conshdlr->nconss] = cons;
788 cons->consspos = conshdlr->nconss;
789 conshdlr->nconss++;
790
791 return SCIP_OKAY;
792}
793
794/** deletes constraint from the conss array of constraint handler */
795static
797 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
798 SCIP_CONS* cons /**< constraint to remove */
799 )
800{
801 assert(conshdlr != NULL);
802 assert(cons != NULL);
803 assert(cons->conshdlr == conshdlr);
804 assert(!cons->original);
805 assert(!cons->active);
806 assert(conshdlr->nactiveconss <= cons->consspos && cons->consspos < conshdlr->nconss);
807
808 conshdlr->conss[cons->consspos] = conshdlr->conss[conshdlr->nconss-1];
809 conshdlr->conss[cons->consspos]->consspos = cons->consspos;
810 conshdlr->nconss--;
811 cons->consspos = -1;
812}
813
814/** adds constraint to the initconss array of constraint handler */
815static
817 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
818 SCIP_SET* set, /**< global SCIP settings */
819 SCIP_STAT* stat, /**< dynamic problem statistics */
820 SCIP_CONS* cons /**< constraint to add */
821 )
822{
823 int insertpos;
824
825 assert(conshdlr != NULL);
826 assert(cons != NULL);
827 assert(cons->conshdlr == conshdlr);
828 assert(!cons->original);
829 assert(cons->active);
830 assert(cons->initial);
831 assert(cons->initconsspos == -1 || cons->initconsspos < conshdlr->ninitconsskept);
832
833 SCIP_CALL( conshdlrEnsureInitconssMem(conshdlr, set, conshdlr->ninitconss+1) );
834
835 insertpos = conshdlr->ninitconss;
836
837 conshdlr->initconss[insertpos] = cons;
838 conshdlr->ninitconss++;
839 stat->ninitconssadded++;
840
841 /* if the constraint is kept, we keep the stored position at the beginning of the array */
842 if( cons->initconsspos == -1 )
843 cons->initconsspos = insertpos;
844
845 checkConssArrays(conshdlr);
846
847 return SCIP_OKAY;
848}
849
850/** deletes constraint from the initconss array of constraint handler */
851static
853 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
854 SCIP_CONS* cons /**< constraint to remove */
855 )
856{
857 int delpos;
858
859 assert(conshdlr != NULL);
860 assert(cons != NULL);
861 assert(cons->conshdlr == conshdlr);
862 assert(!cons->original);
863 assert(0 <= cons->initconsspos && cons->initconsspos < conshdlr->ninitconss);
864
865 delpos = cons->initconsspos;
866 if( delpos < conshdlr->ninitconsskept )
867 {
868 conshdlr->ninitconsskept--;
869 conshdlr->initconss[delpos] = conshdlr->initconss[conshdlr->ninitconsskept];
870 conshdlr->initconss[delpos]->initconsspos = delpos;
871 delpos = conshdlr->ninitconsskept;
872 }
873
874 if( delpos < conshdlr->ninitconss-1 )
875 {
876 conshdlr->initconss[delpos] = conshdlr->initconss[conshdlr->ninitconss-1];
877 conshdlr->initconss[delpos]->initconsspos = delpos;
878 }
879 conshdlr->ninitconss--;
880 cons->initconsspos = -1;
881
882 checkConssArrays(conshdlr);
883}
884
885/** adds constraint to the sepaconss array of constraint handler */
886static
888 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
889 SCIP_SET* set, /**< global SCIP settings */
890 SCIP_CONS* cons /**< constraint to add */
891 )
892{
893 int insertpos;
894
895 assert(conshdlr != NULL);
896 assert(conshdlr->nusefulsepaconss <= conshdlr->nsepaconss);
897 assert(cons != NULL);
898 assert(cons->conshdlr == conshdlr);
899 assert(!cons->original);
900 assert(cons->active);
901 assert(cons->separate);
902 assert(cons->sepaenabled);
903 assert(cons->sepaconsspos == -1);
904 assert(set != NULL);
905 assert(cons->scip == set->scip);
906 assert(!conshdlrAreUpdatesDelayed(conshdlr) || !conshdlr->duringsepa);
907
908 SCIP_CALL( conshdlrEnsureSepaconssMem(conshdlr, set, conshdlr->nsepaconss+1) );
909 insertpos = conshdlr->nsepaconss;
910 if( !cons->obsolete )
911 {
912 if( conshdlr->nusefulsepaconss < conshdlr->nsepaconss )
913 {
914 conshdlr->sepaconss[conshdlr->nsepaconss] = conshdlr->sepaconss[conshdlr->nusefulsepaconss];
915 conshdlr->sepaconss[conshdlr->nsepaconss]->sepaconsspos = conshdlr->nsepaconss;
916 insertpos = conshdlr->nusefulsepaconss;
917 }
918 conshdlr->nusefulsepaconss++;
919 }
920 conshdlr->sepaconss[insertpos] = cons;
921 cons->sepaconsspos = insertpos;
922 conshdlr->nsepaconss++;
923
924 checkConssArrays(conshdlr);
925
926 return SCIP_OKAY;
927}
928
929/** deletes constraint from the sepaconss array of constraint handler */
930static
932 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
933 SCIP_CONS* cons /**< constraint to remove */
934 )
935{
936 int delpos;
937
938 assert(conshdlr != NULL);
939 assert(conshdlr->nusefulsepaconss <= conshdlr->nsepaconss);
940 assert(cons != NULL);
941 assert(cons->conshdlr == conshdlr);
942 assert(!cons->original);
943 assert(cons->separate);
944 assert(cons->sepaenabled);
945 assert(cons->sepaconsspos != -1);
946 assert(!conshdlrAreUpdatesDelayed(conshdlr) || !conshdlr->duringsepa);
947
948 delpos = cons->sepaconsspos;
949 if( !cons->obsolete )
950 {
951 assert(0 <= delpos && delpos < conshdlr->nusefulsepaconss);
952
953 if( delpos < conshdlr->lastnusefulsepaconss )
954 conshdlr->lastnusefulsepaconss--;
955
956 conshdlr->sepaconss[delpos] = conshdlr->sepaconss[conshdlr->nusefulsepaconss-1];
957 conshdlr->sepaconss[delpos]->sepaconsspos = delpos;
958 delpos = conshdlr->nusefulsepaconss-1;
959 conshdlr->nusefulsepaconss--;
960 assert(conshdlr->nusefulsepaconss >= 0);
961 assert(conshdlr->lastnusefulsepaconss >= 0);
962 }
963 assert(conshdlr->nusefulsepaconss <= delpos && delpos < conshdlr->nsepaconss);
964 if( delpos < conshdlr->nsepaconss-1 )
965 {
966 conshdlr->sepaconss[delpos] = conshdlr->sepaconss[conshdlr->nsepaconss-1];
967 conshdlr->sepaconss[delpos]->sepaconsspos = delpos;
968 }
969 conshdlr->nsepaconss--;
970 cons->sepaconsspos = -1;
971
972 checkConssArrays(conshdlr);
973}
974
975/** adds constraint to the enfoconss array of constraint handler */
976static
978 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
979 SCIP_SET* set, /**< global SCIP settings */
980 SCIP_CONS* cons /**< constraint to add */
981 )
982{
983 int insertpos;
984
985 assert(conshdlr != NULL);
986 assert(conshdlr->nusefulenfoconss <= conshdlr->nenfoconss);
987 assert(cons != NULL);
988 assert(cons->conshdlr == conshdlr);
989 assert(!cons->original);
990 assert(cons->active);
991 assert(cons->enforce);
992 assert(cons->enfoconsspos == -1);
993 assert(set != NULL);
994 assert(cons->scip == set->scip);
995
996 SCIP_CALL( conshdlrEnsureEnfoconssMem(conshdlr, set, conshdlr->nenfoconss+1) );
997 insertpos = conshdlr->nenfoconss;
998 if( !cons->obsolete )
999 {
1000 if( conshdlr->nusefulenfoconss < conshdlr->nenfoconss )
1001 {
1002 conshdlr->enfoconss[conshdlr->nenfoconss] = conshdlr->enfoconss[conshdlr->nusefulenfoconss];
1003 conshdlr->enfoconss[conshdlr->nenfoconss]->enfoconsspos = conshdlr->nenfoconss;
1004 insertpos = conshdlr->nusefulenfoconss;
1005 }
1006 conshdlr->nusefulenfoconss++;
1007 }
1008 else
1009 {
1010 /* we have to make sure that even this obsolete constraint is enforced in the next enforcement call;
1011 * if the same LP or pseudo solution is enforced again, only the newly added useful constraints are
1012 * enforced; thus, we have to reset the enforcement counters and force all constraints to be
1013 * enforced again; this is not needed for separation and propagation, because they are not vital for correctness
1014 */
1015 conshdlr->lastenfolplpcount = -1;
1016 conshdlr->lastenfolpdomchgcount = -1;
1017 conshdlr->lastenfopsdomchgcount = -1;
1018 conshdlr->lastenforelaxdomchgcount = -1;
1019 conshdlr->lastenforelaxrelaxcount = -1;
1020 conshdlr->lastenfolpnode = -1;
1021 conshdlr->lastenfopsnode = -1;
1022 }
1023 conshdlr->enfoconss[insertpos] = cons;
1024 cons->enfoconsspos = insertpos;
1025 conshdlr->nenfoconss++;
1026
1027 checkConssArrays(conshdlr);
1028
1029 return SCIP_OKAY;
1030}
1031
1032/** deletes constraint from the enfoconss array of constraint handler */
1033static
1035 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
1036 SCIP_CONS* cons /**< constraint to remove */
1037 )
1038{
1039 int delpos;
1040
1041 assert(conshdlr != NULL);
1042 assert(conshdlr->nusefulenfoconss <= conshdlr->nenfoconss);
1043 assert(cons != NULL);
1044 assert(cons->conshdlr == conshdlr);
1045 assert(!cons->original);
1046 assert(cons->enforce);
1047 assert(cons->enfoconsspos != -1);
1048
1049 delpos = cons->enfoconsspos;
1050 if( !cons->obsolete )
1051 {
1052 assert(0 <= delpos && delpos < conshdlr->nusefulenfoconss);
1053
1054 if( delpos < conshdlr->lastnusefulenfoconss )
1055 conshdlr->lastnusefulenfoconss--;
1056
1057 conshdlr->enfoconss[delpos] = conshdlr->enfoconss[conshdlr->nusefulenfoconss-1];
1058 conshdlr->enfoconss[delpos]->enfoconsspos = delpos;
1059 delpos = conshdlr->nusefulenfoconss-1;
1060 conshdlr->nusefulenfoconss--;
1061
1062 /* if the constraint that moved to the free position was a newly added constraint and not enforced in the last
1063 * enforcement, we have to make sure it will be enforced in the next run;
1064 * this check is not performed for separation and propagation, because they are not vital for correctness
1065 */
1066 if( delpos >= conshdlr->lastnusefulenfoconss )
1067 conshdlr->lastnusefulenfoconss = cons->enfoconsspos;
1068
1069 assert(conshdlr->nusefulenfoconss >= 0);
1070 assert(conshdlr->lastnusefulenfoconss >= 0);
1071 }
1072 assert(conshdlr->nusefulenfoconss <= delpos && delpos < conshdlr->nenfoconss);
1073 if( delpos < conshdlr->nenfoconss-1 )
1074 {
1075 conshdlr->enfoconss[delpos] = conshdlr->enfoconss[conshdlr->nenfoconss-1];
1076 conshdlr->enfoconss[delpos]->enfoconsspos = delpos;
1077 }
1078 conshdlr->nenfoconss--;
1079 cons->enfoconsspos = -1;
1080
1081 checkConssArrays(conshdlr);
1082}
1083
1084/** adds constraint to the checkconss array of constraint handler */
1085static
1087 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
1088 SCIP_SET* set, /**< global SCIP settings */
1089 SCIP_CONS* cons /**< constraint to add */
1090 )
1091{
1092 int insertpos;
1093
1094 assert(conshdlr != NULL);
1095 assert(conshdlr->nusefulcheckconss <= conshdlr->ncheckconss);
1096 assert(cons != NULL);
1097 assert(cons->conshdlr == conshdlr);
1098 assert(!cons->original);
1099 assert(cons->active);
1100 assert(cons->check);
1101 assert(cons->checkconsspos == -1);
1102 assert(set != NULL);
1103 assert(cons->scip == set->scip);
1104
1105 SCIP_CALL( conshdlrEnsureCheckconssMem(conshdlr, set, conshdlr->ncheckconss+1) );
1106 insertpos = conshdlr->ncheckconss;
1107 if( !cons->obsolete )
1108 {
1109 if( conshdlr->nusefulcheckconss < conshdlr->ncheckconss )
1110 {
1111 assert(conshdlr->checkconss[conshdlr->nusefulcheckconss] != NULL);
1112 conshdlr->checkconss[conshdlr->ncheckconss] = conshdlr->checkconss[conshdlr->nusefulcheckconss];
1113 conshdlr->checkconss[conshdlr->ncheckconss]->checkconsspos = conshdlr->ncheckconss;
1114 insertpos = conshdlr->nusefulcheckconss;
1115 }
1116 conshdlr->nusefulcheckconss++;
1117 }
1118 assert(0 <= insertpos && insertpos <= conshdlr->ncheckconss);
1119 conshdlr->checkconss[insertpos] = cons;
1120 cons->checkconsspos = insertpos;
1121 conshdlr->ncheckconss++;
1122
1123 checkConssArrays(conshdlr);
1124
1125 return SCIP_OKAY;
1126}
1127
1128/** deletes constraint from the checkconss array of constraint handler */
1129static
1131 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
1132 SCIP_CONS* cons /**< constraint to add */
1133 )
1134{
1135 int delpos;
1136
1137 assert(conshdlr != NULL);
1138 assert(conshdlr->nusefulcheckconss <= conshdlr->ncheckconss);
1139 assert(cons != NULL);
1140 assert(cons->conshdlr == conshdlr);
1141 assert(!cons->original);
1142 assert(cons->active);
1143 assert(cons->check);
1144 assert(cons->checkconsspos != -1);
1145
1146 delpos = cons->checkconsspos;
1147 if( !cons->obsolete )
1148 {
1149 assert(0 <= delpos && delpos < conshdlr->nusefulcheckconss);
1150 conshdlr->checkconss[delpos] = conshdlr->checkconss[conshdlr->nusefulcheckconss-1];
1151 conshdlr->checkconss[delpos]->checkconsspos = delpos;
1152 delpos = conshdlr->nusefulcheckconss-1;
1153 conshdlr->nusefulcheckconss--;
1154 }
1155 assert(conshdlr->nusefulcheckconss <= delpos && delpos < conshdlr->ncheckconss);
1156 if( delpos < conshdlr->ncheckconss-1 )
1157 {
1158 conshdlr->checkconss[delpos] = conshdlr->checkconss[conshdlr->ncheckconss-1];
1159 conshdlr->checkconss[delpos]->checkconsspos = delpos;
1160 }
1161 conshdlr->ncheckconss--;
1162 cons->checkconsspos = -1;
1163
1164 checkConssArrays(conshdlr);
1165}
1166
1167/** adds constraint to the propconss array of constraint handler */
1168static
1170 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
1171 SCIP_SET* set, /**< global SCIP settings */
1172 SCIP_CONS* cons /**< constraint to add */
1173 )
1174{
1175 int insertpos;
1176
1177 assert(conshdlr != NULL);
1178 assert(conshdlr->nusefulpropconss <= conshdlr->npropconss);
1179 assert(cons != NULL);
1180 assert(cons->conshdlr == conshdlr);
1181 assert(!cons->original);
1182 assert(cons->active);
1183 assert(cons->enabled);
1184 assert(cons->propagate);
1185 assert(cons->propenabled);
1186 assert(cons->propconsspos == -1);
1187 assert(set != NULL);
1188 assert(cons->scip == set->scip);
1189 assert(!conshdlrAreUpdatesDelayed(conshdlr) || !conshdlr->duringprop);
1190
1191 /* add constraint to the propagation array */
1192 SCIP_CALL( conshdlrEnsurePropconssMem(conshdlr, set, conshdlr->npropconss+1) );
1193 insertpos = conshdlr->npropconss;
1194 if( !cons->obsolete )
1195 {
1196 if( conshdlr->nusefulpropconss < conshdlr->npropconss )
1197 {
1198 conshdlr->propconss[conshdlr->npropconss] = conshdlr->propconss[conshdlr->nusefulpropconss];
1199 conshdlr->propconss[conshdlr->npropconss]->propconsspos = conshdlr->npropconss;
1200 insertpos = conshdlr->nusefulpropconss;
1201 }
1202 conshdlr->nusefulpropconss++;
1203 }
1204 conshdlr->propconss[insertpos] = cons;
1205 cons->propconsspos = insertpos;
1206 conshdlr->npropconss++;
1207
1208 /* if the constraint is marked to be propagated, we have to move it to the first part of the array */
1209 if( cons->markpropagate )
1210 {
1211 /* temporarily unmark the constraint to be propagated, such that we can use the method below */
1212 cons->markpropagate = FALSE;
1213
1215 assert(cons->markpropagate);
1216 }
1217
1218 checkConssArrays(conshdlr);
1219
1220 return SCIP_OKAY;
1221}
1222
1223/** deletes constraint from the propconss array of constraint handler */
1224static
1226 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
1227 SCIP_CONS* cons /**< constraint to remove */
1228 )
1229{
1230 int delpos;
1231
1232 assert(conshdlr != NULL);
1233 assert(conshdlr->nusefulpropconss <= conshdlr->npropconss);
1234 assert(cons != NULL);
1235 assert(cons->conshdlr == conshdlr);
1236 assert(!cons->original);
1237 assert(cons->propagate);
1238 assert(cons->propenabled);
1239 assert(cons->propconsspos != -1);
1240 assert(!conshdlrAreUpdatesDelayed(conshdlr) || !conshdlr->duringprop);
1241
1242 /* unmark constraint to be propagated; this will move the constraint to the obsolete or non-obsolete part of the
1243 * array, depending on its age
1244 */
1245 if( cons->markpropagate )
1246 {
1248 assert(!cons->markpropagate);
1249 }
1250
1251 /* delete constraint from the propagation array */
1252 delpos = cons->propconsspos;
1253 assert(delpos >= conshdlr->nmarkedpropconss);
1254 if( !cons->obsolete )
1255 {
1256 assert(0 <= delpos && delpos < conshdlr->nusefulpropconss);
1257
1258 if( delpos < conshdlr->lastnusefulpropconss )
1259 conshdlr->lastnusefulpropconss--;
1260
1261 conshdlr->propconss[delpos] = conshdlr->propconss[conshdlr->nusefulpropconss-1];
1262 conshdlr->propconss[delpos]->propconsspos = delpos;
1263 delpos = conshdlr->nusefulpropconss-1;
1264 conshdlr->nusefulpropconss--;
1265 assert(conshdlr->nusefulpropconss >= 0);
1266 assert(conshdlr->lastnusefulpropconss >= 0);
1267 }
1268 assert(conshdlr->nusefulpropconss <= delpos && delpos < conshdlr->npropconss);
1269
1270 if( delpos < conshdlr->npropconss-1 )
1271 {
1272 conshdlr->propconss[delpos] = conshdlr->propconss[conshdlr->npropconss-1];
1273 conshdlr->propconss[delpos]->propconsspos = delpos;
1274 }
1275 conshdlr->npropconss--;
1276 cons->propconsspos = -1;
1277 assert(conshdlr->nmarkedpropconss <= conshdlr->npropconss);
1278
1279 checkConssArrays(conshdlr);
1280}
1281
1282/** enables separation of constraint */
1283static
1285 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
1286 SCIP_SET* set, /**< global SCIP settings */
1287 SCIP_CONS* cons /**< constraint to add */
1288 )
1289{
1290 assert(conshdlr != NULL);
1291 assert(conshdlr->nusefulsepaconss <= conshdlr->nsepaconss);
1292 assert(cons != NULL);
1293 assert(cons->conshdlr == conshdlr);
1294 assert(!cons->sepaenabled);
1295 assert(cons->sepaconsspos == -1);
1296 assert(set != NULL);
1297 assert(cons->scip == set->scip);
1298
1299 SCIPsetDebugMsg(set, "enable separation of constraint <%s> in constraint handler <%s>\n", cons->name, conshdlr->name);
1300
1301 /* enable separation of constraint */
1302 cons->sepaenabled = TRUE;
1303
1304 /* add constraint to the separation array */
1305 if( cons->enabled && cons->separate )
1306 {
1307 SCIP_CALL( conshdlrAddSepacons(conshdlr, set, cons) );
1308 }
1309
1310 return SCIP_OKAY;
1311}
1312
1313/** disables separation of constraint */
1314static
1316 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
1317 SCIP_CONS* cons /**< constraint to remove */
1318 )
1319{
1320 assert(conshdlr != NULL);
1321 assert(conshdlr->nusefulsepaconss <= conshdlr->nsepaconss);
1322 assert(cons != NULL);
1323 assert(cons->conshdlr == conshdlr);
1324 assert(cons->sepaenabled);
1325 assert((cons->separate && cons->enabled) == (cons->sepaconsspos != -1));
1326
1327 SCIPdebugMessage("disable separation of constraint <%s> in constraint handler <%s>\n", cons->name, conshdlr->name);
1328
1329 /* delete constraint from the separation array */
1330 if( cons->separate && cons->enabled )
1331 {
1332 conshdlrDelSepacons(conshdlr, cons);
1333 }
1334 assert(cons->sepaconsspos == -1);
1335
1336 /* disable separation of constraint */
1337 cons->sepaenabled = FALSE;
1338
1339 return SCIP_OKAY;
1340}
1341
1342/** enables propagation of constraint */
1343static
1345 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
1346 SCIP_SET* set, /**< global SCIP settings */
1347 SCIP_CONS* cons /**< constraint to add */
1348 )
1349{
1350 assert(conshdlr != NULL);
1351 assert(conshdlr->nusefulpropconss <= conshdlr->npropconss);
1352 assert(cons != NULL);
1353 assert(cons->conshdlr == conshdlr);
1354 assert(!cons->propenabled);
1355 assert(cons->propconsspos == -1);
1356 assert(set != NULL);
1357 assert(cons->scip == set->scip);
1358
1359 SCIPsetDebugMsg(set, "enable propagation of constraint <%s> in constraint handler <%s>\n", cons->name, conshdlr->name);
1360
1361 /* enable propagation of constraint */
1362 cons->propenabled = TRUE;
1363
1364 /* add constraint to the propagation array */
1365 if( cons->enabled && cons->propagate )
1366 {
1367 SCIP_CALL( conshdlrAddPropcons(conshdlr, set, cons) );
1368 }
1369
1370 return SCIP_OKAY;
1371}
1372
1373/** disables propagation of constraint */
1374static
1376 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
1377 SCIP_CONS* cons /**< constraint to remove */
1378 )
1379{
1380 assert(conshdlr != NULL);
1381 assert(conshdlr->nusefulpropconss <= conshdlr->npropconss);
1382 assert(cons != NULL);
1383 assert(cons->conshdlr == conshdlr);
1384 assert(cons->propenabled);
1385 assert((cons->propagate && cons->enabled) == (cons->propconsspos != -1));
1386
1387 SCIPdebugMessage("disable propagation of constraint <%s> in constraint handler <%s>\n", cons->name, conshdlr->name);
1388
1389 /* delete constraint from the propagation array */
1390 if( cons->propagate && cons->enabled )
1391 {
1392 conshdlrDelPropcons(conshdlr, cons);
1393 }
1394 assert(cons->propconsspos == -1);
1395
1396 /* disable propagation of constraint */
1397 cons->propenabled = FALSE;
1398
1399 return SCIP_OKAY;
1400}
1401
1402/** enables separation, enforcement, and propagation of constraint */
1403static
1405 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
1406 SCIP_SET* set, /**< global SCIP settings */
1407 SCIP_STAT* stat, /**< dynamic problem statistics */
1408 SCIP_CONS* cons /**< constraint to add */
1409 )
1410{
1411 assert(conshdlr != NULL);
1412 assert(conshdlr->nusefulsepaconss <= conshdlr->nsepaconss);
1413 assert(conshdlr->nusefulenfoconss <= conshdlr->nenfoconss);
1414 assert(conshdlr->nusefulcheckconss <= conshdlr->ncheckconss);
1415 assert(conshdlr->nusefulpropconss <= conshdlr->npropconss);
1416 assert(set != NULL);
1417 assert(stat != NULL);
1418 assert(cons != NULL);
1419 assert(cons->scip == set->scip);
1420 assert(cons->conshdlr == conshdlr);
1421 assert(!cons->original);
1422 assert(cons->active);
1423 assert(!cons->enabled);
1424 assert(cons->sepaconsspos == -1);
1425 assert(cons->enfoconsspos == -1);
1426 assert(cons->propconsspos == -1);
1427
1428 SCIPsetDebugMsg(set, "enable constraint <%s> in constraint handler <%s>\n", cons->name, conshdlr->name);
1429
1430 /* enable constraint */
1431 cons->enabled = TRUE;
1432 conshdlr->nenabledconss++;
1433 stat->nenabledconss++;
1434
1435 /* add constraint to the separation array */
1436 if( cons->separate && cons->sepaenabled )
1437 {
1438 SCIP_CALL( conshdlrAddSepacons(conshdlr, set, cons) );
1439 }
1440
1441 /* add constraint to the enforcement array */
1442 if( cons->enforce )
1443 {
1444 SCIP_CALL( conshdlrAddEnfocons(conshdlr, set, cons) );
1445 }
1446
1447 /* add constraint to the propagation array */
1448 if( cons->propagate && cons->propenabled )
1449 {
1450 SCIP_CALL( conshdlrAddPropcons(conshdlr, set, cons) );
1451 }
1452
1453 /* call constraint handler's enabling notification method */
1454 if( conshdlr->consenable != NULL )
1455 {
1456 SCIP_CALL( conshdlr->consenable(set->scip, conshdlr, cons) );
1457 }
1458
1459 checkConssArrays(conshdlr);
1460
1461 return SCIP_OKAY;
1462}
1463
1464/** disables separation, enforcement, and propagation of constraint */
1465static
1467 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
1468 SCIP_SET* set, /**< global SCIP settings */
1469 SCIP_STAT* stat, /**< dynamic problem statistics */
1470 SCIP_CONS* cons /**< constraint to remove */
1471 )
1472{
1473 assert(conshdlr != NULL);
1474 assert(conshdlr->nusefulsepaconss <= conshdlr->nsepaconss);
1475 assert(conshdlr->nusefulenfoconss <= conshdlr->nenfoconss);
1476 assert(conshdlr->nusefulcheckconss <= conshdlr->ncheckconss);
1477 assert(conshdlr->nusefulpropconss <= conshdlr->npropconss);
1478 assert(set != NULL);
1479 assert(stat != NULL);
1480 assert(cons != NULL);
1481 assert(cons->scip == set->scip);
1482 assert(cons->conshdlr == conshdlr);
1483 assert(!cons->original);
1484 assert(cons->active);
1485 assert(cons->enabled);
1486 assert((cons->separate && cons->sepaenabled) == (cons->sepaconsspos != -1));
1487 assert(cons->enforce == (cons->enfoconsspos != -1));
1488 assert((cons->propagate && cons->propenabled) == (cons->propconsspos != -1));
1489
1490 SCIPsetDebugMsg(set, "disable constraint <%s> in constraint handler <%s>\n", cons->name, conshdlr->name);
1491
1492 /* call constraint handler's disabling notification method */
1493 if( conshdlr->consdisable != NULL )
1494 {
1495 SCIP_CALL( conshdlr->consdisable(set->scip, conshdlr, cons) );
1496 }
1497
1498 /* delete constraint from the separation array */
1499 if( cons->separate && cons->sepaenabled )
1500 {
1501 conshdlrDelSepacons(conshdlr, cons);
1502 }
1503
1504 /* delete constraint from the enforcement array */
1505 if( cons->enforce )
1506 {
1507 conshdlrDelEnfocons(conshdlr, cons);
1508 }
1509
1510 /* delete constraint from the propagation array */
1511 if( cons->propagate && cons->propenabled )
1512 {
1513 conshdlrDelPropcons(conshdlr, cons);
1514 }
1515
1516 assert(cons->sepaconsspos == -1);
1517 assert(cons->enfoconsspos == -1);
1518 assert(cons->propconsspos == -1);
1519
1520 /* disable constraint */
1521 cons->enabled = FALSE;
1522 conshdlr->nenabledconss--;
1523 stat->nenabledconss--;
1524
1525 checkConssArrays(conshdlr);
1526
1527 return SCIP_OKAY;
1528}
1529
1530/** activates and adds constraint to constraint handler's constraint arrays */
1531static
1533 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
1534 SCIP_SET* set, /**< global SCIP settings */
1535 SCIP_STAT* stat, /**< dynamic problem statistics */
1536 SCIP_CONS* cons, /**< constraint to add */
1537 int depth, /**< depth in the tree where the activation takes place, or -1 for global problem */
1538 SCIP_Bool focusnode /**< does the constraint activation take place at the focus node? */
1539 )
1540{
1541 assert(conshdlr != NULL);
1542 assert(conshdlr->nusefulsepaconss <= conshdlr->nsepaconss);
1543 assert(conshdlr->nusefulenfoconss <= conshdlr->nenfoconss);
1544 assert(conshdlr->nusefulcheckconss <= conshdlr->ncheckconss);
1545 assert(conshdlr->nusefulpropconss <= conshdlr->npropconss);
1546 assert(set != NULL);
1547 assert(stat != NULL);
1548 assert(cons != NULL);
1549 assert(cons->scip == set->scip);
1550 assert(cons->conshdlr == conshdlr);
1551 assert(!cons->original);
1552 assert(!cons->active);
1553 assert(!cons->enabled);
1554 assert(conshdlr->nactiveconss <= cons->consspos && cons->consspos < conshdlr->nconss);
1555 assert(conshdlr->conss[cons->consspos] == cons);
1556 assert(cons->initconsspos < conshdlr->ninitconsskept);
1557 assert(cons->sepaconsspos == -1);
1558 assert(cons->enfoconsspos == -1);
1559 assert(cons->checkconsspos == -1);
1560 assert(cons->propconsspos == -1);
1561 assert(depth >= -1);
1562
1563 SCIPsetDebugMsg(set, "activate constraint <%s> in constraint handler <%s> (depth %d, focus=%u)\n",
1564 cons->name, conshdlr->name, depth, focusnode);
1565
1566 /* activate constraint, switch positions with first inactive constraint */
1567 cons->active = TRUE;
1568 cons->activedepth = depth;
1569 conshdlr->conss[cons->consspos] = conshdlr->conss[conshdlr->nactiveconss];
1570 conshdlr->conss[cons->consspos]->consspos = cons->consspos;
1571 conshdlr->conss[conshdlr->nactiveconss] = cons;
1572 cons->consspos = conshdlr->nactiveconss;
1573 conshdlr->nactiveconss++;
1574 conshdlr->maxnactiveconss = MAX(conshdlr->maxnactiveconss, conshdlr->nactiveconss);
1575 stat->nactiveconss++;
1576
1577 /* add constraint to the check array */
1578 if( cons->check )
1579 {
1580 SCIP_CALL( conshdlrAddCheckcons(conshdlr, set, cons) );
1581 }
1582
1583 /* add constraint to the initconss array if the constraint is initial and added to the focus node */
1584 if( cons->initial )
1585 {
1586 SCIP_CALL( conshdlrAddInitcons(conshdlr, set, stat, cons) );
1587 }
1588
1589 /* call constraint handler's activation notification method */
1590 if( conshdlr->consactive != NULL )
1591 {
1592 SCIP_CALL( conshdlr->consactive(set->scip, conshdlr, cons) );
1593 }
1594
1595 /* enable separation, enforcement, and propagation of constraint */
1596 SCIP_CALL( conshdlrEnableCons(conshdlr, set, stat, cons) );
1597
1598 assert(0 <= cons->consspos && cons->consspos < conshdlr->nactiveconss);
1599
1600 checkConssArrays(conshdlr);
1601
1602 return SCIP_OKAY;
1603}
1604
1605/** deactivates and removes constraint from constraint handler's conss array */
1606static
1608 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
1609 SCIP_SET* set, /**< global SCIP settings */
1610 SCIP_STAT* stat, /**< dynamic problem statistics */
1611 SCIP_CONS* cons /**< constraint to remove */
1612 )
1613{
1614 assert(conshdlr != NULL);
1615 assert(conshdlr->nusefulsepaconss <= conshdlr->nsepaconss);
1616 assert(conshdlr->nusefulenfoconss <= conshdlr->nenfoconss);
1617 assert(conshdlr->nusefulcheckconss <= conshdlr->ncheckconss);
1618 assert(conshdlr->nusefulpropconss <= conshdlr->npropconss);
1619 assert(set != NULL);
1620 assert(stat != NULL);
1621 assert(cons != NULL);
1622 assert(cons->scip == set->scip);
1623 assert(cons->conshdlr == conshdlr);
1624 assert(!cons->original);
1625 assert(cons->active);
1626 assert(0 <= cons->consspos && cons->consspos < conshdlr->nactiveconss);
1627 assert(conshdlr->conss[cons->consspos] == cons);
1628 assert(cons->check == (cons->checkconsspos != -1));
1629
1630 SCIPsetDebugMsg(set, "deactivate constraint <%s> in constraint handler <%s>\n", cons->name, conshdlr->name);
1631
1632 /* disable constraint */
1633 if( cons->enabled )
1634 {
1635 SCIP_CALL( conshdlrDisableCons(conshdlr, set, stat, cons) );
1636 }
1637 assert(!cons->enabled);
1638
1639 /* call constraint handler's deactivation notification method */
1640 if( conshdlr->consdeactive != NULL )
1641 {
1642 SCIP_CALL( conshdlr->consdeactive(set->scip, conshdlr, cons) );
1643 }
1644
1645 /* delete constraint from the initconss array */
1646 if( cons->initconsspos >= 0 )
1647 {
1648 conshdlrDelInitcons(conshdlr, cons);
1649 }
1650
1651 /* delete constraint from the check array */
1652 if( cons->check )
1653 {
1654 conshdlrDelCheckcons(conshdlr, cons);
1655 }
1656
1657 /* switch constraint with the last active constraint in the conss array */
1658 conshdlr->conss[cons->consspos] = conshdlr->conss[conshdlr->nactiveconss-1];
1659 conshdlr->conss[cons->consspos]->consspos = cons->consspos;
1660 conshdlr->conss[conshdlr->nactiveconss-1] = cons;
1661 cons->consspos = conshdlr->nactiveconss-1;
1662 conshdlr->nactiveconss--;
1663 cons->active = FALSE;
1664 cons->activedepth = -2;
1665 stat->nactiveconss--;
1666
1667 assert(conshdlr->nactiveconss <= cons->consspos && cons->consspos < conshdlr->nconss);
1668 assert(cons->initconsspos == -1);
1669 assert(cons->sepaconsspos == -1);
1670 assert(cons->enfoconsspos == -1);
1671 assert(cons->checkconsspos == -1);
1672 assert(cons->propconsspos == -1);
1673
1674 checkConssArrays(conshdlr);
1675
1676 return SCIP_OKAY;
1677}
1678
1679/** processes all delayed updates of constraints:
1680 * recently (de)activated constraints will be (de)activated;
1681 * recently en/disabled constraints will be en/disabled;
1682 * recent obsolete non-check constraints will be globally deleted;
1683 * recent obsolete check constraints will be moved to the last positions in the sepa-, enfo-, check-, and prop-arrays;
1684 * recent useful constraints will be moved to the first positions in the sepa-, enfo-, check-, and prop-arrays;
1685 * constraints which were recently marked to be propagated are moved to the first positions in the prop-array;
1686 * no longer used constraints will be freed and removed from the conss array
1687 */
1688static
1690 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
1691 BMS_BLKMEM* blkmem, /**< block memory */
1692 SCIP_SET* set, /**< global SCIP settings */
1693 SCIP_STAT* stat /**< dynamic problem statistics */
1694 )
1695{
1696 SCIP_CONS* cons;
1697 int i;
1698
1699 assert(conshdlr != NULL);
1700 assert(!conshdlrAreUpdatesDelayed(conshdlr));
1701 assert(conshdlr->nusefulsepaconss <= conshdlr->nsepaconss);
1702 assert(conshdlr->nusefulenfoconss <= conshdlr->nenfoconss);
1703 assert(conshdlr->nusefulcheckconss <= conshdlr->ncheckconss);
1704 assert(conshdlr->nusefulpropconss <= conshdlr->npropconss);
1705
1706 SCIPsetDebugMsg(set, "processing %d constraints that have to be updated in constraint handler <%s>\n",
1707 conshdlr->nupdateconss, conshdlr->name);
1708
1709 for( i = conshdlr->nupdateconss - 1; i >= 0; --i )
1710 {
1711 cons = conshdlr->updateconss[i];
1712 assert(cons != NULL);
1713 assert(cons->conshdlr == conshdlr);
1714 assert(cons->update);
1715 assert(cons->updateinsert || cons->updateactivate || cons->updatedeactivate
1716 || cons->updateenable || cons->updatedisable
1717 || cons->updatesepaenable || cons->updatesepadisable
1718 || cons->updatepropenable || cons->updatepropdisable
1719 || cons->updateobsolete || cons->updatefree
1720 || cons->updatemarkpropagate || cons->updateunmarkpropagate);
1721
1722 SCIPsetDebugMsg(set, " -> constraint <%s>: insert=%u, activate=%u, deactivate=%u, enable=%u, disable=%u, sepaenable=%u, sepadisable=%u, propenable=%u, propdisable=%u, obsolete=%u, free=%u (consdata=%p)\n",
1723 cons->name, cons->updateinsert, cons->updateactivate, cons->updatedeactivate,
1724 cons->updateenable, cons->updatedisable,
1727 cons->updateobsolete, cons->updatefree, (void*)cons->consdata);
1728
1729 if( cons->updateinsert )
1730 {
1731 SCIP_CALL( conshdlrAddCons(conshdlr, set, cons) );
1732 cons->updateinsert = FALSE;
1733 }
1734
1735 if( cons->updateactivate )
1736 {
1737 assert(!cons->active);
1738 assert(!cons->updatedeactivate);
1739 assert(!cons->updateenable);
1740 assert(!cons->updatedisable);
1741 assert(!cons->updateobsolete);
1742 assert(!cons->updatefree);
1743
1744 /* the activation depth was already stored in SCIPconsActivate() */
1745 SCIP_CALL( conshdlrActivateCons(conshdlr, set, stat, cons, cons->activedepth, cons->updateactfocus) );
1746 assert(cons->active);
1747 cons->updateactivate = FALSE;
1748 }
1749 else if( cons->updatedeactivate )
1750 {
1751 assert(cons->active);
1752
1753 SCIP_CALL( conshdlrDeactivateCons(conshdlr, set, stat, cons) );
1754 assert(!cons->active);
1755 cons->updatedeactivate = FALSE;
1756 cons->updateenable = FALSE;
1757 cons->updatedisable = FALSE;
1758 cons->obsolete = consExceedsObsoleteage(cons, set);
1759 cons->updateobsolete = FALSE;
1760 }
1761 else if( cons->updateenable )
1762 {
1763 assert(!cons->enabled);
1764 assert(!cons->updatedisable);
1765
1766 SCIP_CALL( conshdlrEnableCons(conshdlr, set, stat, cons) );
1767 assert(cons->enabled);
1768 cons->updateenable = FALSE;
1769 }
1770 else if( cons->updatedisable )
1771 {
1772 assert(cons->enabled);
1773
1774 SCIP_CALL( conshdlrDisableCons(conshdlr, set, stat, cons) );
1775 assert(!cons->enabled);
1776 cons->updatedisable = FALSE;
1777 }
1778
1779 if( cons->updatesepaenable )
1780 {
1781 assert(!cons->updatesepadisable);
1782 if( !cons->sepaenabled )
1783 {
1784 SCIP_CALL( conshdlrEnableConsSeparation(conshdlr, set, cons) );
1785 assert(cons->sepaenabled);
1786 }
1787 cons->updatesepaenable = FALSE;
1788 }
1789 else if( cons->updatesepadisable )
1790 {
1791 if( cons->sepaenabled )
1792 {
1793 SCIP_CALL( conshdlrDisableConsSeparation(conshdlr, cons) );
1794 assert(!cons->sepaenabled);
1795 }
1796 cons->updatesepadisable = FALSE;
1797 }
1798
1799 if( cons->updatepropenable )
1800 {
1801 assert(!cons->updatepropdisable);
1802 if( !cons->propenabled )
1803 {
1804 SCIP_CALL( conshdlrEnableConsPropagation(conshdlr, set, cons) );
1805 assert(cons->propenabled);
1806 }
1807 cons->updatepropenable = FALSE;
1808 }
1809 else if( cons->updatepropdisable )
1810 {
1811 if( cons->propenabled )
1812 {
1813 SCIP_CALL( conshdlrDisableConsPropagation(conshdlr, cons) );
1814 assert(!cons->propenabled);
1815 }
1816 cons->updatepropdisable = FALSE;
1817 }
1818
1819 if( cons->updatefree )
1820 {
1821 /* nothing to do here: the constraint is freed, when it is released from the updateconss array */
1822 assert(cons->nuses == 1); /* it only exists in the updateconss array */
1823 cons->updatefree = FALSE;
1824 cons->updateobsolete = FALSE;
1825 }
1826 else
1827 {
1828 if( cons->updateobsolete )
1829 {
1830 if( !cons->obsolete && consExceedsObsoleteage(cons, set) )
1831 {
1832 /* the constraint's status must be switched to obsolete */
1833 SCIP_CALL( conshdlrMarkConsObsolete(conshdlr, cons) );
1834 }
1835 else if( cons->obsolete && !consExceedsObsoleteage(cons, set) )
1836 {
1837 /* the constraint's status must be switched to useful */
1838 SCIP_CALL( conshdlrMarkConsUseful(conshdlr, cons) );
1839 }
1840 cons->updateobsolete = FALSE;
1841 }
1842
1843 if( cons->updatemarkpropagate )
1844 {
1845 /* the constraint must be marked to be propagated */
1846 conshdlrMarkConsPropagate(conshdlr, cons);
1847 cons->updatemarkpropagate = FALSE;
1848 }
1849 else if( cons->updateunmarkpropagate )
1850 {
1851 /* the constraint must be unmarked to be propagated */
1852 conshdlrUnmarkConsPropagate(conshdlr, cons);
1854 }
1855 }
1856
1857 assert(!cons->updateinsert);
1858 assert(!cons->updateactivate);
1859 assert(!cons->updatedeactivate);
1860 assert(!cons->updateenable);
1861 assert(!cons->updatedisable);
1862 assert(!cons->updatesepaenable);
1863 assert(!cons->updatesepadisable);
1864 assert(!cons->updatepropenable);
1865 assert(!cons->updatepropdisable);
1866 assert(!cons->updateobsolete);
1867 assert(!cons->updatemarkpropagate);
1868 assert(!cons->updateunmarkpropagate);
1869 assert(!cons->updatefree);
1870 cons->update = FALSE;
1871
1872 /* release the constraint */
1873 SCIP_CALL( SCIPconsRelease(&conshdlr->updateconss[i], blkmem, set) );
1874 }
1875
1876 conshdlr->nupdateconss = 0;
1877
1878 return SCIP_OKAY;
1879}
1880
1881/** marks constraint handler to delay all constraint updates until the next conshdlrProcessUpdates() call */
1882static
1884 SCIP_CONSHDLR* conshdlr /**< constraint handler */
1885 )
1886{
1887 assert(conshdlr != NULL);
1888
1889 SCIPdebugMessage("constraint updates of constraint handler <%s> will be delayed (count:%d)\n",
1890 conshdlr->name, conshdlr->delayupdatecount+1);
1891
1892 conshdlr->delayupdatecount++;
1893}
1894
1895/** marks constraint handler to perform all constraint updates immediately;
1896 * all delayed constraint updates will be processed
1897 */
1898static
1900 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
1901 BMS_BLKMEM* blkmem, /**< block memory */
1902 SCIP_SET* set, /**< global SCIP settings */
1903 SCIP_STAT* stat /**< dynamic problem statistics */
1904 )
1905{
1906 assert(conshdlr != NULL);
1907 assert(conshdlrAreUpdatesDelayed(conshdlr));
1908
1909 SCIPsetDebugMsg(set, "constraint updates of constraint handler <%s> will be processed immediately (count:%d)\n",
1910 conshdlr->name, conshdlr->delayupdatecount);
1911 conshdlr->delayupdatecount--;
1912
1913 /* only run the update if all delays are taken away (reference counting) */
1914 if( !conshdlrAreUpdatesDelayed(conshdlr) )
1915 {
1916 SCIP_CALL( conshdlrProcessUpdates(conshdlr, blkmem, set, stat) );
1917 assert(conshdlr->nupdateconss == 0);
1918 }
1919
1920 return SCIP_OKAY;
1921}
1922
1923/** adds constraint to constraint handler's update constraint array and captures it */
1924static
1926 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
1927 SCIP_SET* set, /**< global SCIP settings */
1928 SCIP_CONS* cons /**< constraint to add */
1929 )
1930{
1931 assert(conshdlr != NULL);
1932 assert(set != NULL);
1933 assert(cons != NULL);
1934 assert(cons->conshdlr == conshdlr);
1935
1936 if( !cons->update )
1937 {
1938 SCIPsetDebugMsg(set, "constraint <%s> of age %g has to be updated in constraint handler <%s> (consdata=%p)\n",
1939 cons->name, cons->age, conshdlr->name, (void*)cons->consdata);
1940
1941 /* add constraint to the updateconss array */
1942 SCIP_CALL( conshdlrEnsureUpdateconssMem(conshdlr, set, conshdlr->nupdateconss+1) );
1943 conshdlr->updateconss[conshdlr->nupdateconss] = cons;
1944 conshdlr->nupdateconss++;
1945
1946 /* capture constraint */
1947 SCIPconsCapture(cons);
1948
1949 cons->update = TRUE;
1950 }
1951
1952 return SCIP_OKAY;
1953}
1954
1955/** compares two constraint handlers w.r.t. their separation priority */
1956SCIP_DECL_SORTPTRCOMP(SCIPconshdlrCompSepa)
1957{ /*lint --e{715}*/
1958 return ((SCIP_CONSHDLR*)elem2)->sepapriority - ((SCIP_CONSHDLR*)elem1)->sepapriority;
1959}
1960
1961/** compares two constraint handlers w.r.t. their enforcing priority */
1962SCIP_DECL_SORTPTRCOMP(SCIPconshdlrCompEnfo)
1963{ /*lint --e{715}*/
1964 return ((SCIP_CONSHDLR*)elem2)->enfopriority - ((SCIP_CONSHDLR*)elem1)->enfopriority;
1965}
1966
1967/** compares two constraint handlers w.r.t. their feasibility check priority */
1968SCIP_DECL_SORTPTRCOMP(SCIPconshdlrCompCheck)
1969{ /*lint --e{715}*/
1970 return ((SCIP_CONSHDLR*)elem2)->checkpriority - ((SCIP_CONSHDLR*)elem1)->checkpriority;
1971}
1972
1973/** compares two constraints w.r.t. their feasibility check priority */
1974SCIP_DECL_SORTPTRCOMP(SCIPconsCompCheck)
1975{ /*lint --e{715}*/
1976 return ((SCIP_CONS*)elem2)->conshdlr->checkpriority - ((SCIP_CONS*)elem1)->conshdlr->checkpriority;
1977}
1978
1979/** copies the given constraint handler to a new scip */
1981 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
1982 SCIP_SET* set, /**< SCIP_SET of SCIP to copy to */
1983 SCIP_Bool* valid /**< was the copying process valid? */
1984 )
1985{
1986 assert(conshdlr != NULL);
1987 assert(set != NULL);
1988 assert(valid != NULL);
1989 assert(set->scip != NULL);
1990
1991 if( conshdlr->conshdlrcopy != NULL )
1992 {
1993 SCIPsetDebugMsg(set, "including constraint handler %s in subscip %p\n", SCIPconshdlrGetName(conshdlr), (void*)set->scip);
1994 SCIP_CALL( conshdlr->conshdlrcopy(set->scip, conshdlr, valid) );
1995 }
1996
1997 return SCIP_OKAY;
1998}
1999
2000/** internal method for creating a constraint handler */
2001static
2003 SCIP_CONSHDLR** conshdlr, /**< pointer to constraint handler data structure */
2004 SCIP_SET* set, /**< global SCIP settings */
2005 SCIP_MESSAGEHDLR* messagehdlr, /**< message handler */
2006 BMS_BLKMEM* blkmem, /**< block memory for parameter settings */
2007 const char* name, /**< name of constraint handler */
2008 const char* desc, /**< description of constraint handler */
2009 int sepapriority, /**< priority of the constraint handler for separation */
2010 int enfopriority, /**< priority of the constraint handler for constraint enforcing */
2011 int checkpriority, /**< priority of the constraint handler for checking feasibility (and propagation) */
2012 int sepafreq, /**< frequency for separating cuts; zero means to separate only in the root node */
2013 int propfreq, /**< frequency for propagating domains; zero means only preprocessing propagation */
2014 int eagerfreq, /**< frequency for using all instead of only the useful constraints in separation,
2015 * propagation and enforcement, -1 for no eager evaluations, 0 for first only */
2016 int maxprerounds, /**< maximal number of presolving rounds the constraint handler participates in (-1: no limit) */
2017 SCIP_Bool delaysepa, /**< should separation method be delayed, if other separators found cuts? */
2018 SCIP_Bool delayprop, /**< should propagation method be delayed, if other propagators found reductions? */
2019 SCIP_Bool needscons, /**< should the constraint handler be skipped, if no constraints are available? */
2020 SCIP_PROPTIMING proptiming, /**< positions in the node solving loop where propagation method of constraint handlers should be executed */
2021 SCIP_PRESOLTIMING presoltiming, /**< timing mask of the constraint handler's presolving method */
2022 SCIP_DECL_CONSHDLRCOPY((*conshdlrcopy)), /**< copy method of constraint handler or NULL if you don't want to copy your plugin into sub-SCIPs */
2023 SCIP_DECL_CONSFREE ((*consfree)), /**< destructor of constraint handler */
2024 SCIP_DECL_CONSINIT ((*consinit)), /**< initialize constraint handler */
2025 SCIP_DECL_CONSEXIT ((*consexit)), /**< deinitialize constraint handler */
2026 SCIP_DECL_CONSINITPRE ((*consinitpre)), /**< presolving initialization method of constraint handler */
2027 SCIP_DECL_CONSEXITPRE ((*consexitpre)), /**< presolving deinitialization method of constraint handler */
2028 SCIP_DECL_CONSINITSOL ((*consinitsol)), /**< solving process initialization method of constraint handler */
2029 SCIP_DECL_CONSEXITSOL ((*consexitsol)), /**< solving process deinitialization method of constraint handler */
2030 SCIP_DECL_CONSDELETE ((*consdelete)), /**< free specific constraint data */
2031 SCIP_DECL_CONSTRANS ((*constrans)), /**< transform constraint data into data belonging to the transformed problem */
2032 SCIP_DECL_CONSINITLP ((*consinitlp)), /**< initialize LP with relaxations of "initial" constraints */
2033 SCIP_DECL_CONSSEPALP ((*conssepalp)), /**< separate cutting planes for LP solution */
2034 SCIP_DECL_CONSSEPASOL ((*conssepasol)), /**< separate cutting planes for arbitrary primal solution */
2035 SCIP_DECL_CONSENFOLP ((*consenfolp)), /**< enforcing constraints for LP solutions */
2036 SCIP_DECL_CONSENFORELAX ((*consenforelax)), /**< enforcing constraints for relaxation solutions */
2037 SCIP_DECL_CONSENFOPS ((*consenfops)), /**< enforcing constraints for pseudo solutions */
2038 SCIP_DECL_CONSCHECK ((*conscheck)), /**< check feasibility of primal solution */
2039 SCIP_DECL_CONSPROP ((*consprop)), /**< propagate variable domains */
2040 SCIP_DECL_CONSPRESOL ((*conspresol)), /**< presolving method */
2041 SCIP_DECL_CONSRESPROP ((*consresprop)), /**< propagation conflict resolving method */
2042 SCIP_DECL_CONSLOCK ((*conslock)), /**< variable rounding lock method */
2043 SCIP_DECL_CONSACTIVE ((*consactive)), /**< activation notification method */
2044 SCIP_DECL_CONSDEACTIVE((*consdeactive)), /**< deactivation notification method */
2045 SCIP_DECL_CONSENABLE ((*consenable)), /**< enabling notification method */
2046 SCIP_DECL_CONSDISABLE ((*consdisable)), /**< disabling notification method */
2047 SCIP_DECL_CONSDELVARS ((*consdelvars)), /**< variable deletion method */
2048 SCIP_DECL_CONSPRINT ((*consprint)), /**< constraint display method */
2049 SCIP_DECL_CONSCOPY ((*conscopy)), /**< constraint copying method */
2050 SCIP_DECL_CONSPARSE ((*consparse)), /**< constraint parsing method */
2051 SCIP_DECL_CONSGETVARS ((*consgetvars)), /**< constraint get variables method */
2052 SCIP_DECL_CONSGETNVARS((*consgetnvars)), /**< constraint get number of variable method */
2053 SCIP_DECL_CONSGETDIVEBDCHGS((*consgetdivebdchgs)), /**< constraint handler diving solution enforcement method */
2054 SCIP_DECL_CONSGETPERMSYMGRAPH((*consgetpermsymgraph)), /**< constraint permutation symmetry detection graph
2055 * getter method */
2056 SCIP_DECL_CONSGETSIGNEDPERMSYMGRAPH((*consgetsignedpermsymgraph)), /**< constraint signed permutation
2057 * symmetry detection graph getter method */
2058 SCIP_CONSHDLRDATA* conshdlrdata /**< constraint handler data */
2059 )
2060{
2062 char paramdesc[SCIP_MAXSTRLEN];
2063
2064 assert(conshdlr != NULL);
2065 assert(name != NULL);
2066 assert(desc != NULL);
2067 assert(conssepalp != NULL || conssepasol != NULL || sepafreq == -1);
2068 assert(consprop != NULL || propfreq == -1);
2069 assert(eagerfreq >= -1);
2070 assert(!needscons || ((conshdlrcopy == NULL) == (conscopy == NULL)));
2071
2072 /* the interface change from delay flags to timings cannot be recognized at compile time: Exit with an appropriate
2073 * error message
2074 */
2075 if( presoltiming < SCIP_PRESOLTIMING_NONE || presoltiming > SCIP_PRESOLTIMING_MAX )
2076 {
2077 SCIPmessagePrintError("ERROR: 'PRESOLDELAY'-flag no longer available since SCIP 3.2, use an appropriate "
2078 "'SCIP_PRESOLTIMING' for <%s> constraint handler instead.\n", name);
2079
2081 }
2082
2083 /* both callbacks have to exist or not exist */
2084 assert((consgetvars != NULL) == (consgetnvars != NULL));
2085
2086 SCIP_ALLOC( BMSallocMemory(conshdlr) );
2087 BMSclearMemory(*conshdlr);
2088
2089 SCIP_ALLOC( BMSduplicateMemoryArray(&(*conshdlr)->name, name, strlen(name)+1) );
2090 SCIP_ALLOC( BMSduplicateMemoryArray(&(*conshdlr)->desc, desc, strlen(desc)+1) );
2091 (*conshdlr)->sepapriority = sepapriority;
2092 (*conshdlr)->enfopriority = enfopriority;
2093 (*conshdlr)->checkpriority = checkpriority;
2094 (*conshdlr)->sepafreq = sepafreq;
2095 (*conshdlr)->propfreq = propfreq;
2096 (*conshdlr)->eagerfreq = eagerfreq;
2097 (*conshdlr)->maxprerounds = maxprerounds;
2098 (*conshdlr)->conshdlrcopy = conshdlrcopy;
2099 (*conshdlr)->consfree = consfree;
2100 (*conshdlr)->consinit = consinit;
2101 (*conshdlr)->consexit = consexit;
2102 (*conshdlr)->consinitpre = consinitpre;
2103 (*conshdlr)->consexitpre = consexitpre;
2104 (*conshdlr)->consinitsol = consinitsol;
2105 (*conshdlr)->consexitsol = consexitsol;
2106 (*conshdlr)->consdelete = consdelete;
2107 (*conshdlr)->constrans = constrans;
2108 (*conshdlr)->consinitlp = consinitlp;
2109 (*conshdlr)->conssepalp = conssepalp;
2110 (*conshdlr)->conssepasol = conssepasol;
2111 (*conshdlr)->consenfolp = consenfolp;
2112 (*conshdlr)->consenforelax = consenforelax;
2113 (*conshdlr)->consenfops = consenfops;
2114 (*conshdlr)->conscheck = conscheck;
2115 (*conshdlr)->consprop = consprop;
2116 (*conshdlr)->conspresol = conspresol;
2117 (*conshdlr)->consresprop = consresprop;
2118 (*conshdlr)->conslock = conslock;
2119 (*conshdlr)->consactive = consactive;
2120 (*conshdlr)->consdeactive = consdeactive;
2121 (*conshdlr)->consenable = consenable;
2122 (*conshdlr)->consdisable = consdisable;
2123 (*conshdlr)->consprint = consprint;
2124 (*conshdlr)->consdelvars = consdelvars;
2125 (*conshdlr)->conscopy = conscopy;
2126 (*conshdlr)->consparse = consparse;
2127 (*conshdlr)->consgetvars = consgetvars;
2128 (*conshdlr)->consgetnvars = consgetnvars;
2129 (*conshdlr)->conshdlrdata = conshdlrdata;
2130 (*conshdlr)->consgetdivebdchgs = consgetdivebdchgs;
2131 (*conshdlr)->consgetpermsymgraph = consgetpermsymgraph;
2132 (*conshdlr)->consgetsignedpermsymgraph = consgetsignedpermsymgraph;
2133 (*conshdlr)->conss = NULL;
2134 (*conshdlr)->consssize = 0;
2135 (*conshdlr)->nconss = 0;
2136 (*conshdlr)->nactiveconss = 0;
2137 (*conshdlr)->maxnactiveconss = 0;
2138 (*conshdlr)->startnactiveconss = 0;
2139 (*conshdlr)->initconss = NULL;
2140 (*conshdlr)->initconsssize = 0;
2141 (*conshdlr)->ninitconss = 0;
2142 (*conshdlr)->ninitconsskept = 0;
2143 (*conshdlr)->sepaconss = NULL;
2144 (*conshdlr)->sepaconsssize = 0;
2145 (*conshdlr)->nsepaconss = 0;
2146 (*conshdlr)->nusefulsepaconss = 0;
2147 (*conshdlr)->enfoconss = NULL;
2148 (*conshdlr)->enfoconsssize = 0;
2149 (*conshdlr)->nenfoconss = 0;
2150 (*conshdlr)->nusefulenfoconss = 0;
2151 (*conshdlr)->checkconss = NULL;
2152 (*conshdlr)->checkconsssize = 0;
2153 (*conshdlr)->ncheckconss = 0;
2154 (*conshdlr)->nusefulcheckconss = 0;
2155 (*conshdlr)->propconss = NULL;
2156 (*conshdlr)->propconsssize = 0;
2157 (*conshdlr)->npropconss = 0;
2158 (*conshdlr)->nusefulpropconss = 0;
2159 (*conshdlr)->nmarkedpropconss = 0;
2160 (*conshdlr)->updateconss = NULL;
2161 (*conshdlr)->updateconsssize = 0;
2162 (*conshdlr)->nupdateconss = 0;
2163 (*conshdlr)->nenabledconss = 0;
2164 (*conshdlr)->lastnusefulpropconss = 0;
2165 (*conshdlr)->lastnusefulsepaconss = 0;
2166 (*conshdlr)->lastnusefulenfoconss = 0;
2167
2168 (*conshdlr)->storedpropconss = NULL;
2169 (*conshdlr)->storedpropconsssize = 0;
2170 (*conshdlr)->storednmarkedpropconss = 0;
2171 (*conshdlr)->storedpropdomchgcount = 0;
2172
2173 SCIP_CALL( SCIPclockCreate(&(*conshdlr)->setuptime, SCIP_CLOCKTYPE_DEFAULT) );
2174 SCIP_CALL( SCIPclockCreate(&(*conshdlr)->presoltime, SCIP_CLOCKTYPE_DEFAULT) );
2175 SCIP_CALL( SCIPclockCreate(&(*conshdlr)->sepatime, SCIP_CLOCKTYPE_DEFAULT) );
2176 SCIP_CALL( SCIPclockCreate(&(*conshdlr)->enfolptime, SCIP_CLOCKTYPE_DEFAULT) );
2177 SCIP_CALL( SCIPclockCreate(&(*conshdlr)->enfopstime, SCIP_CLOCKTYPE_DEFAULT) );
2178 SCIP_CALL( SCIPclockCreate(&(*conshdlr)->enforelaxtime, SCIP_CLOCKTYPE_DEFAULT) );
2179 SCIP_CALL( SCIPclockCreate(&(*conshdlr)->proptime, SCIP_CLOCKTYPE_DEFAULT) );
2180 SCIP_CALL( SCIPclockCreate(&(*conshdlr)->sbproptime, SCIP_CLOCKTYPE_DEFAULT) );
2181 SCIP_CALL( SCIPclockCreate(&(*conshdlr)->checktime, SCIP_CLOCKTYPE_DEFAULT) );
2182 SCIP_CALL( SCIPclockCreate(&(*conshdlr)->resproptime, SCIP_CLOCKTYPE_DEFAULT) );
2183
2184 (*conshdlr)->nsepacalls = 0;
2185 (*conshdlr)->nenfolpcalls = 0;
2186 (*conshdlr)->nenfopscalls = 0;
2187 (*conshdlr)->nenforelaxcalls = 0;
2188 (*conshdlr)->npropcalls = 0;
2189 (*conshdlr)->ncheckcalls = 0;
2190 (*conshdlr)->nrespropcalls = 0;
2191 (*conshdlr)->ncutoffs = 0;
2192 (*conshdlr)->ncutsfound = 0;
2193 (*conshdlr)->ncutsapplied = 0;
2194 (*conshdlr)->nconssfound = 0;
2195 (*conshdlr)->ndomredsfound = 0;
2196 (*conshdlr)->nchildren = 0;
2197 (*conshdlr)->lastpropdomchgcount = -1;
2198 (*conshdlr)->lastsepalpcount = -1;
2199 (*conshdlr)->lastenfolplpcount = -1;
2200 (*conshdlr)->lastenfolpdomchgcount = -1;
2201 (*conshdlr)->lastenfopsdomchgcount = -1;
2202 (*conshdlr)->lastenforelaxdomchgcount = -1;
2203 (*conshdlr)->lastenforelaxrelaxcount = -1;
2204 (*conshdlr)->lastenfolpnode = -1;
2205 (*conshdlr)->lastenfopsnode = -1;
2206 (*conshdlr)->lastenfolpresult = SCIP_DIDNOTRUN;
2207 (*conshdlr)->lastenfopsresult = SCIP_DIDNOTRUN;
2208 (*conshdlr)->lastenforelaxresult = SCIP_DIDNOTRUN;
2209 (*conshdlr)->lastnfixedvars = 0;
2210 (*conshdlr)->lastnaggrvars = 0;
2211 (*conshdlr)->lastnchgvartypes = 0;
2212 (*conshdlr)->lastnchgbds = 0;
2213 (*conshdlr)->lastnaddholes = 0;
2214 (*conshdlr)->lastndelconss = 0;
2215 (*conshdlr)->lastnaddconss = 0;
2216 (*conshdlr)->lastnupgdconss = 0;
2217 (*conshdlr)->lastnchgcoefs = 0;
2218 (*conshdlr)->lastnchgsides = 0;
2219 (*conshdlr)->nfixedvars = 0;
2220 (*conshdlr)->naggrvars = 0;
2221 (*conshdlr)->nchgvartypes = 0;
2222 (*conshdlr)->nchgbds = 0;
2223 (*conshdlr)->naddholes = 0;
2224 (*conshdlr)->ndelconss = 0;
2225 (*conshdlr)->naddconss = 0;
2226 (*conshdlr)->nupgdconss = 0;
2227 (*conshdlr)->nchgcoefs = 0;
2228 (*conshdlr)->nchgsides = 0;
2229 (*conshdlr)->npresolcalls = 0;
2230 (*conshdlr)->delayupdatecount = 0;
2231 (*conshdlr)->ageresetavg = AGERESETAVG_INIT;
2232 (*conshdlr)->needscons = needscons;
2233 (*conshdlr)->sepalpwasdelayed = FALSE;
2234 (*conshdlr)->sepasolwasdelayed = FALSE;
2235 (*conshdlr)->propwasdelayed = FALSE;
2236 (*conshdlr)->duringsepa = FALSE;
2237 (*conshdlr)->duringprop = FALSE;
2238 (*conshdlr)->initialized = FALSE;
2239
2240 /* add parameters */
2241 (void) SCIPsnprintf(paramname, SCIP_MAXSTRLEN, "constraints/%s/sepafreq", name);
2242 SCIP_CALL( SCIPsetAddIntParam(set, messagehdlr, blkmem, paramname,
2243 "frequency for separating cuts (-1: never, 0: only in root node)",
2244 &(*conshdlr)->sepafreq, FALSE, sepafreq, -1, SCIP_MAXTREEDEPTH, NULL, NULL) );
2245
2246 (void) SCIPsnprintf(paramname, SCIP_MAXSTRLEN, "constraints/%s/propfreq", name);
2247 SCIP_CALL( SCIPsetAddIntParam(set, messagehdlr, blkmem, paramname,
2248 "frequency for propagating domains (-1: never, 0: only in root node)",
2249 &(*conshdlr)->propfreq, FALSE, propfreq, -1, SCIP_MAXTREEDEPTH, NULL, NULL) );
2250
2251 (void) SCIPsnprintf(paramname, SCIP_MAXSTRLEN, "constraints/%s/proptiming", name);
2252 (void) SCIPsnprintf(paramdesc, SCIP_MAXSTRLEN, "timing when constraint propagation should be called (%u:BEFORELP, %u:DURINGLPLOOP, %u:AFTERLPLOOP, %u:ALWAYS)", SCIP_PROPTIMING_BEFORELP, SCIP_PROPTIMING_DURINGLPLOOP, SCIP_PROPTIMING_AFTERLPLOOP, SCIP_PROPTIMING_ALWAYS);
2253 SCIP_CALL( SCIPsetAddIntParam(set, messagehdlr, blkmem, paramname, paramdesc,
2254 (int*)(&(*conshdlr)->proptiming), TRUE, (int) proptiming, (int) SCIP_PROPTIMING_BEFORELP, (int) SCIP_PROPTIMING_ALWAYS, NULL, NULL) ); /*lint !e713*/
2255
2256 (void) SCIPsnprintf(paramname, SCIP_MAXSTRLEN, "constraints/%s/eagerfreq", name);
2257 SCIP_CALL( SCIPsetAddIntParam(set, messagehdlr, blkmem, paramname,
2258 "frequency for using all instead of only the useful constraints in separation, propagation and enforcement (-1: never, 0: only in first evaluation)",
2259 &(*conshdlr)->eagerfreq, TRUE, eagerfreq, -1, SCIP_MAXTREEDEPTH, NULL, NULL) );
2260
2261 (void) SCIPsnprintf(paramname, SCIP_MAXSTRLEN, "constraints/%s/maxprerounds", name);
2262 SCIP_CALL( SCIPsetAddIntParam(set, messagehdlr, blkmem, paramname,
2263 "maximal number of presolving rounds the constraint handler participates in (-1: no limit)",
2264 &(*conshdlr)->maxprerounds, TRUE, maxprerounds, -1, INT_MAX, NULL, NULL) );
2265
2266 (void) SCIPsnprintf(paramname, SCIP_MAXSTRLEN, "constraints/%s/delaysepa", name);
2267 SCIP_CALL( SCIPsetAddBoolParam(set, messagehdlr, blkmem, paramname,
2268 "should separation method be delayed, if other separators found cuts?",
2269 &(*conshdlr)->delaysepa, TRUE, delaysepa, NULL, NULL) ); /*lint !e740*/
2270
2271 (void) SCIPsnprintf(paramname, SCIP_MAXSTRLEN, "constraints/%s/delayprop", name);
2272 SCIP_CALL( SCIPsetAddBoolParam(set, messagehdlr, blkmem, paramname,
2273 "should propagation method be delayed, if other propagators found reductions?",
2274 &(*conshdlr)->delayprop, TRUE, delayprop, NULL, NULL) ); /*lint !e740*/
2275
2276 (void) SCIPsnprintf(paramname, SCIP_MAXSTRLEN, "constraints/%s/presoltiming", name);
2277 (void) SCIPsnprintf(paramdesc, SCIP_MAXSTRLEN, "timing mask of the constraint handler's presolving method (%u:FAST, %u:MEDIUM, %u:EXHAUSTIVE, %u:FINAL)",
2279 SCIP_CALL( SCIPsetAddIntParam(set, messagehdlr, blkmem, paramname, paramdesc,
2280 (int*)&(*conshdlr)->presoltiming, TRUE, (int) presoltiming, (int) SCIP_PRESOLTIMING_FAST, (int) SCIP_PRESOLTIMING_MAX, NULL, NULL) ); /*lint !e740 !e713*/
2281
2282 return SCIP_OKAY;
2283}
2284
2285/** creates a constraint handler */
2287 SCIP_CONSHDLR** conshdlr, /**< pointer to constraint handler data structure */
2288 SCIP_SET* set, /**< global SCIP settings */
2289 SCIP_MESSAGEHDLR* messagehdlr, /**< message handler */
2290 BMS_BLKMEM* blkmem, /**< block memory for parameter settings */
2291 const char* name, /**< name of constraint handler */
2292 const char* desc, /**< description of constraint handler */
2293 int sepapriority, /**< priority of the constraint handler for separation */
2294 int enfopriority, /**< priority of the constraint handler for constraint enforcing */
2295 int checkpriority, /**< priority of the constraint handler for checking feasibility (and propagation) */
2296 int sepafreq, /**< frequency for separating cuts; zero means to separate only in the root node */
2297 int propfreq, /**< frequency for propagating domains; zero means only preprocessing propagation */
2298 int eagerfreq, /**< frequency for using all instead of only the useful constraints in separation,
2299 * propagation and enforcement, -1 for no eager evaluations, 0 for first only */
2300 int maxprerounds, /**< maximal number of presolving rounds the constraint handler participates in (-1: no limit) */
2301 SCIP_Bool delaysepa, /**< should separation method be delayed, if other separators found cuts? */
2302 SCIP_Bool delayprop, /**< should propagation method be delayed, if other propagators found reductions? */
2303 SCIP_Bool needscons, /**< should the constraint handler be skipped, if no constraints are available? */
2304 SCIP_PROPTIMING proptiming, /**< positions in the node solving loop where propagation method of constraint handlers should be executed */
2305 SCIP_PRESOLTIMING presoltiming, /**< timing mask of the constraint handler's presolving method */
2306 SCIP_DECL_CONSHDLRCOPY((*conshdlrcopy)), /**< copy method of constraint handler or NULL if you don't want to copy your plugin into sub-SCIPs */
2307 SCIP_DECL_CONSFREE ((*consfree)), /**< destructor of constraint handler */
2308 SCIP_DECL_CONSINIT ((*consinit)), /**< initialize constraint handler */
2309 SCIP_DECL_CONSEXIT ((*consexit)), /**< deinitialize constraint handler */
2310 SCIP_DECL_CONSINITPRE ((*consinitpre)), /**< presolving initialization method of constraint handler */
2311 SCIP_DECL_CONSEXITPRE ((*consexitpre)), /**< presolving deinitialization method of constraint handler */
2312 SCIP_DECL_CONSINITSOL ((*consinitsol)), /**< solving process initialization method of constraint handler */
2313 SCIP_DECL_CONSEXITSOL ((*consexitsol)), /**< solving process deinitialization method of constraint handler */
2314 SCIP_DECL_CONSDELETE ((*consdelete)), /**< free specific constraint data */
2315 SCIP_DECL_CONSTRANS ((*constrans)), /**< transform constraint data into data belonging to the transformed problem */
2316 SCIP_DECL_CONSINITLP ((*consinitlp)), /**< initialize LP with relaxations of "initial" constraints */
2317 SCIP_DECL_CONSSEPALP ((*conssepalp)), /**< separate cutting planes for LP solution */
2318 SCIP_DECL_CONSSEPASOL ((*conssepasol)), /**< separate cutting planes for arbitrary primal solution */
2319 SCIP_DECL_CONSENFOLP ((*consenfolp)), /**< enforcing constraints for LP solutions */
2320 SCIP_DECL_CONSENFORELAX ((*consenforelax)), /**< enforcing constraints for relaxation solutions */
2321 SCIP_DECL_CONSENFOPS ((*consenfops)), /**< enforcing constraints for pseudo solutions */
2322 SCIP_DECL_CONSCHECK ((*conscheck)), /**< check feasibility of primal solution */
2323 SCIP_DECL_CONSPROP ((*consprop)), /**< propagate variable domains */
2324 SCIP_DECL_CONSPRESOL ((*conspresol)), /**< presolving method */
2325 SCIP_DECL_CONSRESPROP ((*consresprop)), /**< propagation conflict resolving method */
2326 SCIP_DECL_CONSLOCK ((*conslock)), /**< variable rounding lock method */
2327 SCIP_DECL_CONSACTIVE ((*consactive)), /**< activation notification method */
2328 SCIP_DECL_CONSDEACTIVE((*consdeactive)), /**< deactivation notification method */
2329 SCIP_DECL_CONSENABLE ((*consenable)), /**< enabling notification method */
2330 SCIP_DECL_CONSDISABLE ((*consdisable)), /**< disabling notification method */
2331 SCIP_DECL_CONSDELVARS ((*consdelvars)), /**< variable deletion method */
2332 SCIP_DECL_CONSPRINT ((*consprint)), /**< constraint display method */
2333 SCIP_DECL_CONSCOPY ((*conscopy)), /**< constraint copying method */
2334 SCIP_DECL_CONSPARSE ((*consparse)), /**< constraint parsing method */
2335 SCIP_DECL_CONSGETVARS ((*consgetvars)), /**< constraint get variables method */
2336 SCIP_DECL_CONSGETNVARS((*consgetnvars)), /**< constraint get number of variable method */
2337 SCIP_DECL_CONSGETDIVEBDCHGS((*consgetdivebdchgs)), /**< constraint handler diving solution enforcement method */
2338 SCIP_DECL_CONSGETPERMSYMGRAPH((*consgetpermsymgraph)), /**< constraint permutation symmetry detection graph
2339 * getter method */
2340 SCIP_DECL_CONSGETSIGNEDPERMSYMGRAPH((*consgetsignedpermsymgraph)), /**< constraint signed permutation symmetry
2341 * detection graph getter method */
2342 SCIP_CONSHDLRDATA* conshdlrdata /**< constraint handler data */
2343 )
2344{
2345 assert(conshdlr != NULL);
2346 assert(name != NULL);
2347 assert(desc != NULL);
2348 assert(conssepalp != NULL || conssepasol != NULL || sepafreq == -1);
2349 assert(consprop != NULL || propfreq == -1);
2350 assert(eagerfreq >= -1);
2351 assert(!needscons || ((conshdlrcopy == NULL) == (conscopy == NULL)));
2352
2353 SCIP_CALL_FINALLY( doConshdlrCreate(conshdlr, set, messagehdlr, blkmem, name, desc, sepapriority, enfopriority,
2354 checkpriority, sepafreq, propfreq, eagerfreq, maxprerounds, delaysepa, delayprop, needscons, proptiming,
2355 presoltiming, conshdlrcopy, consfree, consinit, consexit, consinitpre, consexitpre, consinitsol, consexitsol,
2356 consdelete, constrans, consinitlp, conssepalp, conssepasol, consenfolp, consenforelax, consenfops, conscheck,
2357 consprop, conspresol, consresprop, conslock, consactive, consdeactive, consenable, consdisable, consdelvars,
2358 consprint, conscopy, consparse, consgetvars, consgetnvars, consgetdivebdchgs, consgetpermsymgraph,
2359 consgetsignedpermsymgraph, conshdlrdata),
2360 (void) SCIPconshdlrFree(conshdlr, set) );
2361
2362 return SCIP_OKAY;
2363} /*lint !e715*/
2364
2365/** calls destructor and frees memory of constraint handler */
2367 SCIP_CONSHDLR** conshdlr, /**< pointer to constraint handler data structure */
2368 SCIP_SET* set /**< global SCIP settings */
2369 )
2370{
2371 assert(conshdlr != NULL);
2372 if( *conshdlr == NULL )
2373 return SCIP_OKAY;
2374 assert(!(*conshdlr)->initialized);
2375 assert((*conshdlr)->nconss == 0);
2376 assert(set != NULL);
2377
2378 /* call destructor of constraint handler */
2379 if( (*conshdlr)->consfree != NULL )
2380 {
2381 SCIP_CALL( (*conshdlr)->consfree(set->scip, *conshdlr) );
2382 }
2383
2384 SCIPclockFree(&(*conshdlr)->resproptime);
2385 SCIPclockFree(&(*conshdlr)->checktime);
2386 SCIPclockFree(&(*conshdlr)->sbproptime);
2387 SCIPclockFree(&(*conshdlr)->proptime);
2388 SCIPclockFree(&(*conshdlr)->enforelaxtime);
2389 SCIPclockFree(&(*conshdlr)->enfopstime);
2390 SCIPclockFree(&(*conshdlr)->enfolptime);
2391 SCIPclockFree(&(*conshdlr)->sepatime);
2392 SCIPclockFree(&(*conshdlr)->presoltime);
2393 SCIPclockFree(&(*conshdlr)->setuptime);
2394
2395 BMSfreeMemoryArrayNull(&(*conshdlr)->name);
2396 BMSfreeMemoryArrayNull(&(*conshdlr)->desc);
2397 BMSfreeMemoryArrayNull(&(*conshdlr)->conss);
2398 BMSfreeMemoryArrayNull(&(*conshdlr)->initconss);
2399 BMSfreeMemoryArrayNull(&(*conshdlr)->sepaconss);
2400 BMSfreeMemoryArrayNull(&(*conshdlr)->enfoconss);
2401 BMSfreeMemoryArrayNull(&(*conshdlr)->checkconss);
2402 BMSfreeMemoryArrayNull(&(*conshdlr)->propconss);
2403 BMSfreeMemoryArrayNull(&(*conshdlr)->updateconss);
2404 BMSfreeMemoryArrayNull(&(*conshdlr)->storedpropconss);
2405 BMSfreeMemory(conshdlr);
2406
2407 return SCIP_OKAY;
2408}
2409
2410/** calls initialization method of constraint handler */
2412 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
2413 BMS_BLKMEM* blkmem, /**< block memory */
2414 SCIP_SET* set, /**< global SCIP settings */
2415 SCIP_STAT* stat /**< dynamic problem statistics */
2416 )
2417{
2418 assert(conshdlr != NULL);
2419 assert(set != NULL);
2420
2421 if( conshdlr->initialized )
2422 {
2423 SCIPerrorMessage("constraint handler <%s> already initialized\n", conshdlr->name);
2424 return SCIP_INVALIDCALL;
2425 }
2426
2427 if( set->misc_resetstat )
2428 {
2429 SCIPclockReset(conshdlr->setuptime);
2430 SCIPclockReset(conshdlr->presoltime);
2431 SCIPclockReset(conshdlr->sepatime);
2432 SCIPclockReset(conshdlr->enfolptime);
2433 SCIPclockReset(conshdlr->enfopstime);
2434 SCIPclockReset(conshdlr->enforelaxtime);
2435 SCIPclockReset(conshdlr->proptime);
2436 SCIPclockReset(conshdlr->sbproptime);
2437 SCIPclockReset(conshdlr->checktime);
2438 SCIPclockReset(conshdlr->resproptime);
2439
2440 conshdlr->nsepacalls = 0;
2441 conshdlr->nenfolpcalls = 0;
2442 conshdlr->nenfopscalls = 0;
2443 conshdlr->nenforelaxcalls = 0;
2444 conshdlr->npropcalls = 0;
2445 conshdlr->ncheckcalls = 0;
2446 conshdlr->nrespropcalls = 0;
2447 conshdlr->ncutoffs = 0;
2448 conshdlr->ncutsfound = 0;
2449 conshdlr->ncutsapplied = 0;
2450 conshdlr->nconssfound = 0;
2451 conshdlr->ndomredsfound = 0;
2452 conshdlr->nchildren = 0;
2453 conshdlr->lastpropdomchgcount = -1;
2454 conshdlr->lastenfolpdomchgcount = -1;
2455 conshdlr->lastenfopsdomchgcount = -1;
2456 conshdlr->lastenforelaxdomchgcount = -1;
2457 conshdlr->lastenforelaxrelaxcount = -1;
2458 conshdlr->lastenfolpnode = -1;
2459 conshdlr->lastenfopsnode = -1;
2460 conshdlr->lastenfolpresult = SCIP_DIDNOTRUN;
2461 conshdlr->lastenfopsresult = SCIP_DIDNOTRUN;
2462 conshdlr->maxnactiveconss = conshdlr->nactiveconss;
2463 conshdlr->startnactiveconss = 0;
2464 conshdlr->lastsepalpcount = -1;
2465 conshdlr->lastenfolplpcount = -1;
2466 conshdlr->lastnusefulpropconss = 0;
2467 conshdlr->lastnusefulsepaconss = 0;
2468 conshdlr->lastnusefulenfoconss = 0;
2469 conshdlr->lastnfixedvars = 0;
2470 conshdlr->lastnaggrvars = 0;
2471 conshdlr->lastnchgvartypes = 0;
2472 conshdlr->lastnchgbds = 0;
2473 conshdlr->lastnaddholes = 0;
2474 conshdlr->lastndelconss = 0;
2475 conshdlr->lastnaddconss = 0;
2476 conshdlr->lastnupgdconss = 0;
2477 conshdlr->lastnchgcoefs = 0;
2478 conshdlr->lastnchgsides = 0;
2479 conshdlr->nfixedvars = 0;
2480 conshdlr->naggrvars = 0;
2481 conshdlr->nchgvartypes = 0;
2482 conshdlr->nchgbds = 0;
2483 conshdlr->naddholes = 0;
2484 conshdlr->ndelconss = 0;
2485 conshdlr->naddconss = 0;
2486 conshdlr->nupgdconss = 0;
2487 conshdlr->nchgcoefs = 0;
2488 conshdlr->nchgsides = 0;
2489 conshdlr->npresolcalls = 0;
2490 conshdlr->ageresetavg = AGERESETAVG_INIT;
2491 conshdlr->sepalpwasdelayed = FALSE;
2492 conshdlr->sepasolwasdelayed = FALSE;
2493 conshdlr->propwasdelayed = FALSE;
2494 }
2495
2496 /* call initialization method of constraint handler */
2497 if( conshdlr->consinit != NULL )
2498 {
2499 /* because during constraint processing, constraints of this handler may be deleted, activated, deactivated,
2500 * enabled, disabled, marked obsolete or useful, which would change the conss array given to the
2501 * external method; to avoid this, these changes will be buffered and processed after the method call
2502 */
2503 conshdlrDelayUpdates(conshdlr);
2504
2505 /* start timing */
2506 SCIPclockStart(conshdlr->setuptime, set);
2507
2508 /* call external method */
2509 SCIP_CALL( conshdlr->consinit(set->scip, conshdlr, conshdlr->conss, conshdlr->nconss) );
2510
2511 /* stop timing */
2512 SCIPclockStop(conshdlr->setuptime, set);
2513
2514 /* perform the cached constraint updates */
2515 SCIP_CALL( conshdlrForceUpdates(conshdlr, blkmem, set, stat) );
2516 }
2517 conshdlr->initialized = TRUE;
2518 assert(!conshdlrAreUpdatesDelayed(conshdlr));
2519
2520 return SCIP_OKAY;
2521}
2522
2523/** calls exit method of constraint handler */
2525 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
2526 BMS_BLKMEM* blkmem, /**< block memory */
2527 SCIP_SET* set, /**< global SCIP settings */
2528 SCIP_STAT* stat /**< dynamic problem statistics */
2529 )
2530{
2531 assert(conshdlr != NULL);
2532 assert(set != NULL);
2533
2534 if( !conshdlr->initialized )
2535 {
2536 SCIPerrorMessage("constraint handler <%s> not initialized\n", conshdlr->name);
2537 return SCIP_INVALIDCALL;
2538 }
2539
2540 /* call deinitialization method of constraint handler */
2541 if( conshdlr->consexit != NULL )
2542 {
2543 /* because during constraint processing, constraints of this handler may be deleted, activated, deactivated,
2544 * enabled, disabled, marked obsolete or useful, which would change the conss array given to the
2545 * external method; to avoid this, these changes will be buffered and processed after the method call
2546 */
2547 conshdlrDelayUpdates(conshdlr);
2548
2549 /* start timing */
2550 SCIPclockStart(conshdlr->setuptime, set);
2551
2552 /* call external method */
2553 SCIP_CALL( conshdlr->consexit(set->scip, conshdlr, conshdlr->conss, conshdlr->nconss) );
2554
2555 /* stop timing */
2556 SCIPclockStop(conshdlr->setuptime, set);
2557
2558 /* perform the cached constraint updates */
2559 SCIP_CALL( conshdlrForceUpdates(conshdlr, blkmem, set, stat) );
2560 }
2561 conshdlr->initialized = FALSE;
2562
2563 return SCIP_OKAY;
2564}
2565
2566/** informs constraint handler that the presolving process is being started */
2568 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
2569 BMS_BLKMEM* blkmem, /**< block memory */
2570 SCIP_SET* set, /**< global SCIP settings */
2571 SCIP_STAT* stat /**< dynamic problem statistics */
2572 )
2573{
2574 assert(conshdlr != NULL);
2575 assert(set != NULL);
2576
2577 /* reset conshdlr last presolved data in case of a restart */
2578 conshdlr->lastpropdomchgcount = -1;
2579 conshdlr->lastenfolpdomchgcount = -1;
2580 conshdlr->lastenfopsdomchgcount = -1;
2581 conshdlr->lastenforelaxdomchgcount = -1;
2582 conshdlr->lastenforelaxrelaxcount = -1;
2583 conshdlr->lastenfolpnode = -1;
2584 conshdlr->lastenfopsnode = -1;
2585 conshdlr->lastenfolpresult = SCIP_DIDNOTRUN;
2586 conshdlr->lastenfopsresult = SCIP_DIDNOTRUN;
2588 conshdlr->maxnactiveconss = conshdlr->nactiveconss;
2589 conshdlr->startnactiveconss = 0;
2590 conshdlr->lastsepalpcount = -1;
2591 conshdlr->lastenfolplpcount = -1;
2592 conshdlr->lastnusefulpropconss = 0;
2593 conshdlr->lastnusefulsepaconss = 0;
2594 conshdlr->lastnusefulenfoconss = 0;
2595 conshdlr->lastnfixedvars = 0;
2596 conshdlr->lastnaggrvars = 0;
2597 conshdlr->lastnchgvartypes = 0;
2598 conshdlr->lastnchgbds = 0;
2599 conshdlr->lastnaddholes = 0;
2600 conshdlr->lastndelconss = 0;
2601 conshdlr->lastnaddconss = 0;
2602 conshdlr->lastnupgdconss = 0;
2603 conshdlr->lastnchgcoefs = 0;
2604 conshdlr->lastnchgsides = 0;
2605 conshdlr->propwasdelayed = FALSE;
2606
2607 /* call presolving initialization method of constraint handler */
2608 if( conshdlr->consinitpre != NULL )
2609 {
2610 /* because during constraint processing, constraints of this handler may be deleted, activated, deactivated,
2611 * enabled, disabled, marked obsolete or useful, which would change the conss array given to the
2612 * external method; to avoid this, these changes will be buffered and processed after the method call
2613 */
2614 conshdlrDelayUpdates(conshdlr);
2615
2616 /* start timing */
2617 SCIPclockStart(conshdlr->setuptime, set);
2618
2619 /* call external method */
2620 SCIP_CALL( conshdlr->consinitpre(set->scip, conshdlr, conshdlr->conss, conshdlr->nconss) );
2621
2622 /* stop timing */
2623 SCIPclockStop(conshdlr->setuptime, set);
2624
2625 /* perform the cached constraint updates */
2626 SCIP_CALL( conshdlrForceUpdates(conshdlr, blkmem, set, stat) );
2627 }
2628
2629 /* after a restart the LP is empty but the initial constraints are not included in the initialconss array anymore;
2630 * we have to put them back into this array in order to obtain the correct initial root relaxation
2631 */
2632 if( stat->nruns >= 2 )
2633 {
2634 int c;
2635
2636 for( c = 0; c < conshdlr->nconss; ++c )
2637 {
2638 /**@todo should only active constraints be added to the initconss array? at least cons->active is asserted in
2639 * conshdlrAddInitcons(conshdlr, set, conshdlr->conss[c])
2640 */
2641 if( conshdlr->conss[c]->addarraypos >= 0 && !conshdlr->conss[c]->deleted &&
2642 conshdlr->conss[c]->initial && conshdlr->conss[c]->initconsspos == -1 )
2643 {
2644 SCIP_CALL( conshdlrAddInitcons(conshdlr, set, stat, conshdlr->conss[c]) );
2645 }
2646 }
2647 }
2648
2649 return SCIP_OKAY;
2650}
2651
2652/** informs constraint handler that the presolving is finished */
2654 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
2655 BMS_BLKMEM* blkmem, /**< block memory */
2656 SCIP_SET* set, /**< global SCIP settings */
2657 SCIP_STAT* stat /**< dynamic problem statistics */
2658 )
2659{
2660 assert(conshdlr != NULL);
2661 assert(set != NULL);
2662
2663 /* call presolving deinitialization method of constraint handler */
2664 if( conshdlr->consexitpre != NULL )
2665 {
2666 /* because during constraint processing, constraints of this handler may be deleted, activated, deactivated,
2667 * enabled, disabled, marked obsolete or useful, which would change the conss array given to the
2668 * external method; to avoid this, these changes will be buffered and processed after the method call
2669 */
2670 conshdlrDelayUpdates(conshdlr);
2671
2672 /* start timing */
2673 SCIPclockStart(conshdlr->setuptime, set);
2674
2675 /* call external method */
2676 SCIP_CALL( conshdlr->consexitpre(set->scip, conshdlr, conshdlr->conss, conshdlr->nconss) );
2677
2678 /* stop timing */
2679 SCIPclockStop(conshdlr->setuptime, set);
2680
2681 /* perform the cached constraint updates */
2682 SCIP_CALL( conshdlrForceUpdates(conshdlr, blkmem, set, stat) );
2683 }
2684
2685 /* update statistics */
2686 conshdlr->maxnactiveconss = conshdlr->nactiveconss;
2687 conshdlr->startnactiveconss = conshdlr->nactiveconss;
2688
2689 return SCIP_OKAY;
2690}
2691
2692/** informs constraint handler that the branch and bound process is being started */
2694 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
2695 BMS_BLKMEM* blkmem, /**< block memory */
2696 SCIP_SET* set, /**< global SCIP settings */
2697 SCIP_STAT* stat /**< dynamic problem statistics */
2698 )
2699{
2700 assert(conshdlr != NULL);
2701 assert(set != NULL);
2702 assert(stat != NULL);
2703
2704 conshdlr->sepalpwasdelayed = FALSE;
2705 conshdlr->sepasolwasdelayed = FALSE;
2706
2707 /* call solving process initialization method of constraint handler */
2708 if( conshdlr->consinitsol != NULL )
2709 {
2710 /* because during constraint processing, constraints of this handler may be deleted, activated, deactivated,
2711 * enabled, disabled, marked obsolete or useful, which would change the conss array given to the
2712 * external method; to avoid this, these changes will be buffered and processed after the method call
2713 */
2714 conshdlrDelayUpdates(conshdlr);
2715
2716 /* start timing */
2717 SCIPclockStart(conshdlr->setuptime, set);
2718
2719 /* call external method */
2720 SCIP_CALL( conshdlr->consinitsol(set->scip, conshdlr, conshdlr->conss, conshdlr->nconss) );
2721
2722 /* stop timing */
2723 SCIPclockStop(conshdlr->setuptime, set);
2724
2725 /* perform the cached constraint updates */
2726 SCIP_CALL( conshdlrForceUpdates(conshdlr, blkmem, set, stat) );
2727 }
2728
2729 return SCIP_OKAY;
2730}
2731
2732/** informs constraint handler that the branch and bound process data is being freed */
2734 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
2735 BMS_BLKMEM* blkmem, /**< block memory */
2736 SCIP_SET* set, /**< global SCIP settings */
2737 SCIP_STAT* stat, /**< dynamic problem statistics */
2738 SCIP_Bool restart /**< was this exit solve call triggered by a restart? */
2739 )
2740{
2741 assert(conshdlr != NULL);
2742 assert(set != NULL);
2743
2744 /* call solving process deinitialization method of constraint handler */
2745 if( conshdlr->consexitsol != NULL )
2746 {
2747 /* because during constraint processing, constraints of this handler may be deleted, activated, deactivated,
2748 * enabled, disabled, marked obsolete or useful, which would change the conss array given to the
2749 * external method; to avoid this, these changes will be buffered and processed after the method call
2750 */
2751 conshdlrDelayUpdates(conshdlr);
2752
2753 /* start timing */
2754 SCIPclockStart(conshdlr->setuptime, set);
2755
2756 /* call external method */
2757 SCIP_CALL( conshdlr->consexitsol(set->scip, conshdlr, conshdlr->conss, conshdlr->nconss, restart) );
2758
2759 /* stop timing */
2760 SCIPclockStop(conshdlr->setuptime, set);
2761
2762 /* perform the cached constraint updates */
2763 SCIP_CALL( conshdlrForceUpdates(conshdlr, blkmem, set, stat) );
2764 }
2765
2766 return SCIP_OKAY;
2767}
2768
2769/** calls LP initialization method of constraint handler to separate all initial active constraints */
2771 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
2772 BMS_BLKMEM* blkmem, /**< block memory */
2773 SCIP_SET* set, /**< global SCIP settings */
2774 SCIP_STAT* stat, /**< dynamic problem statistics */
2775 SCIP_TREE* tree, /**< branch and bound tree */
2776 SCIP_Bool initkeptconss, /**< Also initialize constraints which are valid at a more global node,
2777 * but were not activated there? Should be FALSE for repeated calls at
2778 * one node or if the current focusnode is a child of the former one */
2779 SCIP_Bool* cutoff /**< pointer to store whether infeasibility was detected while building the LP */
2780 )
2781{
2782 assert(conshdlr != NULL);
2783 assert(cutoff != NULL);
2784#ifdef MORE_DEBUG
2785 assert(stat->nnodes > 1 || conshdlr->ninitconsskept == 0 || SCIPtreeProbing(tree));
2786#endif
2787
2788 *cutoff = FALSE;
2789
2790 if( conshdlr->consinitlp != NULL )
2791 {
2792 int currentdepth;
2793 int oldninitconss;
2794 int c;
2795
2796 SCIPsetDebugMsg(set, "initializing LP with %d initial constraints of handler <%s> (ninitconss=%d, kept=%d, initkept=%u)\n",
2797 initkeptconss ? conshdlr->ninitconss : conshdlr->ninitconss - conshdlr->ninitconsskept, conshdlr->name,
2798 conshdlr->ninitconss, conshdlr->ninitconsskept, initkeptconss);
2799
2800 /* no constraints to initialize (or only kept constraints which do not need to be initialized this time) -> return */
2801 if( conshdlr->needscons && (conshdlr->ninitconss == 0 || (!initkeptconss && conshdlr->ninitconss == conshdlr->ninitconsskept)) )
2802 return SCIP_OKAY;
2803
2804 /* because during constraint processing, constraints of this handler may be deleted, activated, deactivated,
2805 * enabled, disabled, marked obsolete or useful, which would change the conss array given to the
2806 * external method; to avoid this, these changes will be buffered and processed after the method call
2807 */
2808 conshdlrDelayUpdates(conshdlr);
2809
2810 oldninitconss = conshdlr->ninitconss;
2811
2812 /* start timing */
2813 SCIPclockStart(conshdlr->sepatime, set);
2814
2815 if( initkeptconss )
2816 {
2817 /* add all kept initial constraints which are currently active to the second part of the initconss array */
2818 /* @todo keep track of where a constraint was already initialized (e.g., in the conssetchg)? */
2819 for( c = 0; c < conshdlr->ninitconsskept; ++c )
2820 {
2821 assert(conshdlr->initconss[c]->initconsspos == c);
2822
2823 if( SCIPconsIsActive(conshdlr->initconss[c]) )
2824 {
2825 SCIP_CALL( conshdlrAddInitcons(conshdlr, set, stat, conshdlr->initconss[c]) );
2826 }
2827 }
2828 }
2829
2830 /* call external method */
2831 SCIP_CALL( conshdlr->consinitlp(set->scip, conshdlr, &conshdlr->initconss[conshdlr->ninitconsskept],
2832 conshdlr->ninitconss - conshdlr->ninitconsskept, cutoff) );
2833
2834 /* stop timing */
2835 SCIPclockStop(conshdlr->sepatime, set);
2836
2837 /* perform the cached constraint updates */
2838 SCIP_CALL( conshdlrForceUpdates(conshdlr, blkmem, set, stat) );
2839
2840 currentdepth = SCIPtreeGetCurrentDepth(tree);
2841 assert(currentdepth >= 0);
2842
2843 /* clear the initconss array */
2844 for( c = conshdlr->ninitconsskept; c < oldninitconss; ++c )
2845 {
2846 assert(SCIPconsGetActiveDepth(conshdlr->initconss[c]) >= -1);
2847 assert(SCIPconsGetActiveDepth(conshdlr->initconss[c]) <= currentdepth);
2848
2849 /* if the constraint was not initialized at its valid node, we keep it */
2850 if( currentdepth > 0 ? SCIPconsGetActiveDepth(conshdlr->initconss[c]) != currentdepth :
2851 SCIPconsGetActiveDepth(conshdlr->initconss[c]) > 0 )
2852 {
2853 conshdlr->initconss[conshdlr->ninitconsskept] = conshdlr->initconss[c];
2854 conshdlr->initconss[conshdlr->ninitconsskept]->initconsspos = conshdlr->ninitconsskept;
2855 ++(conshdlr->ninitconsskept);
2856 }
2857 else
2858 conshdlr->initconss[c]->initconsspos = -1;
2859 }
2860#ifndef NDEBUG
2861 for( ; c < conshdlr->ninitconss; ++c )
2862 assert(conshdlr->initconss[c]->initconsspos < conshdlr->ninitconsskept);
2863#endif
2864 conshdlr->ninitconss = conshdlr->ninitconsskept;
2865
2866 if( conshdlr->ninitconss == 0 )
2867 {
2869 conshdlr->initconsssize = 0;
2870 }
2871 }
2872
2873 return SCIP_OKAY;
2874}
2875
2876/** calls separator method of constraint handler to separate LP solution */
2878 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
2879 BMS_BLKMEM* blkmem, /**< block memory */
2880 SCIP_SET* set, /**< global SCIP settings */
2881 SCIP_STAT* stat, /**< dynamic problem statistics */
2882 SCIP_SEPASTORE* sepastore, /**< separation storage */
2883 int depth, /**< depth of current node */
2884 SCIP_Bool execdelayed, /**< execute separation method even if it is marked to be delayed */
2885 SCIP_RESULT* result /**< pointer to store the result of the callback method */
2886 )
2887{
2888 assert(conshdlr != NULL);
2889 assert(conshdlr->nusefulsepaconss <= conshdlr->nsepaconss);
2890 assert(conshdlr->nusefulenfoconss <= conshdlr->nenfoconss);
2891 assert(conshdlr->nusefulcheckconss <= conshdlr->ncheckconss);
2892 assert(conshdlr->nusefulpropconss <= conshdlr->npropconss);
2893 assert(stat != NULL);
2894 assert(conshdlr->lastsepalpcount != stat->lpcount
2895 || (0 <= conshdlr->lastnusefulsepaconss && conshdlr->lastnusefulsepaconss <= conshdlr->nusefulsepaconss));
2896 assert(set != NULL);
2897 assert(result != NULL);
2898
2899 *result = SCIP_DIDNOTRUN;
2900
2901 if( conshdlr->conssepalp != NULL
2902 && ((depth == 0 && conshdlr->sepafreq == 0)
2903 || (conshdlr->sepafreq > 0 && depth % conshdlr->sepafreq == 0)
2904 || conshdlr->sepalpwasdelayed) )
2905 {
2906 /* check, if separation method should be delayed */
2907 if( !conshdlr->delaysepa || execdelayed )
2908 {
2909 int nconss;
2910 int nusefulconss;
2911 int firstcons;
2912
2913 /* check, if this LP solution was already separated */
2914 if( conshdlr->lastsepalpcount == stat->lpcount )
2915 {
2916 /* all constraints that were not yet separated on the new LP solution must be useful constraints, which means,
2917 * that the new constraints are the last constraints of the useful ones
2918 */
2919 nconss = conshdlr->nusefulsepaconss - conshdlr->lastnusefulsepaconss;
2920 nusefulconss = nconss;
2921 firstcons = conshdlr->lastnusefulsepaconss;
2922 }
2923 else
2924 {
2925 /* on a new LP solution, we want to separate all constraints */
2926 nconss = conshdlr->nsepaconss;
2927 nusefulconss = conshdlr->nusefulsepaconss;
2928 firstcons = 0;
2929 }
2930 assert(firstcons >= 0);
2931 assert(firstcons + nconss <= conshdlr->nsepaconss);
2932 assert(nusefulconss <= nconss);
2933
2934 /* constraint handlers without constraints should only be called once */
2935 if( nconss > 0 || (!conshdlr->needscons && conshdlr->lastsepalpcount != stat->lpcount) )
2936 {
2937 SCIP_CONS** conss;
2938 SCIP_Longint oldndomchgs;
2939 SCIP_Longint oldnprobdomchgs;
2940 SCIP_Longint lastsepalpcount;
2941 int oldncuts;
2942 int oldnactiveconss;
2943 int lastnusefulsepaconss;
2944
2945 SCIPsetDebugMsg(set, "separating constraints %d to %d of %d constraints of handler <%s> (%s LP solution)\n",
2946 firstcons, firstcons + nconss - 1, conshdlr->nsepaconss, conshdlr->name,
2947 conshdlr->lastsepalpcount == stat->lpcount ? "old" : "new");
2948
2949 /* remember the number of processed constraints on the current LP solution */
2950 lastsepalpcount = stat->lpcount;
2951 lastnusefulsepaconss = conshdlr->nusefulsepaconss;
2952
2953 /* get the array of the constraints to be processed */
2954 conss = &(conshdlr->sepaconss[firstcons]);
2955
2956 oldndomchgs = stat->nboundchgs + stat->nholechgs;
2957 oldnprobdomchgs = stat->nprobboundchgs + stat->nprobholechgs;
2958 oldncuts = SCIPsepastoreGetNCuts(sepastore);
2959 oldnactiveconss = stat->nactiveconss;
2960
2961 /* check, if we want to use eager evaluation */
2962 if( (conshdlr->eagerfreq == 0 && conshdlr->nsepacalls == 0)
2963 || (conshdlr->eagerfreq > 0 && conshdlr->nsepacalls % conshdlr->eagerfreq == 0) )
2964 nusefulconss = nconss;
2965
2966 /* because during constraint processing, constraints of this handler may be deleted, activated, deactivated,
2967 * enabled, disabled, marked obsolete or useful, which would change the conss array given to the
2968 * external method; to avoid this, these changes will be buffered and processed after the method call
2969 */
2970 conshdlrDelayUpdates(conshdlr);
2971 conshdlr->duringsepa = TRUE;
2972
2973 /* start timing */
2974 SCIPclockStart(conshdlr->sepatime, set);
2975
2976 /* call external method */
2977 SCIP_CALL( conshdlr->conssepalp(set->scip, conshdlr, conss, nconss, nusefulconss, result) );
2978 SCIPsetDebugMsg(set, " -> separating LP returned result <%d>\n", *result);
2979
2980 /* stop timing */
2981 SCIPclockStop(conshdlr->sepatime, set);
2982
2983 /* perform the cached constraint updates */
2984 conshdlr->duringsepa = FALSE;
2985 SCIP_CALL( conshdlrForceUpdates(conshdlr, blkmem, set, stat) );
2986
2987 /* update statistics */
2988 if( *result != SCIP_DIDNOTRUN && *result != SCIP_DELAYED )
2989 {
2990 conshdlr->lastsepalpcount = lastsepalpcount;
2991 conshdlr->lastnusefulsepaconss = MIN(lastnusefulsepaconss, conshdlr->nusefulsepaconss);
2992 conshdlr->nsepacalls++;
2993 }
2994 if( *result == SCIP_CUTOFF )
2995 conshdlr->ncutoffs++;
2996 conshdlr->ncutsfound += SCIPsepastoreGetNCuts(sepastore) - oldncuts; /*lint !e776*/
2997 conshdlr->nconssfound += MAX(stat->nactiveconss - oldnactiveconss, 0); /*lint !e776*/
2998
2999 /* update domain reductions; therefore remove the domain
3000 * reduction counts which were generated in probing mode */
3001 conshdlr->ndomredsfound += stat->nboundchgs + stat->nholechgs - oldndomchgs;
3002 conshdlr->ndomredsfound -= (stat->nprobboundchgs + stat->nprobholechgs - oldnprobdomchgs);
3003
3004 /* evaluate result */
3005 if( *result != SCIP_CUTOFF
3006 && *result != SCIP_CONSADDED
3007 && *result != SCIP_REDUCEDDOM
3008 && *result != SCIP_SEPARATED
3009 && *result != SCIP_NEWROUND
3010 && *result != SCIP_DIDNOTFIND
3011 && *result != SCIP_DIDNOTRUN
3012 && *result != SCIP_DELAYED )
3013 {
3014 SCIPerrorMessage("LP separation method of constraint handler <%s> returned invalid result <%d>\n",
3015 conshdlr->name, *result);
3016 return SCIP_INVALIDRESULT;
3017 }
3018 }
3019 }
3020 else
3021 {
3022 SCIPsetDebugMsg(set, "LP separation method of constraint handler <%s> was delayed\n", conshdlr->name);
3023 *result = SCIP_DELAYED;
3024 }
3025
3026 /* remember whether separation method was delayed */
3027 conshdlr->sepalpwasdelayed = (*result == SCIP_DELAYED);
3028 }
3029
3030 return SCIP_OKAY;
3031}
3032
3033/** calls separator method of constraint handler to separate given primal solution */
3035 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
3036 BMS_BLKMEM* blkmem, /**< block memory */
3037 SCIP_SET* set, /**< global SCIP settings */
3038 SCIP_STAT* stat, /**< dynamic problem statistics */
3039 SCIP_SEPASTORE* sepastore, /**< separation storage */
3040 SCIP_SOL* sol, /**< primal solution that should be separated */
3041 int depth, /**< depth of current node */
3042 SCIP_Bool execdelayed, /**< execute separation method even if it is marked to be delayed */
3043 SCIP_RESULT* result /**< pointer to store the result of the callback method */
3044 )
3045{
3046 assert(conshdlr != NULL);
3047 assert(conshdlr->nusefulsepaconss <= conshdlr->nsepaconss);
3048 assert(conshdlr->nusefulenfoconss <= conshdlr->nenfoconss);
3049 assert(conshdlr->nusefulcheckconss <= conshdlr->ncheckconss);
3050 assert(conshdlr->nusefulpropconss <= conshdlr->npropconss);
3051 assert(set != NULL);
3052 assert(stat != NULL);
3053 assert(result != NULL);
3054
3055 *result = SCIP_DIDNOTRUN;
3056
3057 if( conshdlr->conssepasol != NULL
3058 && ((depth == 0 && conshdlr->sepafreq == 0)
3059 || (conshdlr->sepafreq > 0 && depth % conshdlr->sepafreq == 0)
3060 || conshdlr->sepasolwasdelayed) )
3061 {
3062 /* check, if separation method should be delayed */
3063 if( !conshdlr->delaysepa || execdelayed )
3064 {
3065 int nconss;
3066 int nusefulconss;
3067
3068 /* always separate all constraints */
3069 nconss = conshdlr->nsepaconss;
3070 nusefulconss = conshdlr->nusefulsepaconss;
3071 assert(nusefulconss <= nconss);
3072
3073 if( nconss > 0 || !conshdlr->needscons )
3074 {
3075 SCIP_CONS** conss;
3076 SCIP_Longint oldndomchgs;
3077 SCIP_Longint oldnprobdomchgs;
3078 int oldncuts;
3079 int oldnactiveconss;
3080
3081 SCIPsetDebugMsg(set, "separating %d constraints of handler <%s> (primal solution %p)\n",
3082 nconss, conshdlr->name, (void*)sol);
3083
3084 /* get the array of the constraints to be processed */
3085 conss = conshdlr->sepaconss;
3086
3087 oldndomchgs = stat->nboundchgs + stat->nholechgs;
3088 oldnprobdomchgs = stat->nprobboundchgs + stat->nprobholechgs;
3089 oldncuts = SCIPsepastoreGetNCuts(sepastore);
3090 oldnactiveconss = stat->nactiveconss;
3091
3092 /* check, if we want to use eager evaluation */
3093 if( (conshdlr->eagerfreq == 0 && conshdlr->nsepacalls == 0)
3094 || (conshdlr->eagerfreq > 0 && conshdlr->nsepacalls % conshdlr->eagerfreq == 0) )
3095 nusefulconss = nconss;
3096
3097 /* because during constraint processing, constraints of this handler may be deleted, activated, deactivated,
3098 * enabled, disabled, marked obsolete or useful, which would change the conss array given to the
3099 * external method; to avoid this, these changes will be buffered and processed after the method call
3100 */
3101 conshdlrDelayUpdates(conshdlr);
3102 conshdlr->duringsepa = TRUE;
3103
3104 /* start timing */
3105 SCIPclockStart(conshdlr->sepatime, set);
3106
3107 /* call external method */
3108 SCIP_CALL( conshdlr->conssepasol(set->scip, conshdlr, conss, nconss, nusefulconss, sol, result) );
3109 SCIPsetDebugMsg(set, " -> separating sol returned result <%d>\n", *result);
3110
3111 /* stop timing */
3112 SCIPclockStop(conshdlr->sepatime, set);
3113
3114 /* perform the cached constraint updates */
3115 conshdlr->duringsepa = FALSE;
3116 SCIP_CALL( conshdlrForceUpdates(conshdlr, blkmem, set, stat) );
3117
3118 /* update statistics */
3119 if( *result != SCIP_DIDNOTRUN && *result != SCIP_DELAYED )
3120 conshdlr->nsepacalls++;
3121 if( *result == SCIP_CUTOFF )
3122 conshdlr->ncutoffs++;
3123 conshdlr->ncutsfound += SCIPsepastoreGetNCuts(sepastore) - oldncuts; /*lint !e776*/
3124 conshdlr->nconssfound += MAX(stat->nactiveconss - oldnactiveconss, 0); /*lint !e776*/
3125
3126 /* update domain reductions; therefore remove the domain
3127 * reduction counts which were generated in probing mode */
3128 conshdlr->ndomredsfound += stat->nboundchgs + stat->nholechgs - oldndomchgs;
3129 conshdlr->ndomredsfound -= (stat->nprobboundchgs + stat->nprobholechgs - oldnprobdomchgs);
3130
3131 /* evaluate result */
3132 if( *result != SCIP_CUTOFF
3133 && *result != SCIP_CONSADDED
3134 && *result != SCIP_REDUCEDDOM
3135 && *result != SCIP_SEPARATED
3136 && *result != SCIP_NEWROUND
3137 && *result != SCIP_DIDNOTFIND
3138 && *result != SCIP_DIDNOTRUN
3139 && *result != SCIP_DELAYED )
3140 {
3141 SCIPerrorMessage("SOL separation method of constraint handler <%s> returned invalid result <%d>\n",
3142 conshdlr->name, *result);
3143 return SCIP_INVALIDRESULT;
3144 }
3145 }
3146 }
3147 else
3148 {
3149 SCIPsetDebugMsg(set, "SOL separation method of constraint handler <%s> was delayed\n", conshdlr->name);
3150 *result = SCIP_DELAYED;
3151 }
3152
3153 /* remember whether separation method was delayed */
3154 conshdlr->sepasolwasdelayed = (*result == SCIP_DELAYED);
3155 }
3156
3157 return SCIP_OKAY;
3158}
3159
3160/** calls enforcing method of constraint handler for a relaxation solution for all constraints added after last
3161 * conshdlrResetEnfo() call
3162 */
3164 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
3165 BMS_BLKMEM* blkmem, /**< block memory */
3166 SCIP_SET* set, /**< global SCIP settings */
3167 SCIP_STAT* stat, /**< dynamic problem statistics */
3168 SCIP_TREE* tree, /**< branch and bound tree */
3169 SCIP_SEPASTORE* sepastore, /**< separation storage */
3170 SCIP_SOL* relaxsol, /**< solution to be enforced */
3171 SCIP_Bool solinfeasible, /**< was the solution already found out to be infeasible? */
3172 SCIP_RESULT* result /**< pointer to store the result of the callback method */
3173 )
3174{
3175 int nconss;
3176 int nusefulconss;
3177 int firstcons;
3178 SCIP_Bool relaxchanged;
3179 SCIP_Bool lastinfeasible;
3180
3181 assert(conshdlr != NULL);
3182 assert(conshdlr->nusefulsepaconss <= conshdlr->nsepaconss);
3183 assert(conshdlr->nusefulenfoconss <= conshdlr->nenfoconss);
3184 assert(conshdlr->nusefulcheckconss <= conshdlr->ncheckconss);
3185 assert(conshdlr->nusefulpropconss <= conshdlr->npropconss);
3186 assert(stat != NULL);
3187 assert(conshdlr->lastenfopsdomchgcount != stat->domchgcount
3188 || conshdlr->lastenfopsnode != stat->nnodes
3189 || (0 <= conshdlr->lastnusefulenfoconss && conshdlr->lastnusefulenfoconss <= conshdlr->nusefulenfoconss));
3190 assert(set != NULL);
3191 assert(tree != NULL);
3192 assert(tree->nchildren == 0);
3193 assert(relaxsol != NULL);
3194 assert(result != NULL);
3195
3196 *result = SCIP_FEASIBLE;
3197
3198 /* check, if this relaxation solution was already enforced at this node
3199 * the integrality constraint handler always needs to be enforced for all constraints since external branching
3200 * candidates are cleared before each resolve
3201 */
3202 if( conshdlr->lastenforelaxrelaxcount == stat->relaxcount
3203 && conshdlr->lastenforelaxdomchgcount == stat->domchgcount
3204 && conshdlr->lastenforelaxnode == stat->nnodes
3205 && conshdlr->lastenforelaxresult != SCIP_CONSADDED
3206 && conshdlr->lastenforelaxresult != SCIP_SOLVELP
3207 && ( strcmp(conshdlr->name, "integral") != 0 )
3208 )
3209 {
3210 assert(conshdlr->lastenforelaxresult != SCIP_CUTOFF);
3211 assert(conshdlr->lastenforelaxresult != SCIP_BRANCHED);
3212 assert(conshdlr->lastenforelaxresult != SCIP_REDUCEDDOM);
3213 assert(conshdlr->lastenforelaxresult != SCIP_DIDNOTRUN);
3214
3215 /* if we already enforced the same relaxation solution at this node, we will only enforce new constraints in the
3216 * following; however, the result of the last call for the old constraint is still valid and we have to ensure
3217 * that an infeasibility in the last call is not lost because we only enforce new constraints
3218 */
3219 if( conshdlr->lastenforelaxresult == SCIP_INFEASIBLE )
3220 {
3221 *result = SCIP_INFEASIBLE;
3222 lastinfeasible = TRUE;
3223 }
3224 else
3225 lastinfeasible = FALSE;
3226
3227 /* all constraints that were not yet enforced on the new relaxation solution must be useful constraints, which means,
3228 * that the new constraints are the last constraints of the useful ones
3229 */
3230 nconss = conshdlr->nusefulenfoconss - conshdlr->lastnusefulenfoconss;
3231 nusefulconss = nconss;
3232 firstcons = conshdlr->lastnusefulenfoconss;
3233 relaxchanged = FALSE;
3234 }
3235 else
3236 {
3237 /* on a new relaxation solution or a new node, we want to enforce all constraints */
3238 nconss = conshdlr->nenfoconss;
3239 nusefulconss = conshdlr->nusefulenfoconss;
3240 firstcons = 0;
3241 relaxchanged = TRUE;
3242 lastinfeasible = FALSE;
3243 }
3244 assert(firstcons >= 0);
3245 assert(firstcons + nconss <= conshdlr->nenfoconss);
3246 assert(nusefulconss <= nconss);
3247
3248 /* constraint handlers without constraints should only be called once */
3249 if( nconss > 0 || (!conshdlr->needscons && relaxchanged) )
3250 {
3251 SCIP_CONS** conss;
3252 SCIP_Longint oldndomchgs;
3253 SCIP_Longint oldnprobdomchgs;
3254 int oldncuts;
3255 int oldnactiveconss;
3256
3257 assert(conshdlr->consenforelax != NULL);
3258
3259 SCIPdebugMessage("enforcing constraints %d to %d of %d constraints of handler <%s> (%s relaxation solution)\n",
3260 firstcons, firstcons + nconss - 1, conshdlr->nenfoconss, conshdlr->name, relaxchanged ? "new" : "old");
3261
3262 /* remember the number of processed constraints on the current relaxation solution */
3263 conshdlr->lastenforelaxrelaxcount = stat->relaxcount;
3264 conshdlr->lastenforelaxdomchgcount = stat->domchgcount;
3265 conshdlr->lastenforelaxnode = stat->nnodes;
3266 conshdlr->lastnusefulenfoconss = conshdlr->nusefulenfoconss;
3267
3268 /* get the array of the constraints to be processed */
3269 conss = &(conshdlr->enfoconss[firstcons]);
3270
3271 oldncuts = SCIPsepastoreGetNCuts(sepastore);
3272 oldnactiveconss = stat->nactiveconss;
3273 oldndomchgs = stat->nboundchgs + stat->nholechgs;
3274 oldnprobdomchgs = stat->nprobboundchgs + stat->nprobholechgs;
3275
3276 /* check, if we want to use eager evaluation */
3277 if( (conshdlr->eagerfreq == 0 && conshdlr->nenforelaxcalls == 0)
3278 || (conshdlr->eagerfreq > 0 && conshdlr->nenforelaxcalls % conshdlr->eagerfreq == 0) )
3279 nusefulconss = nconss;
3280
3281 /* because during constraint processing, constraints of this handler may be deleted, activated, deactivated,
3282 * enabled, disabled, marked obsolete or useful, which would change the conss array given to the
3283 * external method; to avoid this, these changes will be buffered and processed after the method call
3284 */
3285 conshdlrDelayUpdates(conshdlr);
3286
3287 /* start timing */
3288 SCIPclockStart(conshdlr->enforelaxtime, set);
3289
3290 /* call external method */
3291 SCIP_CALL( conshdlr->consenforelax(set->scip, relaxsol, conshdlr, conss, nconss, nusefulconss, solinfeasible, result) );
3292 SCIPdebugMessage(" -> enforcing returned result <%d>\n", *result);
3293
3294 /* stop timing */
3295 SCIPclockStop(conshdlr->enforelaxtime, set);
3296
3297 /* perform the cached constraint updates */
3298 SCIP_CALL( conshdlrForceUpdates(conshdlr, blkmem, set, stat) );
3299
3300 /* update statistics */
3301 conshdlr->nenforelaxcalls++;
3302 if( *result == SCIP_CUTOFF )
3303 conshdlr->ncutoffs++;
3304 conshdlr->ncutsfound += SCIPsepastoreGetNCuts(sepastore) - oldncuts; /*lint !e776*/
3305 conshdlr->nconssfound += MAX(stat->nactiveconss - oldnactiveconss, 0); /*lint !e776*/
3306
3307 if( *result != SCIP_BRANCHED )
3308 {
3309 assert(tree->nchildren == 0);
3310
3311 /* update domain reductions; therefore remove the domain
3312 * reduction counts which were generated in probing mode */
3313 conshdlr->ndomredsfound += stat->nboundchgs + stat->nholechgs - oldndomchgs;
3314 conshdlr->ndomredsfound -= (stat->nprobboundchgs + stat->nprobholechgs - oldnprobdomchgs);
3315 }
3316 else
3317 conshdlr->nchildren += tree->nchildren;
3318
3319 /* remember the result of the enforcement call */
3320 conshdlr->lastenforelaxresult = *result;
3321
3322 /* evaluate result */
3323 if( *result != SCIP_CUTOFF
3324 && *result != SCIP_CONSADDED
3325 && *result != SCIP_REDUCEDDOM
3326 && *result != SCIP_SEPARATED
3327 && *result != SCIP_BRANCHED
3328 && *result != SCIP_SOLVELP
3329 && *result != SCIP_INFEASIBLE
3330 && *result != SCIP_FEASIBLE )
3331 {
3332 SCIPerrorMessage("enforcing method of constraint handler <%s> for relaxation solutions returned invalid result <%d>\n",
3333 conshdlr->name, *result);
3334 return SCIP_INVALIDRESULT;
3335 }
3336
3337 /* if the same relaxation solution was already enforced at this node, we only enforced new constraints this time;
3338 * if the enforelax call returns feasible now, the solution is only feasible w.r.t. the new constraints, if the
3339 * last call detected infeasibility for the old constraints, we have to change the result to infeasible
3340 */
3341 if( lastinfeasible && *result == SCIP_FEASIBLE )
3342 *result = SCIP_INFEASIBLE;
3343 }
3344
3345 return SCIP_OKAY;
3346}
3347
3348/** calls enforcing method of constraint handler for LP solution for all constraints added after last
3349 * conshdlrResetEnfo() call
3350 */
3352 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
3353 BMS_BLKMEM* blkmem, /**< block memory */
3354 SCIP_SET* set, /**< global SCIP settings */
3355 SCIP_STAT* stat, /**< dynamic problem statistics */
3356 SCIP_TREE* tree, /**< branch and bound tree */
3357 SCIP_SEPASTORE* sepastore, /**< separation storage */
3358 SCIP_Bool solinfeasible, /**< was the solution already found out to be infeasible? */
3359 SCIP_RESULT* result /**< pointer to store the result of the callback method */
3360 )
3361{
3362 assert(conshdlr != NULL);
3363 assert(conshdlr->nusefulsepaconss <= conshdlr->nsepaconss);
3364 assert(conshdlr->nusefulenfoconss <= conshdlr->nenfoconss);
3365 assert(conshdlr->nusefulcheckconss <= conshdlr->ncheckconss);
3366 assert(conshdlr->nusefulpropconss <= conshdlr->npropconss);
3367 assert(stat != NULL);
3368 assert(conshdlr->lastenfolplpcount != stat->lpcount
3369 || conshdlr->lastenfolpdomchgcount != stat->domchgcount
3370 || conshdlr->lastenfolpnode != stat->nnodes
3371 || (0 <= conshdlr->lastnusefulenfoconss && conshdlr->lastnusefulenfoconss <= conshdlr->nusefulenfoconss));
3372 assert(set != NULL);
3373 assert(tree != NULL);
3374 assert(tree->nchildren == 0);
3375 assert(result != NULL);
3376
3377 *result = SCIP_FEASIBLE;
3378
3379 if( conshdlr->consenfolp != NULL )
3380 {
3381 int nconss;
3382 int nusefulconss;
3383 int firstcons;
3384 SCIP_Bool lpchanged;
3385 SCIP_Bool lastinfeasible;
3386
3387 /* check, if this LP solution was already enforced at this node */
3388 if( conshdlr->lastenfolplpcount == stat->lpcount
3389 && conshdlr->lastenfolpdomchgcount == stat->domchgcount
3390 && conshdlr->lastenfolpnode == stat->nnodes
3391 && conshdlr->lastenfolpresult != SCIP_CONSADDED )
3392 {
3393 assert(conshdlr->lastenfolpresult == SCIP_FEASIBLE || conshdlr->lastenfolpresult == SCIP_INFEASIBLE
3394 || conshdlr->lastenfolpresult == SCIP_SEPARATED );
3395
3396 /* if we already enforced the same pseudo solution at this node, we will only enforce new constraints in the
3397 * following; however, the result of the last call for the old constraint is still valid and we have to ensure
3398 * that an infeasibility in the last call is not lost because we only enforce new constraints
3399 */
3400 if( conshdlr->lastenfolpresult == SCIP_FEASIBLE )
3401 lastinfeasible = FALSE;
3402 else
3403 {
3404 assert(conshdlr->lastenfolpresult == SCIP_INFEASIBLE || conshdlr->lastenfolpresult == SCIP_SEPARATED);
3405 *result = SCIP_INFEASIBLE;
3406 lastinfeasible = TRUE;
3407 }
3408
3409 /* all constraints that were not yet enforced on the new LP solution must be useful constraints, which means,
3410 * that the new constraints are the last constraints of the useful ones
3411 */
3412 nconss = conshdlr->nusefulenfoconss - conshdlr->lastnusefulenfoconss;
3413 nusefulconss = nconss;
3414 firstcons = conshdlr->lastnusefulenfoconss;
3415 lpchanged = FALSE;
3416 }
3417 else
3418 {
3419 /* on a new LP solution or a new node, we want to enforce all constraints */
3420 nconss = conshdlr->nenfoconss;
3421 nusefulconss = conshdlr->nusefulenfoconss;
3422 firstcons = 0;
3423 lpchanged = TRUE;
3424 lastinfeasible = FALSE;
3425 }
3426 assert(firstcons >= 0);
3427 assert(firstcons + nconss <= conshdlr->nenfoconss);
3428 assert(nusefulconss <= nconss);
3429
3430 /* constraint handlers without constraints should only be called once */
3431 if( nconss > 0 || (!conshdlr->needscons && lpchanged) )
3432 {
3433 SCIP_CONS** conss;
3434 SCIP_Longint oldndomchgs;
3435 SCIP_Longint oldnprobdomchgs;
3436 int oldncuts;
3437 int oldnactiveconss;
3438
3439 SCIPsetDebugMsg(set, "enforcing constraints %d to %d of %d constraints of handler <%s> (%s LP solution)\n",
3440 firstcons, firstcons + nconss - 1, conshdlr->nenfoconss, conshdlr->name, lpchanged ? "new" : "old");
3441
3442 /* remember the number of processed constraints on the current LP solution */
3443 conshdlr->lastenfolplpcount = stat->lpcount;
3444 conshdlr->lastenfolpdomchgcount = stat->domchgcount;
3445 conshdlr->lastenfolpnode = stat->nnodes;
3446 conshdlr->lastnusefulenfoconss = conshdlr->nusefulenfoconss;
3447
3448 /* get the array of the constraints to be processed */
3449 conss = nconss > 0 ? conshdlr->enfoconss + firstcons : NULL;
3450
3451 oldncuts = SCIPsepastoreGetNCuts(sepastore);
3452 oldnactiveconss = stat->nactiveconss;
3453 oldndomchgs = stat->nboundchgs + stat->nholechgs;
3454 oldnprobdomchgs = stat->nprobboundchgs + stat->nprobholechgs;
3455
3456 /* check, if we want to use eager evaluation */
3457 if( (conshdlr->eagerfreq == 0 && conshdlr->nenfolpcalls == 0)
3458 || (conshdlr->eagerfreq > 0 && conshdlr->nenfolpcalls % conshdlr->eagerfreq == 0) )
3459 nusefulconss = nconss;
3460
3461 /* because during constraint processing, constraints of this handler may be deleted, activated, deactivated,
3462 * enabled, disabled, marked obsolete or useful, which would change the conss array given to the
3463 * external method; to avoid this, these changes will be buffered and processed after the method call
3464 */
3465 conshdlrDelayUpdates(conshdlr);
3466
3467 /* start timing */
3468 SCIPclockStart(conshdlr->enfolptime, set);
3469
3470 /* call external method */
3471 SCIP_CALL( conshdlr->consenfolp(set->scip, conshdlr, conss, nconss, nusefulconss, solinfeasible, result) );
3472 SCIPsetDebugMsg(set, " -> enforcing returned result <%d>\n", *result);
3473
3474 /* stop timing */
3475 SCIPclockStop(conshdlr->enfolptime, set);
3476
3477 /* perform the cached constraint updates */
3478 SCIP_CALL( conshdlrForceUpdates(conshdlr, blkmem, set, stat) );
3479
3480 /* remember the result of the enforcement call */
3481 conshdlr->lastenfolpresult = *result;
3482
3483 /* update statistics */
3484 conshdlr->nenfolpcalls++;
3485 if( *result == SCIP_CUTOFF )
3486 conshdlr->ncutoffs++;
3487 conshdlr->ncutsfound += SCIPsepastoreGetNCuts(sepastore) - oldncuts; /*lint !e776*/
3488 conshdlr->nconssfound += MAX(stat->nactiveconss - oldnactiveconss, 0); /*lint !e776*/
3489 if( *result != SCIP_BRANCHED )
3490 {
3491 assert(tree->nchildren == 0);
3492
3493 /* update domain reductions; therefore remove the domain
3494 * reduction counts which were generated in probing mode */
3495 conshdlr->ndomredsfound += stat->nboundchgs + stat->nholechgs - oldndomchgs;
3496 conshdlr->ndomredsfound -= (stat->nprobboundchgs + stat->nprobholechgs - oldnprobdomchgs);
3497 }
3498 else
3499 conshdlr->nchildren += tree->nchildren;
3500
3501 /* evaluate result */
3502 if( *result != SCIP_CUTOFF
3503 && *result != SCIP_CONSADDED
3504 && *result != SCIP_REDUCEDDOM
3505 && *result != SCIP_SEPARATED
3506 && *result != SCIP_SOLVELP
3507 && *result != SCIP_BRANCHED
3508 && *result != SCIP_INFEASIBLE
3509 && *result != SCIP_FEASIBLE )
3510 {
3511 SCIPerrorMessage("enforcing method of constraint handler <%s> for LP solutions returned invalid result <%d>\n",
3512 conshdlr->name, *result);
3513 return SCIP_INVALIDRESULT;
3514 }
3515
3516 /* if the same LP solution was already enforced at this node, we only enforced new constraints this time;
3517 * if the enfolp call returns feasible now, the solution is only feasible w.r.t. the new constraints, if the
3518 * last call detected infeasibility for the old constraints, we have to change the result to infeasible
3519 */
3520 if( lastinfeasible && *result == SCIP_FEASIBLE )
3521 *result = SCIP_INFEASIBLE;
3522 }
3523 }
3524
3525 return SCIP_OKAY;
3526}
3527
3528/** calls diving solution enforcement callback of constraint handler, if it exists */
3530 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
3531 SCIP_SET* set, /**< global SCIP settings */
3532 SCIP_DIVESET* diveset, /**< diving settings to control scoring */
3533 SCIP_SOL* sol, /**< current solution of diving mode */
3534 SCIP_Bool* success, /**< pointer to store whether constraint handler successfully found a variable */
3535 SCIP_Bool* infeasible /**< pointer to store whether the current node was detected to be infeasible */
3536 )
3537{
3538 assert(conshdlr != NULL);
3539 assert(set != NULL);
3540 assert(diveset != NULL);
3541 assert(sol != NULL);
3542 assert(success != NULL);
3543 assert(infeasible != NULL);
3544
3545 if( conshdlr->consgetdivebdchgs != NULL )
3546 {
3547 SCIP_CALL( conshdlr->consgetdivebdchgs(set->scip, conshdlr, diveset, sol, success, infeasible) );
3548 }
3549
3550 return SCIP_OKAY;
3551}
3552
3553/** calls enforcing method of constraint handler for pseudo solution for all constraints added after last
3554 * conshdlrResetEnfo() call
3555 */
3557 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
3558 BMS_BLKMEM* blkmem, /**< block memory */
3559 SCIP_SET* set, /**< global SCIP settings */
3560 SCIP_STAT* stat, /**< dynamic problem statistics */
3561 SCIP_TREE* tree, /**< branch and bound tree */
3562 SCIP_BRANCHCAND* branchcand, /**< branching candidate storage */
3563 SCIP_Bool solinfeasible, /**< was the solution already found out to be infeasible? */
3564 SCIP_Bool objinfeasible, /**< is the solution infeasible anyway due to violating lower objective bound? */
3565 SCIP_Bool forced, /**< should enforcement of pseudo solution be forced? */
3566 SCIP_RESULT* result /**< pointer to store the result of the callback method */
3567 )
3568{
3569 assert(conshdlr != NULL);
3570 assert(conshdlr->nusefulsepaconss <= conshdlr->nsepaconss);
3571 assert(conshdlr->nusefulenfoconss <= conshdlr->nenfoconss);
3572 assert(conshdlr->nusefulcheckconss <= conshdlr->ncheckconss);
3573 assert(conshdlr->nusefulpropconss <= conshdlr->npropconss);
3574 assert(stat != NULL);
3575 assert(conshdlr->lastenfopsdomchgcount != stat->domchgcount
3576 || conshdlr->lastenfopsnode != stat->nnodes
3577 || (0 <= conshdlr->lastnusefulenfoconss && conshdlr->lastnusefulenfoconss <= conshdlr->nusefulenfoconss));
3578 assert(set != NULL);
3579 assert(tree != NULL);
3580 assert(tree->nchildren == 0);
3581 assert(result != NULL);
3582
3583 /* no enforcing of pseudo solution */
3584 if( set->cons_disableenfops && SCIPbranchcandGetNPseudoCands(branchcand) > 0 )
3585 {
3586 *result = SCIP_INFEASIBLE;
3587 return SCIP_OKAY;
3588 }
3589
3590 *result = SCIP_FEASIBLE;
3591 if( conshdlr->consenfops != NULL )
3592 {
3593 int nconss;
3594 int nusefulconss;
3595 int firstcons;
3596 SCIP_Bool pschanged;
3597 SCIP_Bool lastinfeasible;
3598
3599 /* check, if this pseudo solution was already enforced at this node */
3600 if( !forced && conshdlr->lastenfopsdomchgcount == stat->domchgcount
3601 && conshdlr->lastenfopsnode == stat->nnodes
3602 && conshdlr->lastenfopsresult != SCIP_CONSADDED
3603 && conshdlr->lastenfopsresult != SCIP_SOLVELP
3604 )
3605 {
3606 assert(conshdlr->lastenfopsresult != SCIP_CUTOFF);
3607 assert(conshdlr->lastenfopsresult != SCIP_BRANCHED);
3608 assert(conshdlr->lastenfopsresult != SCIP_REDUCEDDOM);
3609 assert(conshdlr->lastenfopsresult != SCIP_DIDNOTRUN || objinfeasible);
3610
3611 /* if we already enforced the same pseudo solution at this node, we will only enforce new constraints in the
3612 * following; however, the result of the last call for the old constraint is still valid and we have to ensure
3613 * that an infeasibility in the last call is not lost because we only enforce new constraints
3614 */
3615 if( conshdlr->lastenfopsresult == SCIP_INFEASIBLE )
3616 {
3617 *result = SCIP_INFEASIBLE;
3618 lastinfeasible = TRUE;
3619 }
3620 else
3621 lastinfeasible = FALSE;
3622
3623 /* all constraints that were not yet enforced on the new LP solution must be useful constraints, which means,
3624 * that the new constraints are the last constraints of the useful ones
3625 */
3626 nconss = conshdlr->nusefulenfoconss - conshdlr->lastnusefulenfoconss;
3627 nusefulconss = nconss;
3628 firstcons = conshdlr->lastnusefulenfoconss;
3629 pschanged = FALSE;
3630 }
3631 else
3632 {
3633 /* on a new pseudo solution or a new node, we want to enforce all constraints */
3634 nconss = conshdlr->nenfoconss;
3635 nusefulconss = conshdlr->nusefulenfoconss;
3636 firstcons = 0;
3637 pschanged = TRUE;
3638 lastinfeasible = FALSE;
3639 }
3640 assert(firstcons >= 0);
3641 assert(firstcons + nconss <= conshdlr->nenfoconss);
3642 assert(nusefulconss <= nconss);
3643
3644 /* constraint handlers without constraints should only be called once */
3645 if( nconss > 0 || (!conshdlr->needscons && pschanged) )
3646 {
3647 SCIP_CONS** conss;
3648 SCIP_Longint oldndomchgs;
3649 SCIP_Longint oldnprobdomchgs;
3650
3651 SCIPsetDebugMsg(set, "enforcing constraints %d to %d of %d constraints of handler <%s> (%s pseudo solution, objinfeasible=%u)\n",
3652 firstcons, firstcons + nconss - 1, conshdlr->nenfoconss, conshdlr->name, pschanged ? "new" : "old", objinfeasible);
3653
3654 /* remember the number of processed constraints on the current pseudo solution */
3655 conshdlr->lastenfopsdomchgcount = stat->domchgcount;
3656 conshdlr->lastenfopsnode = stat->nnodes;
3657 conshdlr->lastnusefulenfoconss = conshdlr->nusefulenfoconss;
3658
3659 /* get the array of the constraints to be processed */
3660 conss = &(conshdlr->enfoconss[firstcons]);
3661
3662 oldndomchgs = stat->nboundchgs + stat->nholechgs;
3663 oldnprobdomchgs = stat->nprobboundchgs + stat->nprobholechgs;
3664
3665 /* check, if we want to use eager evaluation */
3666 if( (conshdlr->eagerfreq == 0 && conshdlr->nenfopscalls == 0)
3667 || (conshdlr->eagerfreq > 0 && conshdlr->nenfopscalls % conshdlr->eagerfreq == 0) )
3668 nusefulconss = nconss;
3669
3670 /* because during constraint processing, constraints of this handler may be deleted, activated, deactivated,
3671 * enabled, disabled, marked obsolete or useful, which would change the conss array given to the
3672 * external method; to avoid this, these changes will be buffered and processed after the method call
3673 */
3674 conshdlrDelayUpdates(conshdlr);
3675
3676 /* start timing */
3677 SCIPclockStart(conshdlr->enfopstime, set);
3678
3679 /* call external method */
3680 SCIP_CALL( conshdlr->consenfops(set->scip, conshdlr, conss, nconss, nusefulconss, solinfeasible, objinfeasible, result) );
3681 SCIPsetDebugMsg(set, " -> enforcing returned result <%d>\n", *result);
3682
3683 /* stop timing */
3684 SCIPclockStop(conshdlr->enfopstime, set);
3685
3686 /* perform the cached constraint updates */
3687 SCIP_CALL( conshdlrForceUpdates(conshdlr, blkmem, set, stat) );
3688
3689 /* update statistics */
3690 if( *result != SCIP_DIDNOTRUN )
3691 conshdlr->nenfopscalls++;
3692 else if( !objinfeasible )
3693 {
3694 SCIPerrorMessage("enforcing method of constraint handler <%s> for pseudo solutions was skipped, even though the solution was not objective-infeasible\n",
3695 conshdlr->name);
3696 conshdlr->lastenfopsresult = *result;
3697
3698 return SCIP_INVALIDRESULT;
3699 }
3700 /* A constraint handler might return SCIP_DIDNOTRUN and not check any constraints in case objinfeasible was
3701 * TRUE; we change the result pointer to SCIP_INFEASIBLE in this case.
3702 */
3703 else
3704 *result = SCIP_INFEASIBLE;
3705
3706 if( *result == SCIP_CUTOFF )
3707 conshdlr->ncutoffs++;
3708
3709 if( *result != SCIP_BRANCHED )
3710 {
3711 assert(tree->nchildren == 0);
3712
3713 /* update domain reductions; therefore remove the domain
3714 * reduction counts which were generated in probing mode */
3715 conshdlr->ndomredsfound += stat->nboundchgs + stat->nholechgs - oldndomchgs;
3716 conshdlr->ndomredsfound -= (stat->nprobboundchgs + stat->nprobholechgs - oldnprobdomchgs);
3717 }
3718 else
3719 conshdlr->nchildren += tree->nchildren;
3720
3721 /* remember the result of the enforcement call */
3722 conshdlr->lastenfopsresult = *result;
3723
3724 /* evaluate result */
3725 if( *result != SCIP_CUTOFF
3726 && *result != SCIP_CONSADDED
3727 && *result != SCIP_REDUCEDDOM
3728 && *result != SCIP_BRANCHED
3729 && *result != SCIP_SOLVELP
3730 && *result != SCIP_INFEASIBLE
3731 && *result != SCIP_FEASIBLE
3732 && *result != SCIP_DIDNOTRUN )
3733 {
3734 SCIPerrorMessage("enforcing method of constraint handler <%s> for pseudo solutions returned invalid result <%d>\n",
3735 conshdlr->name, *result);
3736 return SCIP_INVALIDRESULT;
3737 }
3738
3739 /* if the same pseudo solution was already enforced at this node, we only enforced new constraints this time;
3740 * if the enfops call returns feasible now, the solution is only feasible w.r.t. the new constraints, if the
3741 * last call detected infeasibility for the old constraints, we have to change the result to infeasible
3742 */
3743 if( lastinfeasible && *result == SCIP_FEASIBLE )
3744 *result = SCIP_INFEASIBLE;
3745 }
3746 else if( objinfeasible )
3747 {
3748 /*
3749 * Even if nothing is enforced, the solution might still be infeasible due to violating lower bound.
3750 * Make sure the result is updated in this case as well.
3751 */
3752 *result = SCIP_INFEASIBLE;
3753 }
3754 }
3755
3756 return SCIP_OKAY;
3757}
3758
3759/** calls feasibility check method of constraint handler */
3761 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
3762 BMS_BLKMEM* blkmem, /**< block memory */
3763 SCIP_SET* set, /**< global SCIP settings */
3764 SCIP_STAT* stat, /**< dynamic problem statistics */
3765 SCIP_SOL* sol, /**< primal CIP solution */
3766 SCIP_Bool checkintegrality, /**< Has integrality to be checked? */
3767 SCIP_Bool checklprows, /**< Do constraints represented by rows in the current LP have to be checked? */
3768 SCIP_Bool printreason, /**< Should the reason for the violation be printed? */
3769 SCIP_Bool completely, /**< Should all violations be checked? */
3770 SCIP_RESULT* result /**< pointer to store the result of the callback method */
3771 )
3772{
3773 assert(conshdlr != NULL);
3774 assert(conshdlr->nusefulsepaconss <= conshdlr->nsepaconss);
3775 assert(conshdlr->nusefulenfoconss <= conshdlr->nenfoconss);
3776 assert(conshdlr->nusefulcheckconss <= conshdlr->ncheckconss);
3777 assert(conshdlr->nusefulpropconss <= conshdlr->npropconss);
3778 assert(set != NULL);
3779 assert(result != NULL);
3780
3781 *result = SCIP_FEASIBLE;
3782
3783 if( conshdlr->conscheck != NULL && (!conshdlr->needscons || conshdlr->ncheckconss > 0) )
3784 {
3785 SCIPsetDebugMsg(set, "checking %d constraints of handler <%s>\n", conshdlr->ncheckconss, conshdlr->name);
3786
3787 /* because during constraint processing, constraints of this handler may be deleted, activated, deactivated,
3788 * enabled, disabled, marked obsolete or useful, which would change the conss array given to the
3789 * external method; to avoid this, these changes will be buffered and processed after the method call
3790 */
3791 conshdlrDelayUpdates(conshdlr);
3792
3793 /* start timing */
3794 SCIPclockStart(conshdlr->checktime, set);
3795
3796 /* call external method */
3797 SCIP_CALL( conshdlr->conscheck(set->scip, conshdlr, conshdlr->checkconss, conshdlr->ncheckconss,
3798 sol, checkintegrality, checklprows, printreason, completely, result) );
3799 SCIPsetDebugMsg(set, " -> checking returned result <%d>\n", *result);
3800
3801 /* stop timing */
3802 SCIPclockStop(conshdlr->checktime, set);
3803
3804 /* update statistics */
3805 conshdlr->ncheckcalls++;
3806
3807 /* perform the cached constraint updates */
3808 SCIP_CALL( conshdlrForceUpdates(conshdlr, blkmem, set, stat) );
3809
3810 /* evaluate result */
3811 if( *result != SCIP_INFEASIBLE && *result != SCIP_FEASIBLE )
3812 {
3813 SCIPerrorMessage("feasibility check of constraint handler <%s> returned invalid result <%d>\n", conshdlr->name, *result);
3814 return SCIP_INVALIDRESULT;
3815 }
3816 }
3817
3818 return SCIP_OKAY;
3819}
3820
3821/** calls propagation method of constraint handler */
3823 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
3824 BMS_BLKMEM* blkmem, /**< block memory */
3825 SCIP_SET* set, /**< global SCIP settings */
3826 SCIP_STAT* stat, /**< dynamic problem statistics */
3827 int depth, /**< depth of current node */
3828 SCIP_Bool fullpropagation, /**< should all constraints be propagated (or only new ones)? */
3829 SCIP_Bool execdelayed, /**< execute propagation method even if it is marked to be delayed */
3830 SCIP_Bool instrongbranching, /**< are we currently doing strong branching? */
3831 SCIP_PROPTIMING proptiming, /**< current point in the node solving process */
3832 SCIP_RESULT* result /**< pointer to store the result of the callback method */
3833 )
3834{
3835 assert(conshdlr != NULL);
3836 assert(conshdlr->nusefulsepaconss <= conshdlr->nsepaconss);
3837 assert(conshdlr->nusefulenfoconss <= conshdlr->nenfoconss);
3838 assert(conshdlr->nusefulcheckconss <= conshdlr->ncheckconss);
3839 assert(conshdlr->nusefulpropconss <= conshdlr->npropconss);
3840 assert(stat != NULL);
3841 assert(conshdlr->lastpropdomchgcount != stat->domchgcount
3842 || (0 <= conshdlr->lastnusefulpropconss && conshdlr->lastnusefulpropconss <= conshdlr->nusefulpropconss));
3843 assert(set != NULL);
3844 assert(depth >= 0);
3845 assert(result != NULL);
3846
3847 *result = SCIP_DIDNOTRUN;
3848
3849 if( conshdlr->consprop != NULL
3850 && (!conshdlr->needscons || conshdlr->npropconss > 0)
3851 && ((depth == 0 && conshdlr->propfreq == 0)
3852 || (conshdlr->propfreq > 0 && depth % conshdlr->propfreq == 0)
3853 || conshdlr->propwasdelayed) )
3854 {
3855 /* check, if propagation method should be delayed */
3856 if( !conshdlr->delayprop || execdelayed )
3857 {
3858 int nconss;
3859 int nusefulconss;
3860 int nmarkedpropconss;
3861 int firstcons;
3862
3863 /* check, if the current domains were already propagated */
3864 if( !fullpropagation && conshdlr->lastpropdomchgcount == stat->domchgcount && conshdlr->nmarkedpropconss == 0 )
3865 {
3866 /* all constraints that were not yet propagated on the new domains must be useful constraints, which means,
3867 * that the new constraints are the last constraints of the useful ones
3868 */
3869 nconss = conshdlr->nusefulpropconss - conshdlr->lastnusefulpropconss;
3870 nusefulconss = nconss;
3871 firstcons = conshdlr->lastnusefulpropconss;
3872 }
3873 else
3874 {
3875 /* on new domains, we want to propagate all constraints */
3876 nconss = conshdlr->npropconss;
3877 nusefulconss = conshdlr->nusefulpropconss;
3878 firstcons = 0;
3879 }
3880 assert(firstcons >= 0);
3881 assert(firstcons + nconss <= conshdlr->npropconss);
3882 assert(nusefulconss <= nconss);
3883
3884 nmarkedpropconss = conshdlr->nmarkedpropconss;
3885
3886 /* constraint handlers without constraints should only be called once */
3887 if( nconss > 0 || fullpropagation
3888 || (!conshdlr->needscons && conshdlr->lastpropdomchgcount != stat->domchgcount) )
3889 {
3890 SCIP_CONS** conss;
3891 SCIP_Longint oldndomchgs;
3892 SCIP_Longint oldnprobdomchgs;
3893 SCIP_Longint lastpropdomchgcount;
3894 int lastnusefulpropconss;
3895
3896 SCIPsetDebugMsg(set, "propagating constraints %d to %d of %d constraints of handler <%s> (%s pseudo solution, %d useful)\n",
3897 firstcons, firstcons + nconss - 1, conshdlr->npropconss, conshdlr->name,
3898 !fullpropagation && conshdlr->lastpropdomchgcount == stat->domchgcount ? "old" : "new", nusefulconss);
3899
3900 /* remember the number of processed constraints on the current domains */
3901 lastpropdomchgcount = stat->domchgcount;
3902 lastnusefulpropconss = conshdlr->nusefulpropconss;
3903
3904 /* get the array of the constraints to be processed */
3905 conss = nconss > 0 ? (conshdlr->propconss + firstcons) : NULL;
3906
3907 oldndomchgs = stat->nboundchgs + stat->nholechgs;
3908 oldnprobdomchgs = stat->nprobboundchgs + stat->nprobholechgs;
3909
3910 /* check, if we want to use eager evaluation */
3911 if( (conshdlr->eagerfreq == 0 && conshdlr->npropcalls == 0)
3912 || (conshdlr->eagerfreq > 0 && conshdlr->npropcalls % conshdlr->eagerfreq == 0) )
3913 nusefulconss = nconss;
3914
3915 /* because during constraint processing, constraints of this handler may be deleted, activated, deactivated,
3916 * enabled, disabled, marked obsolete or useful, which would change the conss array given to the
3917 * external method; to avoid this, these changes will be buffered and processed after the method call
3918 */
3919 conshdlrDelayUpdates(conshdlr);
3920 conshdlr->duringprop = TRUE;
3921
3922 /* start timing */
3923 if( instrongbranching )
3924 SCIPclockStart(conshdlr->sbproptime, set);
3925 else
3926 SCIPclockStart(conshdlr->proptime, set);
3927
3928 assert(nusefulconss <= nconss);
3929 assert(nmarkedpropconss <= nconss);
3930
3931 /* call external method */
3932 SCIP_CALL( conshdlr->consprop(set->scip, conshdlr, conss, nconss, nusefulconss, nmarkedpropconss, proptiming, result) );
3933 SCIPsetDebugMsg(set, " -> propagation returned result <%d>\n", *result);
3934
3935 /* stop timing */
3936 if( instrongbranching )
3937 SCIPclockStop(conshdlr->sbproptime, set);
3938 else
3939 SCIPclockStop(conshdlr->proptime, set);
3940
3941 /* perform the cached constraint updates */
3942 conshdlr->duringprop = FALSE;
3943 SCIP_CALL( conshdlrForceUpdates(conshdlr, blkmem, set, stat) );
3944
3945 /* update statistics */
3946 if( *result != SCIP_DIDNOTRUN && *result != SCIP_DELAYED )
3947 {
3948 conshdlr->lastpropdomchgcount = lastpropdomchgcount;
3949 conshdlr->lastnusefulpropconss = MIN(conshdlr->nusefulpropconss, lastnusefulpropconss);
3950 conshdlr->npropcalls++;
3951 }
3952 else
3953 {
3954 assert(lastpropdomchgcount == stat->domchgcount);
3955 assert(lastnusefulpropconss == conshdlr->nusefulpropconss);
3956 }
3957 if( *result == SCIP_CUTOFF )
3958 conshdlr->ncutoffs++;
3959
3960 /* update domain reductions; therefore remove the domain
3961 * reduction counts which were generated in probing mode */
3962 conshdlr->ndomredsfound += stat->nboundchgs + stat->nholechgs - oldndomchgs;
3963 conshdlr->ndomredsfound -= (stat->nprobboundchgs + stat->nprobholechgs - oldnprobdomchgs);
3964
3965 /* check result code of callback method */
3966 if( *result != SCIP_CUTOFF
3967 && *result != SCIP_REDUCEDDOM
3968 && *result != SCIP_DIDNOTFIND
3969 && *result != SCIP_DIDNOTRUN
3970 && *result != SCIP_DELAYED
3971 && *result != SCIP_DELAYNODE )
3972 {
3973 SCIPerrorMessage("propagation method of constraint handler <%s> returned invalid result <%d>\n",
3974 conshdlr->name, *result);
3975 return SCIP_INVALIDRESULT;
3976 }
3977 }
3978 }
3979 else
3980 {
3981 SCIPsetDebugMsg(set, "propagation method of constraint handler <%s> was delayed\n", conshdlr->name);
3982 *result = SCIP_DELAYED;
3983 }
3984
3985 /* remember whether propagation method was delayed */
3986 conshdlr->propwasdelayed = (*result == SCIP_DELAYED);
3987 }
3988
3989 return SCIP_OKAY;
3990}
3991
3992/** calls presolving method of constraint handler */
3994 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
3995 BMS_BLKMEM* blkmem, /**< block memory */
3996 SCIP_SET* set, /**< global SCIP settings */
3997 SCIP_STAT* stat, /**< dynamic problem statistics */
3998 SCIP_PRESOLTIMING timing, /**< current presolving timing */
3999 int nrounds, /**< number of presolving rounds already done */
4000 int* nfixedvars, /**< pointer to total number of variables fixed of all presolvers */
4001 int* naggrvars, /**< pointer to total number of variables aggregated of all presolvers */
4002 int* nchgvartypes, /**< pointer to total number of variable type changes of all presolvers */
4003 int* nchgbds, /**< pointer to total number of variable bounds tightened of all presolvers */
4004 int* naddholes, /**< pointer to total number of domain holes added of all presolvers */
4005 int* ndelconss, /**< pointer to total number of deleted constraints of all presolvers */
4006 int* naddconss, /**< pointer to total number of added constraints of all presolvers */
4007 int* nupgdconss, /**< pointer to total number of upgraded constraints of all presolvers */
4008 int* nchgcoefs, /**< pointer to total number of changed coefficients of all presolvers */
4009 int* nchgsides, /**< pointer to total number of changed left/right hand sides of all presolvers */
4010 SCIP_RESULT* result /**< pointer to store the result of the callback method */
4011 )
4012{
4013 assert(conshdlr != NULL);
4014 assert(conshdlr->nusefulsepaconss <= conshdlr->nsepaconss);
4015 assert(conshdlr->nusefulenfoconss <= conshdlr->nenfoconss);
4016 assert(conshdlr->nusefulcheckconss <= conshdlr->ncheckconss);
4017 assert(conshdlr->nusefulpropconss <= conshdlr->npropconss);
4018 assert(set != NULL);
4019 assert(nfixedvars != NULL);
4020 assert(naggrvars != NULL);
4021 assert(nchgvartypes != NULL);
4022 assert(nchgbds != NULL);
4023 assert(naddholes != NULL);
4024 assert(ndelconss != NULL);
4025 assert(naddconss != NULL);
4026 assert(nupgdconss != NULL);
4027 assert(nchgcoefs != NULL);
4028 assert(nchgsides != NULL);
4029 assert(result != NULL);
4030
4031 *result = SCIP_DIDNOTRUN;
4032
4033 if( conshdlr->conspresol != NULL
4034 && (!conshdlr->needscons || conshdlr->nactiveconss > 0)
4035 && (conshdlr->maxprerounds == -1 || conshdlr->npresolcalls < conshdlr->maxprerounds ) )
4036 {
4037 SCIPsetDebugMsg(set, "presolving %d constraints of handler <%s>\n", conshdlr->nactiveconss, conshdlr->name);
4038
4039 /* check, if presolving method should be executed for the current timing */
4040 if( timing & conshdlr->presoltiming )
4041 {
4042 int nnewfixedvars;
4043 int nnewaggrvars;
4044 int nnewchgvartypes;
4045 int nnewchgbds;
4046 int nnewholes;
4047 int nnewdelconss;
4048 int nnewaddconss;
4049 int nnewupgdconss;
4050 int nnewchgcoefs;
4051 int nnewchgsides;
4052
4053 /* calculate the number of changes since last call */
4054 nnewfixedvars = *nfixedvars - conshdlr->lastnfixedvars;
4055 nnewaggrvars = *naggrvars - conshdlr->lastnaggrvars;
4056 nnewchgvartypes = *nchgvartypes - conshdlr->lastnchgvartypes;
4057 nnewchgbds = *nchgbds - conshdlr->lastnchgbds;
4058 nnewholes = *naddholes - conshdlr->lastnaddholes;
4059 nnewdelconss = *ndelconss - conshdlr->lastndelconss;
4060 nnewaddconss = *naddconss - conshdlr->lastnaddconss;
4061 nnewupgdconss = *nupgdconss - conshdlr->lastnupgdconss;
4062 nnewchgcoefs = *nchgcoefs - conshdlr->lastnchgcoefs;
4063 nnewchgsides = *nchgsides - conshdlr->lastnchgsides;
4064
4065 /* remember the old number of changes */
4066 conshdlr->lastnfixedvars = *nfixedvars;
4067 conshdlr->lastnaggrvars = *naggrvars;
4068 conshdlr->lastnchgvartypes = *nchgvartypes;
4069 conshdlr->lastnchgbds = *nchgbds;
4070 conshdlr->lastnaddholes = *naddholes;
4071 conshdlr->lastndelconss = *ndelconss;
4072 conshdlr->lastnaddconss = *naddconss;
4073 conshdlr->lastnupgdconss = *nupgdconss;
4074 conshdlr->lastnchgcoefs = *nchgcoefs;
4075 conshdlr->lastnchgsides = *nchgsides;
4076
4077 /* because during constraint processing, constraints of this handler may be deleted, activated, deactivated,
4078 * enabled, disabled, marked obsolete or useful, which would change the conss array given to the
4079 * external method; to avoid this, these changes will be buffered and processed after the method call
4080 */
4081 conshdlrDelayUpdates(conshdlr);
4082
4083 /* start timing */
4084 SCIPclockStart(conshdlr->presoltime, set);
4085
4086 /* call external method */
4087 SCIP_CALL( conshdlr->conspresol(set->scip, conshdlr, conshdlr->conss, conshdlr->nactiveconss, nrounds, timing,
4088 nnewfixedvars, nnewaggrvars, nnewchgvartypes, nnewchgbds, nnewholes,
4089 nnewdelconss, nnewaddconss, nnewupgdconss, nnewchgcoefs, nnewchgsides,
4090 nfixedvars, naggrvars, nchgvartypes, nchgbds, naddholes,
4091 ndelconss, naddconss, nupgdconss, nchgcoefs, nchgsides, result) );
4092
4093 /* stop timing */
4094 SCIPclockStop(conshdlr->presoltime, set);
4095
4096 /* perform the cached constraint updates */
4097 SCIP_CALL( conshdlrForceUpdates(conshdlr, blkmem, set, stat) );
4098
4099 /* count the new changes */
4100 conshdlr->nfixedvars += *nfixedvars - conshdlr->lastnfixedvars;
4101 conshdlr->naggrvars += *naggrvars - conshdlr->lastnaggrvars;
4102 conshdlr->nchgvartypes += *nchgvartypes - conshdlr->lastnchgvartypes;
4103 conshdlr->nchgbds += *nchgbds - conshdlr->lastnchgbds;
4104 conshdlr->naddholes += *naddholes - conshdlr->lastnaddholes;
4105 conshdlr->ndelconss += *ndelconss - conshdlr->lastndelconss;
4106 conshdlr->naddconss += *naddconss - conshdlr->lastnaddconss;
4107 conshdlr->nupgdconss += *nupgdconss - conshdlr->lastnupgdconss;
4108 conshdlr->nchgcoefs += *nchgcoefs - conshdlr->lastnchgcoefs;
4109 conshdlr->nchgsides += *nchgsides - conshdlr->lastnchgsides;
4110
4111 /* check result code of callback method */
4112 if( *result != SCIP_CUTOFF
4113 && *result != SCIP_UNBOUNDED
4114 && *result != SCIP_SUCCESS
4115 && *result != SCIP_DIDNOTFIND
4116 && *result != SCIP_DIDNOTRUN
4117 && *result != SCIP_DELAYED )
4118 {
4119 SCIPerrorMessage("presolving method of constraint handler <%s> returned invalid result <%d>\n",
4120 conshdlr->name, *result);
4121 return SCIP_INVALIDRESULT;
4122 }
4123
4124 /* increase the number of calls, if the presolving method tried to find reductions */
4125 if( *result != SCIP_DIDNOTRUN )
4126 ++(conshdlr->npresolcalls);
4127 }
4128
4129 SCIPsetDebugMsg(set, "after presolving %d constraints left of handler <%s>\n", conshdlr->nactiveconss, conshdlr->name);
4130 }
4131
4132 return SCIP_OKAY;
4133}
4134
4135/** calls variable deletion method of constraint handler */
4137 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4138 BMS_BLKMEM* blkmem, /**< block memory */
4139 SCIP_SET* set, /**< global SCIP settings */
4140 SCIP_STAT* stat /**< dynamic problem statistics */
4141 )
4142{
4143 assert(conshdlr != NULL);
4144 assert(set != NULL);
4145
4146 if( conshdlr->consdelvars != NULL )
4147 {
4148 SCIPsetDebugMsg(set, "deleting variables in constraints of handler <%s>\n", conshdlr->name);
4149
4150 /* during constraint processing, constraints of this handler may be deleted, activated, deactivated,
4151 * enabled, disabled, marked obsolete or useful, which would change the conss array given to the
4152 * external method; to avoid this, these changes will be buffered and processed after the method call
4153 */
4154 conshdlrDelayUpdates(conshdlr);
4155
4156 /* call external method */
4157 SCIP_CALL( conshdlr->consdelvars(set->scip, conshdlr, conshdlr->conss, conshdlr->nconss) );
4158
4159 /* perform the cached constraint updates */
4160 SCIP_CALL( conshdlrForceUpdates(conshdlr, blkmem, set, stat) );
4161 }
4162
4163 return SCIP_OKAY;
4164}
4165
4166/** locks rounding of variables involved in the given constraint constraint handler that doesn't need constraints */
4168 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4169 SCIP_SET* set /**< global SCIP settings */
4170 )
4171{
4172 assert(conshdlr != NULL);
4173 assert(conshdlr->conslock != NULL);
4174 assert(!conshdlr->needscons);
4175
4176 SCIP_CALL( conshdlr->conslock(set->scip, conshdlr, NULL, SCIP_LOCKTYPE_MODEL, +1, 0) );
4177
4178 return SCIP_OKAY;
4179}
4180
4181/** unlocks rounding of variables involved in the given constraint constraint handler that doesn't need constraints */
4183 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4184 SCIP_SET* set /**< global SCIP settings */
4185 )
4186{
4187 assert(conshdlr != NULL);
4188 assert(conshdlr->conslock != NULL);
4189 assert(!conshdlr->needscons);
4190
4191 SCIP_CALL( conshdlr->conslock(set->scip, conshdlr, NULL, SCIP_LOCKTYPE_MODEL, -1, 0) );
4192
4193 return SCIP_OKAY;
4194}
4195
4196/** gets name of constraint handler */
4198 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4199 )
4200{
4201 assert(conshdlr != NULL);
4202
4203 return conshdlr->name;
4204}
4205
4206/** gets description of constraint handler */
4208 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4209 )
4210{
4211 assert(conshdlr != NULL);
4212
4213 return conshdlr->desc;
4214}
4215
4216/** gets user data of constraint handler */
4218 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4219 )
4220{
4221 assert(conshdlr != NULL);
4222
4223 return conshdlr->conshdlrdata;
4224}
4225
4226/** sets user data of constraint handler; user has to free old data in advance! */
4228 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4229 SCIP_CONSHDLRDATA* conshdlrdata /**< new constraint handler user data */
4230 )
4231{
4232 assert(conshdlr != NULL);
4233
4234 conshdlr->conshdlrdata = conshdlrdata;
4235}
4236
4237/** sets all separation related callbacks of the constraint handler */
4239 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4240 SCIP_DECL_CONSSEPALP ((*conssepalp)), /**< separate cutting planes for LP solution */
4241 SCIP_DECL_CONSSEPASOL ((*conssepasol)), /**< separate cutting planes for arbitrary primal solution */
4242 int sepafreq, /**< frequency for separating cuts; zero means to separate only in the root node */
4243 int sepapriority, /**< priority of the constraint handler for separation */
4244 SCIP_Bool delaysepa /**< should separation method be delayed, if other separators found cuts? */
4245 )
4246{
4247 assert(conshdlr != NULL);
4248
4249 assert(conssepalp != NULL || conssepasol != NULL || sepafreq == -1);
4250
4251 conshdlr->conssepalp = conssepalp;
4252 conshdlr->conssepasol = conssepasol;
4253 conshdlr->sepafreq = sepafreq;
4254 conshdlr->sepapriority = sepapriority;
4255 conshdlr->delaysepa = delaysepa;
4256}
4257
4258/** sets both the propagation callback and the propagation frequency of the constraint handler */
4260 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4261 SCIP_DECL_CONSPROP ((*consprop)), /**< propagate variable domains */
4262 int propfreq, /**< frequency for propagating domains; zero means only preprocessing propagation */
4263 SCIP_Bool delayprop, /**< should propagation method be delayed, if other propagators found reductions? */
4264 SCIP_PROPTIMING timingmask /**< positions in the node solving loop where propagators should be executed */
4265 )
4266{
4267 assert(conshdlr != NULL);
4268
4269 assert(consprop != NULL || propfreq == -1);
4270
4271 conshdlr->consprop = consprop;
4272 conshdlr->propfreq = propfreq;
4273 conshdlr->delayprop = delayprop;
4274 conshdlr->proptiming = timingmask;
4275}
4276
4277/** sets copy method of both the constraint handler and each associated constraint */
4279 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4280 SCIP_DECL_CONSENFORELAX ((*consenforelax)) /**< constraint copying method */
4281 )
4282{
4283 assert(conshdlr != NULL);
4284
4285 conshdlr->consenforelax = consenforelax;
4286}
4287
4288/** sets copy method of both the constraint handler and each associated constraint */
4290 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4291 SCIP_DECL_CONSHDLRCOPY((*conshdlrcopy)), /**< copy method of constraint handler or NULL if you don't want to copy your plugin into sub-SCIPs */
4292 SCIP_DECL_CONSCOPY ((*conscopy)) /**< constraint copying method */
4293 )
4294{
4295 assert(conshdlr != NULL);
4296
4297 assert(!conshdlr->needscons || (conshdlrcopy == NULL) == (conscopy == NULL));
4298
4299 conshdlr->conshdlrcopy = conshdlrcopy;
4300 conshdlr->conscopy = conscopy;
4301}
4302
4303/** sets destructor method of constraint handler */
4305 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4306 SCIP_DECL_CONSFREE ((*consfree)) /**< destructor of constraint handler */
4307 )
4308{
4309 assert(conshdlr != NULL);
4310
4311 conshdlr->consfree = consfree;
4312}
4313
4314/** sets initialization method of constraint handler */
4316 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4317 SCIP_DECL_CONSINIT ((*consinit)) /**< initialize constraint handler */
4318 )
4319{
4320 assert(conshdlr != NULL);
4321
4322 conshdlr->consinit = consinit;
4323}
4324
4325/** sets deinitialization method of constraint handler */
4327 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4328 SCIP_DECL_CONSEXIT ((*consexit)) /**< deinitialize constraint handler */
4329 )
4330{
4331 assert(conshdlr != NULL);
4332
4333 conshdlr->consexit = consexit;
4334}
4335
4336/** sets solving process initialization method of constraint handler */
4338 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4339 SCIP_DECL_CONSINITSOL((*consinitsol)) /**< solving process initialization method of constraint handler */
4340 )
4341{
4342 assert(conshdlr != NULL);
4343
4344 conshdlr->consinitsol = consinitsol;
4345}
4346
4347/** sets solving process deinitialization method of constraint handler */
4349 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4350 SCIP_DECL_CONSEXITSOL ((*consexitsol)) /**< solving process deinitialization method of constraint handler */
4351 )
4352{
4353 assert(conshdlr != NULL);
4354
4355 conshdlr->consexitsol = consexitsol;
4356}
4357
4358/** sets preprocessing initialization method of constraint handler */
4360 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4361 SCIP_DECL_CONSINITPRE((*consinitpre)) /**< preprocessing initialization method of constraint handler */
4362 )
4363{
4364 assert(conshdlr != NULL);
4365
4366 conshdlr->consinitpre = consinitpre;
4367}
4368
4369/** sets preprocessing deinitialization method of constraint handler */
4371 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4372 SCIP_DECL_CONSEXITPRE((*consexitpre)) /**< preprocessing deinitialization method of constraint handler */
4373 )
4374{
4375 assert(conshdlr != NULL);
4376
4377 conshdlr->consexitpre = consexitpre;
4378}
4379
4380/** sets presolving method of constraint handler */
4382 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4383 SCIP_DECL_CONSPRESOL ((*conspresol)), /**< presolving method of constraint handler */
4384 int maxprerounds, /**< maximal number of presolving rounds the constraint handler participates in (-1: no limit) */
4385 SCIP_PRESOLTIMING presoltiming /**< timing mask of the constraint handler's presolving method */
4386 )
4387{
4388 assert(conshdlr != NULL);
4389
4390 conshdlr->conspresol = conspresol;
4391 conshdlr->maxprerounds = maxprerounds;
4392
4393 /* the interface change from delay flags to timings cannot be recognized at compile time: Exit with an appropriate
4394 * error message
4395 */
4396 if( presoltiming < SCIP_PRESOLTIMING_FAST || presoltiming > SCIP_PRESOLTIMING_MAX )
4397 {
4398 SCIPmessagePrintError("ERROR: 'PRESOLDELAY'-flag no longer available since SCIP 3.2, use an appropriate "
4399 "'SCIP_PRESOLTIMING' for <%s> constraint handler instead.\n", conshdlr->name);
4400
4402 }
4403
4404 conshdlr->presoltiming = presoltiming;
4405
4406 return SCIP_OKAY;
4407}
4408
4409/** sets method of constraint handler to free specific constraint data */
4411 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4412 SCIP_DECL_CONSDELETE ((*consdelete)) /**< free specific constraint data */
4413 )
4414{
4415 assert(conshdlr != NULL);
4416
4417 conshdlr->consdelete = consdelete;
4418}
4419
4420/** sets method of constraint handler to transform constraint data into data belonging to the transformed problem */
4422 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4423 SCIP_DECL_CONSTRANS ((*constrans)) /**< transform constraint data into data belonging to the transformed problem */
4424 )
4425{
4426 assert(conshdlr != NULL);
4427
4428 conshdlr->constrans = constrans;
4429}
4430
4431/** sets method of constraint handler to initialize LP with relaxations of "initial" constraints */
4433 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4434 SCIP_DECL_CONSINITLP ((*consinitlp)) /**< initialize LP with relaxations of "initial" constraints */
4435 )
4436{
4437 assert(conshdlr != NULL);
4438
4439 conshdlr->consinitlp = consinitlp;
4440}
4441
4442/** sets propagation conflict resolving method of constraint handler */
4444 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4445 SCIP_DECL_CONSRESPROP ((*consresprop)) /**< propagation conflict resolving method */
4446 )
4447{
4448 assert(conshdlr != NULL);
4449
4450 conshdlr->consresprop = consresprop;
4451}
4452
4453/** sets activation notification method of constraint handler */
4455 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4456 SCIP_DECL_CONSACTIVE ((*consactive)) /**< activation notification method */
4457 )
4458{
4459 assert(conshdlr != NULL);
4460
4461 conshdlr->consactive = consactive;
4462}
4463
4464/** sets deactivation notification method of constraint handler */
4466 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4467 SCIP_DECL_CONSDEACTIVE((*consdeactive)) /**< deactivation notification method */
4468 )
4469{
4470 assert(conshdlr != NULL);
4471
4472 conshdlr->consdeactive = consdeactive;
4473}
4474
4475/** sets enabling notification method of constraint handler */
4477 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4478 SCIP_DECL_CONSENABLE ((*consenable)) /**< enabling notification method */
4479 )
4480{
4481 assert(conshdlr != NULL);
4482
4483 conshdlr->consenable = consenable;
4484}
4485
4486/** sets disabling notification method of constraint handler */
4488 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4489 SCIP_DECL_CONSDISABLE ((*consdisable)) /**< disabling notification method */
4490 )
4491{
4492 assert(conshdlr != NULL);
4493
4494 conshdlr->consdisable = consdisable;
4495}
4496
4497/** sets variable deletion method of constraint handler */
4499 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4500 SCIP_DECL_CONSDELVARS ((*consdelvars)) /**< variable deletion method */
4501 )
4502{
4503 assert(conshdlr != NULL);
4504
4505 conshdlr->consdelvars = consdelvars;
4506}
4507
4508/** sets constraint display method of constraint handler */
4510 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4511 SCIP_DECL_CONSPRINT ((*consprint)) /**< constraint display method */
4512 )
4513{
4514 assert(conshdlr != NULL);
4515
4516 conshdlr->consprint = consprint;
4517}
4518
4519/** sets constraint parsing method of constraint handler */
4521 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4522 SCIP_DECL_CONSPARSE ((*consparse)) /**< constraint parsing method */
4523 )
4524{
4525 assert(conshdlr != NULL);
4526
4527 conshdlr->consparse = consparse;
4528}
4529
4530/** sets constraint variable getter method of constraint handler */
4532 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4533 SCIP_DECL_CONSGETVARS ((*consgetvars)) /**< constraint variable getter method */
4534 )
4535{
4536 assert(conshdlr != NULL);
4537
4538 conshdlr->consgetvars = consgetvars;
4539}
4540
4541/** sets constraint variable number getter method of constraint handler */
4543 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4544 SCIP_DECL_CONSGETNVARS((*consgetnvars)) /**< constraint variable number getter method */
4545 )
4546{
4547 assert(conshdlr != NULL);
4548
4549 conshdlr->consgetnvars = consgetnvars;
4550}
4551
4552/** sets diving enforcement method of constraint handler */
4554 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4555 SCIP_DECL_CONSGETDIVEBDCHGS((*consgetdivebdchgs)) /**< constraint handler diving solution enforcement method */
4556 )
4557{
4558 assert(conshdlr != NULL);
4559
4560 conshdlr->consgetdivebdchgs = consgetdivebdchgs;
4561}
4562
4563/** sets permutation symmetry detection graph getter method of constraint handler */
4565 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4566 SCIP_DECL_CONSGETPERMSYMGRAPH((*consgetpermsymgraph)) /**< constraint permutation symmetry detection graph
4567 * getter method */
4568 )
4569{
4570 assert(conshdlr != NULL);
4571
4572 conshdlr->consgetpermsymgraph = consgetpermsymgraph;
4573}
4574
4575/** sets signed permutation symmetry detection graph getter method of constraint handler */
4577 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
4578 SCIP_DECL_CONSGETSIGNEDPERMSYMGRAPH((*consgetsignedpermsymgraph)) /**< constraint permutation symmetry detection
4579 * graph getter method */
4580 )
4581{
4582 assert(conshdlr != NULL);
4583
4584 conshdlr->consgetsignedpermsymgraph = consgetsignedpermsymgraph;
4585}
4586
4587/** gets array with constraints of constraint handler; the first SCIPconshdlrGetNActiveConss() entries are the active
4588 * constraints, the last SCIPconshdlrGetNConss() - SCIPconshdlrGetNActiveConss() constraints are deactivated
4589 *
4590 * @note A constraint is active if it is global and was not removed or it was added locally (in that case the local
4591 * flag is TRUE) and the current node belongs to the corresponding sub tree.
4592 */
4594 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4595 )
4596{
4597 assert(conshdlr != NULL);
4598
4599 return conshdlr->conss;
4600}
4601
4602/** gets array with enforced constraints of constraint handler; this is local information */
4604 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4605 )
4606{
4607 assert(conshdlr != NULL);
4608
4609 return conshdlr->enfoconss;
4610}
4611
4612/** gets array with checked constraints of constraint handler; this is local information */
4614 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4615 )
4616{
4617 assert(conshdlr != NULL);
4618
4619 return conshdlr->checkconss;
4620}
4621
4622/** gets array with delayed update constraints
4623 *
4624 * @attention Usually, there should be no need to access this array. Use this only if you are absolutely sure what you are doing.
4625 */
4627 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4628 )
4629{
4630 assert(conshdlr != NULL);
4631
4632 return conshdlr->updateconss;
4633}
4634
4635/** gets total number of existing transformed constraints of constraint handler */
4637 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4638 )
4639{
4640 assert(conshdlr != NULL);
4641
4642 return conshdlr->nconss;
4643}
4644
4645/** gets number of enforced constraints of constraint handler; this is local information */
4647 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4648 )
4649{
4650 assert(conshdlr != NULL);
4651
4652 return conshdlr->nenfoconss;
4653}
4654
4655/** gets number of checked constraints of constraint handler; this is local information */
4657 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4658 )
4659{
4660 assert(conshdlr != NULL);
4661
4662 return conshdlr->ncheckconss;
4663}
4664
4665/** gets number of active constraints of constraint handler
4666 *
4667 * @note A constraint is active if it is global and was not removed or it was added locally (in that case the local
4668 * flag is TRUE) and the current node belongs to the corresponding sub tree.
4669 */
4671 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4672 )
4673{
4674 assert(conshdlr != NULL);
4675
4676 return conshdlr->nactiveconss;
4677}
4678
4679/** gets number of enabled constraints of constraint handler */
4681 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4682 )
4683{
4684 assert(conshdlr != NULL);
4685
4686 return conshdlr->nenabledconss;
4687}
4688
4689/** gets number of constraints that have delayed updates */
4691 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4692 )
4693{
4694 assert(conshdlr != NULL);
4695
4696 return conshdlr->nupdateconss;
4697}
4698
4699/** enables or disables all clocks of \p conshdlr, depending on the value of the flag */
4701 SCIP_CONSHDLR* conshdlr, /**< the constraint handler for which all clocks should be enabled or disabled */
4702 SCIP_Bool enable /**< should the clocks of the constraint handler be enabled? */
4703 )
4704{
4705 assert(conshdlr != NULL);
4706
4707 SCIPclockEnableOrDisable(conshdlr->setuptime, enable);
4708 SCIPclockEnableOrDisable(conshdlr->checktime, enable);
4709 SCIPclockEnableOrDisable(conshdlr->enfolptime, enable);
4710 SCIPclockEnableOrDisable(conshdlr->enfopstime, enable);
4711 SCIPclockEnableOrDisable(conshdlr->enforelaxtime, enable);
4712 SCIPclockEnableOrDisable(conshdlr->presoltime, enable);
4713 SCIPclockEnableOrDisable(conshdlr->proptime, enable);
4714 SCIPclockEnableOrDisable(conshdlr->resproptime, enable);
4715 SCIPclockEnableOrDisable(conshdlr->sbproptime, enable);
4716 SCIPclockEnableOrDisable(conshdlr->sepatime, enable);
4717}
4718
4719/** gets time in seconds used for setting up this constraint handler for new stages */
4721 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4722 )
4723{
4724 assert(conshdlr != NULL);
4725
4726 return SCIPclockGetTime(conshdlr->setuptime);
4727}
4728
4729/** gets time in seconds used for presolving in this constraint handler */
4731 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4732 )
4733{
4734 assert(conshdlr != NULL);
4735
4736 return SCIPclockGetTime(conshdlr->presoltime);
4737}
4738
4739/** gets time in seconds used for separation in this constraint handler */
4741 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4742 )
4743{
4744 assert(conshdlr != NULL);
4745
4746 return SCIPclockGetTime(conshdlr->sepatime);
4747}
4748
4749/** gets time in seconds used for LP enforcement in this constraint handler */
4751 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4752 )
4753{
4754 assert(conshdlr != NULL);
4755
4756 return SCIPclockGetTime(conshdlr->enfolptime);
4757}
4758
4759/** gets time in seconds used for pseudo enforcement in this constraint handler */
4761 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4762 )
4763{
4764 assert(conshdlr != NULL);
4765
4766 return SCIPclockGetTime(conshdlr->enfopstime);
4767}
4768
4769/** gets time in seconds used for relaxation enforcement in this constraint handler */
4771 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4772 )
4773{
4774 assert(conshdlr != NULL);
4775
4776 return SCIPclockGetTime(conshdlr->enforelaxtime);
4777}
4778
4779/** gets time in seconds used for propagation in this constraint handler */
4781 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4782 )
4783{
4784 assert(conshdlr != NULL);
4785
4786 return SCIPclockGetTime(conshdlr->proptime);
4787}
4788
4789/** gets time in seconds used for propagation in this constraint handler during strong branching */
4791 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4792 )
4793{
4794 assert(conshdlr != NULL);
4795
4796 return SCIPclockGetTime(conshdlr->sbproptime);
4797}
4798
4799/** gets time in seconds used for feasibility checking in this constraint handler */
4801 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4802 )
4803{
4804 assert(conshdlr != NULL);
4805
4806 return SCIPclockGetTime(conshdlr->checktime);
4807}
4808
4809/** gets time in seconds used for resolving propagation in this constraint handler */
4811 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4812 )
4813{
4814 assert(conshdlr != NULL);
4815
4816 return SCIPclockGetTime(conshdlr->resproptime);
4817}
4818
4819/** gets number of calls to the constraint handler's separation method */
4821 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4822 )
4823{
4824 assert(conshdlr != NULL);
4825
4826 return conshdlr->nsepacalls;
4827}
4828
4829/** gets number of calls to the constraint handler's LP enforcing method */
4831 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4832 )
4833{
4834 assert(conshdlr != NULL);
4835
4836 return conshdlr->nenfolpcalls;
4837}
4838
4839/** gets number of calls to the constraint handler's pseudo enforcing method */
4841 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4842 )
4843{
4844 assert(conshdlr != NULL);
4845
4846 return conshdlr->nenfopscalls;
4847}
4848
4849/** gets number of calls to the constraint handler's relaxation enforcing method */
4851 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4852 )
4853{
4854 assert(conshdlr != NULL);
4855
4856 return conshdlr->nenforelaxcalls;
4857}
4858
4859/** gets number of calls to the constraint handler's propagation method */
4861 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4862 )
4863{
4864 assert(conshdlr != NULL);
4865
4866 return conshdlr->npropcalls;
4867}
4868
4869/** gets number of calls to the constraint handler's checking method */
4871 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4872 )
4873{
4874 assert(conshdlr != NULL);
4875
4876 return conshdlr->ncheckcalls;
4877}
4878
4879/** gets number of calls to the constraint handler's resolve propagation method */
4881 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4882 )
4883{
4884 assert(conshdlr != NULL);
4885
4886 return conshdlr->nrespropcalls;
4887}
4888
4889/** gets total number of times, this constraint handler detected a cutoff */
4891 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4892 )
4893{
4894 assert(conshdlr != NULL);
4895
4896 return conshdlr->ncutoffs;
4897}
4898
4899/** gets total number of cuts found by this constraint handler */
4901 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4902 )
4903{
4904 assert(conshdlr != NULL);
4905
4906 return conshdlr->ncutsfound;
4907}
4908
4909/** gets total number of cuts found by this constraint handler applied to lp */
4911 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4912 )
4913{
4914 assert(conshdlr != NULL);
4915
4916 return conshdlr->ncutsapplied;
4917}
4918
4919/** increase count of applied cuts */
4921 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4922 )
4923{
4924 assert(conshdlr != NULL);
4925
4926 ++conshdlr->ncutsapplied;
4927}
4928
4929/** increase count of found cuts */
4931 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4932 )
4933{
4934 assert(conshdlr != NULL);
4935
4936 ++conshdlr->ncutsfound;
4937}
4938
4939/** gets total number of additional constraints added by this constraint handler */
4941 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4942 )
4943{
4944 assert(conshdlr != NULL);
4945
4946 return conshdlr->nconssfound;
4947}
4948
4949/** gets total number of domain reductions found by this constraint handler */
4951 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4952 )
4953{
4954 assert(conshdlr != NULL);
4955
4956 return conshdlr->ndomredsfound;
4957}
4958
4959/** gets number of children created by this constraint handler */
4961 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4962 )
4963{
4964 assert(conshdlr != NULL);
4965
4966 return conshdlr->nchildren;
4967}
4968
4969/** gets maximum number of active constraints of constraint handler existing at the same time */
4971 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4972 )
4973{
4974 assert(conshdlr != NULL);
4975
4976 return conshdlr->maxnactiveconss;
4977}
4978
4979/** gets initial number of active constraints of constraint handler */
4981 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4982 )
4983{
4984 assert(conshdlr != NULL);
4985
4986 return conshdlr->startnactiveconss;
4987}
4988
4989/** gets number of variables fixed in presolving method of constraint handler */
4991 SCIP_CONSHDLR* conshdlr /**< constraint handler */
4992 )
4993{
4994 assert(conshdlr != NULL);
4995
4996 return conshdlr->nfixedvars;
4997}
4998
4999/** gets number of variables aggregated in presolving method of constraint handler */
5001 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5002 )
5003{
5004 assert(conshdlr != NULL);
5005
5006 return conshdlr->naggrvars;
5007}
5008
5009/** gets number of variable types changed in presolving method of constraint handler */
5011 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5012 )
5013{
5014 assert(conshdlr != NULL);
5015
5016 return conshdlr->nchgvartypes;
5017}
5018
5019/** gets number of bounds changed in presolving method of constraint handler */
5021 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5022 )
5023{
5024 assert(conshdlr != NULL);
5025
5026 return conshdlr->nchgbds;
5027}
5028
5029/** gets number of holes added to domains of variables in presolving method of constraint handler */
5031 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5032 )
5033{
5034 assert(conshdlr != NULL);
5035
5036 return conshdlr->naddholes;
5037}
5038
5039/** gets number of constraints deleted in presolving method of constraint handler */
5041 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5042 )
5043{
5044 assert(conshdlr != NULL);
5045
5046 return conshdlr->ndelconss;
5047}
5048
5049/** gets number of constraints added in presolving method of constraint handler */
5051 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5052 )
5053{
5054 assert(conshdlr != NULL);
5055
5056 return conshdlr->naddconss;
5057}
5058
5059/** gets number of constraints upgraded in presolving method of constraint handler */
5061 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5062 )
5063{
5064 assert(conshdlr != NULL);
5065
5066 return conshdlr->nupgdconss;
5067}
5068
5069/** gets number of coefficients changed in presolving method of constraint handler */
5071 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5072 )
5073{
5074 assert(conshdlr != NULL);
5075
5076 return conshdlr->nchgcoefs;
5077}
5078
5079/** gets number of constraint sides changed in presolving method of constraint handler */
5081 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5082 )
5083{
5084 assert(conshdlr != NULL);
5085
5086 return conshdlr->nchgsides;
5087}
5088
5089/** gets number of times the presolving method of the constraint handler was called and tried to find reductions */
5091 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5092 )
5093{
5094 assert(conshdlr != NULL);
5095
5096 return conshdlr->npresolcalls;
5097}
5098
5099/** gets separation priority of constraint handler */
5101 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5102 )
5103{
5104 assert(conshdlr != NULL);
5105
5106 return conshdlr->sepapriority;
5107}
5108
5109/** gets enforcing priority of constraint handler */
5111 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5112 )
5113{
5114 assert(conshdlr != NULL);
5115
5116 return conshdlr->enfopriority;
5117}
5118
5119/** gets checking priority of constraint handler */
5121 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5122 )
5123{
5124 assert(conshdlr != NULL);
5125
5126 return conshdlr->checkpriority;
5127}
5128
5129/** gets separation frequency of constraint handler */
5131 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5132 )
5133{
5134 assert(conshdlr != NULL);
5135
5136 return conshdlr->sepafreq;
5137}
5138
5139/** gets propagation frequency of constraint handler */
5141 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5142 )
5143{
5144 assert(conshdlr != NULL);
5145
5146 return conshdlr->propfreq;
5147}
5148
5149/** gets frequency of constraint handler for eager evaluations in separation, propagation and enforcement */
5151 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5152 )
5153{
5154 assert(conshdlr != NULL);
5155
5156 return conshdlr->eagerfreq;
5157}
5158
5159/** needs constraint handler a constraint to be called? */
5161 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5162 )
5163{
5164 assert(conshdlr != NULL);
5165
5166 return conshdlr->needscons;
5167}
5168
5169/** does the constraint handler perform presolving? */
5171 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5172 )
5173{
5174 assert(conshdlr != NULL);
5175
5176 return (conshdlr->conspresol != NULL);
5177}
5178
5179/** should separation method be delayed, if other separators found cuts? */
5181 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5182 )
5183{
5184 assert(conshdlr != NULL);
5185
5186 return conshdlr->delaysepa;
5187}
5188
5189/** should propagation method be delayed, if other propagators found reductions? */
5191 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5192 )
5193{
5194 assert(conshdlr != NULL);
5195
5196 return conshdlr->delayprop;
5197}
5198
5199/** was LP separation method delayed at the last call? */
5201 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5202 )
5203{
5204 assert(conshdlr != NULL);
5205
5206 return conshdlr->sepalpwasdelayed;
5207}
5208
5209/** was primal solution separation method delayed at the last call? */
5211 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5212 )
5213{
5214 assert(conshdlr != NULL);
5215
5216 return conshdlr->sepasolwasdelayed;
5217}
5218
5219/** was propagation method delayed at the last call? */
5221 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5222 )
5223{
5224 assert(conshdlr != NULL);
5225
5226 return conshdlr->propwasdelayed;
5227}
5228
5229/** is constraint handler initialized? */
5231 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5232 )
5233{
5234 assert(conshdlr != NULL);
5235
5236 return conshdlr->initialized;
5237}
5238
5239/** does the constraint handler have a copy function? */
5241 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5242 )
5243{
5244 assert(conshdlr != NULL);
5245
5246 return (conshdlr->conshdlrcopy != NULL);
5247}
5248
5249/** returns the timing mask of the propagation method of the constraint handler */
5251 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5252 )
5253{
5254 assert(conshdlr != NULL);
5255
5256 return conshdlr->proptiming;
5257}
5258
5259/** sets the timing mask of the propagation method of the constraint handler */
5261 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
5262 SCIP_PROPTIMING proptiming /**< timing mask to be set */
5263 )
5264{
5265 assert(conshdlr != NULL);
5266
5267 conshdlr->proptiming = proptiming;
5268}
5269
5270
5271/** returns the timing mask of the presolving method of the constraint handler */
5273 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5274 )
5275{
5276 assert(conshdlr != NULL);
5277
5278 return conshdlr->presoltiming;
5279}
5280
5281/** sets the timing mask of the presolving method of the constraint handler */
5283 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
5284 SCIP_PRESOLTIMING presoltiming /** timing mask to be set */
5285 )
5286{
5287 assert(conshdlr != NULL);
5288
5289 conshdlr->presoltiming = presoltiming;
5290}
5291
5292/** returns whether conshdlr supports permutation symmetry detection */
5294 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5295 )
5296{
5297 assert(conshdlr != NULL);
5298
5299 return conshdlr->consgetpermsymgraph != NULL;
5300}
5301
5302/** returns whether conshdlr supports signed permutation symmetry detection */
5304 SCIP_CONSHDLR* conshdlr /**< constraint handler */
5305 )
5306{
5307 assert(conshdlr != NULL);
5308
5309 return conshdlr->consgetsignedpermsymgraph != NULL;
5310}
5311
5312/*
5313 * Constraint set change methods
5314 */
5315
5316/** creates empty constraint set change data */
5317static
5319 SCIP_CONSSETCHG** conssetchg, /**< pointer to constraint set change data */
5320 BMS_BLKMEM* blkmem /**< block memory */
5321 )
5322{
5323 assert(conssetchg != NULL);
5324 assert(blkmem != NULL);
5325
5326 SCIP_ALLOC( BMSallocBlockMemory(blkmem, conssetchg) );
5327 (*conssetchg)->addedconss = NULL;
5328 (*conssetchg)->disabledconss = NULL;
5329 (*conssetchg)->addedconsssize = 0;
5330 (*conssetchg)->naddedconss = 0;
5331 (*conssetchg)->disabledconsssize = 0;
5332 (*conssetchg)->ndisabledconss = 0;
5333
5334 return SCIP_OKAY;
5335}
5336
5337/** releases all constraints of the constraint set change data */
5338static
5340 SCIP_CONSSETCHG* conssetchg, /**< constraint set change data */
5341 BMS_BLKMEM* blkmem, /**< block memory */
5342 SCIP_SET* set /**< global SCIP settings */
5343 )
5344{
5345 int i;
5346
5347 assert(conssetchg != NULL);
5348
5349 /* release constraints */
5350 for( i = 0; i < conssetchg->naddedconss; ++i )
5351 {
5352 if( conssetchg->addedconss[i] != NULL )
5353 {
5354 SCIP_CALL( SCIPconsRelease(&conssetchg->addedconss[i], blkmem, set) );
5355 }
5356 }
5357 for( i = 0; i < conssetchg->ndisabledconss; ++i )
5358 {
5359 if( conssetchg->disabledconss[i] != NULL )
5360 {
5361 SCIP_CALL( SCIPconsRelease(&conssetchg->disabledconss[i], blkmem, set) );
5362 }
5363 }
5364
5365 return SCIP_OKAY;
5366}
5367
5368/** frees constraint set change data and releases all included constraints */
5370 SCIP_CONSSETCHG** conssetchg, /**< pointer to constraint set change */
5371 BMS_BLKMEM* blkmem, /**< block memory */
5372 SCIP_SET* set /**< global SCIP settings */
5373 )
5374{
5375 assert(conssetchg != NULL);
5376 assert(blkmem != NULL);
5377
5378 if( *conssetchg != NULL )
5379 {
5380 /* release constraints */
5381 SCIP_CALL( conssetchgRelease(*conssetchg, blkmem, set) );
5382
5383 /* free memory */
5384 BMSfreeBlockMemoryArrayNull(blkmem, &(*conssetchg)->addedconss, (*conssetchg)->addedconsssize);
5385 BMSfreeBlockMemoryArrayNull(blkmem, &(*conssetchg)->disabledconss, (*conssetchg)->disabledconsssize);
5386 BMSfreeBlockMemory(blkmem, conssetchg);
5387 }
5388
5389 return SCIP_OKAY;
5390}
5391
5392/** ensures, that addedconss array can store at least num entries */
5393static
5395 SCIP_CONSSETCHG* conssetchg, /**< constraint set change data structure */
5396 BMS_BLKMEM* blkmem, /**< block memory */
5397 SCIP_SET* set, /**< global SCIP settings */
5398 int num /**< minimum number of entries to store */
5399 )
5400{
5401 assert(conssetchg != NULL);
5402
5403 if( num > conssetchg->addedconsssize )
5404 {
5405 int newsize;
5406
5407 newsize = SCIPsetCalcMemGrowSize(set, num);
5408 SCIP_ALLOC( BMSreallocBlockMemoryArray(blkmem, &conssetchg->addedconss, conssetchg->addedconsssize, newsize) );
5409 conssetchg->addedconsssize = newsize;
5410 }
5411 assert(num <= conssetchg->addedconsssize);
5412
5413 return SCIP_OKAY;
5414}
5415
5416/** ensures, that disabledconss array can store at least num entries */
5417static
5419 SCIP_CONSSETCHG* conssetchg, /**< constraint set change data structure */
5420 BMS_BLKMEM* blkmem, /**< block memory */
5421 SCIP_SET* set, /**< global SCIP settings */
5422 int num /**< minimum number of entries to store */
5423 )
5424{
5425 assert(conssetchg != NULL);
5426
5427 if( num > conssetchg->disabledconsssize )
5428 {
5429 int newsize;
5430
5431 newsize = SCIPsetCalcMemGrowSize(set, num);
5432 SCIP_ALLOC( BMSreallocBlockMemoryArray(blkmem, &conssetchg->disabledconss, conssetchg->disabledconsssize, newsize) );
5433 conssetchg->disabledconsssize = newsize;
5434 }
5435 assert(num <= conssetchg->disabledconsssize);
5436
5437 return SCIP_OKAY;
5438}
5439
5440/** adds constraint addition to constraint set changes, and captures constraint; activates constraint if the
5441 * constraint set change data is currently active
5442 */
5444 SCIP_CONSSETCHG** conssetchg, /**< pointer to constraint set change data structure */
5445 BMS_BLKMEM* blkmem, /**< block memory */
5446 SCIP_SET* set, /**< global SCIP settings */
5447 SCIP_STAT* stat, /**< dynamic problem statistics */
5448 SCIP_CONS* cons, /**< added constraint */
5449 int depth, /**< depth of constraint set change's node */
5450 SCIP_Bool focusnode, /**< does the constraint set change belong to the focus node? */
5451 SCIP_Bool active /**< is the constraint set change currently active? */
5452 )
5453{
5454 assert(conssetchg != NULL);
5455 assert(cons != NULL);
5456
5457 /* if constraint set change doesn't exist, create it */
5458 if( *conssetchg == NULL )
5459 {
5460 SCIP_CALL( conssetchgCreate(conssetchg, blkmem) );
5461 }
5462
5463 /* add constraint to the addedconss array */
5464 SCIP_CALL( conssetchgEnsureAddedconssSize(*conssetchg, blkmem, set, (*conssetchg)->naddedconss+1) );
5465 (*conssetchg)->addedconss[(*conssetchg)->naddedconss] = cons;
5466 (*conssetchg)->naddedconss++;
5467
5468 /* undelete constraint, if it was globally deleted in the past */
5469 cons->deleted = FALSE;
5470
5471 /* capture constraint */
5472 SCIPconsCapture(cons);
5473
5474 /* activate constraint, if node is active */
5475 if( active && !SCIPconsIsActive(cons) )
5476 {
5477 SCIP_CALL( SCIPconsActivate(cons, set, stat, depth, focusnode) );
5478 assert(SCIPconsIsActive(cons));
5479
5480 /* remember, that this constraint set change data was responsible for the constraint's addition */
5481 cons->addconssetchg = *conssetchg;
5482 cons->addarraypos = (*conssetchg)->naddedconss-1;
5483 }
5484
5485 return SCIP_OKAY;
5486}
5487
5488/** adds constraint disabling to constraint set changes, and captures constraint */
5490 SCIP_CONSSETCHG** conssetchg, /**< pointer to constraint set change data structure */
5491 BMS_BLKMEM* blkmem, /**< block memory */
5492 SCIP_SET* set, /**< global SCIP settings */
5493 SCIP_CONS* cons /**< disabled constraint */
5494 )
5495{
5496 assert(conssetchg != NULL);
5497 assert(cons != NULL);
5498
5499 /* if constraint set change doesn't exist, create it */
5500 if( *conssetchg == NULL )
5501 {
5502 SCIP_CALL( conssetchgCreate(conssetchg, blkmem) );
5503 }
5504
5505 /* add constraint to the disabledconss array */
5506 SCIP_CALL( conssetchgEnsureDisabledconssSize(*conssetchg, blkmem, set, (*conssetchg)->ndisabledconss+1) );
5507 (*conssetchg)->disabledconss[(*conssetchg)->ndisabledconss] = cons;
5508 (*conssetchg)->ndisabledconss++;
5509
5510 /* capture constraint */
5511 SCIPconsCapture(cons);
5512
5513 return SCIP_OKAY;
5514}
5515
5516/** deactivates, deletes, and releases constraint from the addedconss array of the constraint set change data */
5517static
5519 SCIP_CONSSETCHG* conssetchg, /**< constraint set change to delete constraint from */
5520 BMS_BLKMEM* blkmem, /**< block memory */
5521 SCIP_SET* set, /**< global SCIP settings */
5522 int arraypos /**< position of constraint in disabledconss array */
5523 )
5524{
5525 SCIP_CONS* cons;
5526
5527 assert(conssetchg != NULL);
5528 assert(conssetchg->addedconss != NULL);
5529 assert(0 <= arraypos && arraypos < conssetchg->naddedconss);
5530
5531 cons = conssetchg->addedconss[arraypos];
5532 assert(cons != NULL);
5533
5534 SCIPsetDebugMsg(set, "delete added constraint <%s> at position %d from constraint set change data\n", cons->name, arraypos);
5535
5536 /* remove the link to the constraint set change data */
5537 if( cons->addconssetchg == conssetchg )
5538 {
5539 cons->addconssetchg = NULL;
5540 cons->addarraypos = -1;
5541 }
5542
5543 /* release constraint */
5544 SCIP_CALL( SCIPconsRelease(&conssetchg->addedconss[arraypos], blkmem, set) );
5545
5546 /* we want to keep the order of the constraint additions: move all subsequent constraints one slot to the front */
5547 for( ; arraypos < conssetchg->naddedconss-1; ++arraypos )
5548 {
5549 conssetchg->addedconss[arraypos] = conssetchg->addedconss[arraypos+1];
5550 assert(conssetchg->addedconss[arraypos] != NULL);
5551 if( conssetchg->addedconss[arraypos]->addconssetchg == conssetchg )
5552 {
5553 assert(conssetchg->addedconss[arraypos]->addarraypos == arraypos+1);
5554 conssetchg->addedconss[arraypos]->addarraypos = arraypos;
5555 }
5556 }
5557 conssetchg->naddedconss--;
5558
5559 return SCIP_OKAY;
5560}
5561
5562/** deletes and releases deactivated constraint from the disabledconss array of the constraint set change data */
5563static
5565 SCIP_CONSSETCHG* conssetchg, /**< constraint set change to apply */
5566 BMS_BLKMEM* blkmem, /**< block memory */
5567 SCIP_SET* set, /**< global SCIP settings */
5568 int arraypos /**< position of constraint in disabledconss array */
5569 )
5570{
5571 assert(conssetchg != NULL);
5572 assert(0 <= arraypos && arraypos < conssetchg->ndisabledconss);
5573 assert(conssetchg->disabledconss[arraypos] != NULL);
5574
5575 SCIPsetDebugMsg(set, "delete disabled constraint <%s> at position %d from constraint set change data\n",
5576 conssetchg->disabledconss[arraypos]->name, arraypos);
5577
5578 /* release constraint */
5579 SCIP_CALL( SCIPconsRelease(&conssetchg->disabledconss[arraypos], blkmem, set) );
5580
5581 /* we want to keep the order of the constraint disablings: move all subsequent constraints one slot to the front */
5582 for( ; arraypos < conssetchg->ndisabledconss-1; ++arraypos )
5583 {
5584 conssetchg->disabledconss[arraypos] = conssetchg->disabledconss[arraypos+1];
5585 assert(conssetchg->disabledconss[arraypos] != NULL);
5586 }
5587 conssetchg->ndisabledconss--;
5588
5589 return SCIP_OKAY;
5590}
5591
5592/** gets added constraints data for a constraint set change */
5594 SCIP_CONSSETCHG* conssetchg, /**< constraint set change to get data from */
5595 SCIP_CONS*** conss, /**< reference to constraints array added in the conssetchg, or NULL */
5596 int* nconss /**< reference to store the size of the constraints array, or NULL */
5597 )
5598{
5599 assert(conssetchg != NULL);
5600 if( conss != NULL )
5601 *conss = conssetchg->addedconss;
5602 if( nconss != NULL )
5603 *nconss = conssetchg->naddedconss;
5604}
5605
5606/** applies constraint set change */
5608 SCIP_CONSSETCHG* conssetchg, /**< constraint set change to apply */
5609 BMS_BLKMEM* blkmem, /**< block memory */
5610 SCIP_SET* set, /**< global SCIP settings */
5611 SCIP_STAT* stat, /**< dynamic problem statistics */
5612 int depth, /**< depth of constraint set change's node */
5613 SCIP_Bool focusnode /**< does the constraint set change belong to the focus node? */
5614 )
5615{
5616 SCIP_CONS* cons;
5617 int i;
5618
5619 if( conssetchg == NULL )
5620 return SCIP_OKAY;
5621
5622 SCIPsetDebugMsg(set, "applying constraint set changes at %p: %d constraint additions, %d constraint disablings\n",
5623 (void*)conssetchg, conssetchg->naddedconss, conssetchg->ndisabledconss);
5624
5625 /* apply constraint additions */
5626 i = 0;
5627 while( i < conssetchg->naddedconss )
5628 {
5629 cons = conssetchg->addedconss[i];
5630 assert(cons != NULL);
5631 assert(!cons->update);
5632
5633 /* if constraint is already active, or if constraint is globally deleted, it can be removed from addedconss array */
5634 if( cons->active || cons->deleted )
5635 {
5636 /* delete constraint from addedcons array, the empty slot is now used by the next constraint,
5637 * and naddedconss was decreased, so do not increase i
5638 */
5639 SCIP_CALL( conssetchgDelAddedCons(conssetchg, blkmem, set, i) );
5640 }
5641 else
5642 {
5643 assert(cons->addconssetchg == NULL);
5644 assert(cons->addarraypos == -1);
5645
5646 /* activate constraint */
5647 SCIP_CALL( SCIPconsActivate(cons, set, stat, depth, focusnode) );
5648 assert(cons->active);
5649 assert(!cons->update);
5650
5651 /* remember, that this constraint set change data was responsible for the constraint's addition */
5652 cons->addconssetchg = conssetchg;
5653 cons->addarraypos = i;
5654
5655 ++i; /* handle the next constraint */
5656 }
5657 }
5658
5659 /* apply constraint disablings */
5660 i = 0;
5661 while( i < conssetchg->ndisabledconss )
5662 {
5663 cons = conssetchg->disabledconss[i];
5664 assert(cons != NULL);
5665 assert(!cons->update);
5666
5667 /* if the constraint is disabled, we can permanently remove it from the disabledconss array */
5668 if( !cons->enabled )
5669 {
5670 SCIPsetDebugMsg(set, "constraint <%s> of handler <%s> was deactivated -> remove it from disabledconss array\n",
5671 cons->name, cons->conshdlr->name);
5672
5673 /* release and remove constraint from the disabledconss array, the empty slot is now used by the next constraint
5674 * and ndisabledconss was decreased, so do not increase i
5675 */
5676 SCIP_CALL( conssetchgDelDisabledCons(conssetchg, blkmem, set, i) );
5677 }
5678 else
5679 {
5680 assert(cons->addarraypos >= 0);
5681 assert(!cons->deleted); /* deleted constraints must not be enabled! */
5682 SCIP_CALL( SCIPconsDisable(conssetchg->disabledconss[i], set, stat) );
5683 assert(!cons->update);
5684 assert(!cons->enabled);
5685
5686 ++i; /* handle the next constraint */
5687 }
5688 }
5689
5690 return SCIP_OKAY;
5691}
5692
5693/** undoes constraint set change */
5695 SCIP_CONSSETCHG* conssetchg, /**< constraint set change to undo */
5696 BMS_BLKMEM* blkmem, /**< block memory */
5697 SCIP_SET* set, /**< global SCIP settings */
5698 SCIP_STAT* stat /**< dynamic problem statistics */
5699 )
5700{
5701 SCIP_CONS* cons;
5702 int i;
5703
5704 if( conssetchg == NULL )
5705 return SCIP_OKAY;
5706
5707 SCIPsetDebugMsg(set, "undoing constraint set changes at %p: %d constraint additions, %d constraint disablings\n",
5708 (void*)conssetchg, conssetchg->naddedconss, conssetchg->ndisabledconss);
5709
5710 /* undo constraint disablings */
5711 for( i = conssetchg->ndisabledconss-1; i >= 0; --i )
5712 {
5713 cons = conssetchg->disabledconss[i];
5714 assert(cons != NULL);
5715 assert(!cons->update);
5716
5717 /* If the constraint is inactive, we can permanently remove it from the disabledconss array. It was deactivated
5718 * in the subtree of the current node but not reactivated on the switching way back to the current node, which
5719 * means, the deactivation was more global (i.e. valid on a higher level node) than the current node and the
5720 * disabling at the current node doesn't have any effect anymore.
5721 * If the constraint is already enabled, we need not to do anything. This may happen on a path A -> B,
5722 * if the constraint is disabled at node B, and while processing the subtree of B, it is also disabled at
5723 * the more global node A. Then on the switching path back to A, the constraint is enabled at node B (which is
5724 * actually wrong, since it now should be disabled in the whole subtree of A, but we cannot know this), and
5725 * again enabled at node A (where enabling is ignored). If afterwards, a subnode of B is processed, the
5726 * switching disables the constraint in node A, and the disabling is then removed from node B.
5727 */
5728 if( !cons->active )
5729 {
5730 SCIPsetDebugMsg(set, "constraint <%s> of handler <%s> was deactivated -> remove it from disabledconss array\n",
5731 cons->name, cons->conshdlr->name);
5732
5733 /* release and remove constraint from the disabledconss array */
5734 SCIP_CALL( conssetchgDelDisabledCons(conssetchg, blkmem, set, i) );
5735 }
5736 else if( !cons->enabled )
5737 {
5738 assert(cons->addarraypos >= 0);
5739 assert(!cons->deleted); /* deleted constraints must not be active! */
5740 SCIP_CALL( SCIPconsEnable(cons, set, stat) );
5741 assert(!cons->update);
5742 assert(!cons->active || cons->enabled);
5743 }
5744 }
5745
5746 /* undo constraint additions */
5747 for( i = conssetchg->naddedconss-1; i >= 0; --i )
5748 {
5749 cons = conssetchg->addedconss[i];
5750 assert(cons != NULL);
5751 assert(!cons->update);
5752
5753 /* If the constraint is already deactivated, we need not to do anything. This may happen on a path A -> B,
5754 * if the constraint is added at node B, and while processing the subtree of B, it is also added at
5755 * the more global node A. Then on the switching path back to A, the node is deactivated at node B (which is
5756 * actually wrong, since it now should be active in the whole subtree of A, but we cannot know this), and
5757 * again deactivated at node A (where deactivation is ignored). If afterwards, a subnode of B is processed, the
5758 * switching activates the constraint in node A, and the activation is then removed from node B.
5759 */
5760 if( cons->active )
5761 {
5762 assert(cons->addconssetchg == conssetchg);
5763 assert(cons->addarraypos == i);
5764
5765 /* deactivate constraint */
5766 SCIP_CALL( SCIPconsDeactivate(cons, set, stat) );
5767
5768 /* unlink the constraint and the constraint set change */
5769 cons->addconssetchg = NULL;
5770 cons->addarraypos = -1;
5771 }
5772 assert(!cons->active);
5773 assert(!cons->update);
5774 }
5775
5776 return SCIP_OKAY;
5777}
5778
5779/** applies constraint set change to the global problem and deletes the constraint set change data */
5781 SCIP_CONSSETCHG** conssetchg, /**< pointer to constraint set change data */
5782 BMS_BLKMEM* blkmem, /**< block memory */
5783 SCIP_SET* set, /**< global SCIP settings */
5784 SCIP_STAT* stat, /**< dynamic problem statistics */
5785 SCIP_PROB* prob, /**< problem data */
5786 SCIP_REOPT* reopt /**< reoptimization data */
5787 )
5788{
5789 SCIP_CONS* cons;
5790 int i;
5791
5792 assert(conssetchg != NULL);
5793
5794 /* nothing to do on empty constraint set change data */
5795 if( *conssetchg == NULL )
5796 return SCIP_OKAY;
5797
5798 SCIPsetDebugMsg(set, "moving constraint set changes at %p to global problem: %d constraint additions, %d constraint disablings\n",
5799 (void*)*conssetchg, (*conssetchg)->naddedconss, (*conssetchg)->ndisabledconss);
5800
5801 /* apply constraint additions to the global problem (loop backwards, because then conssetchgDelAddedCons() is
5802 * more efficient)
5803 */
5804 for( i = (*conssetchg)->naddedconss-1; i >= 0; --i )
5805 {
5806 cons = (*conssetchg)->addedconss[i];
5807 assert(cons != NULL);
5808 assert(!cons->update);
5809
5810 /* only move constraints that are not sticking at the current node */
5811 if( !SCIPconsIsStickingAtNode(cons) )
5812 {
5813 /* because we first have to delete the constraint, we have to capture it in order to not loose it */
5814 SCIPconsCapture(cons);
5815
5816 /* delete constraint addition from constraint set change data */
5817 SCIP_CALL( conssetchgDelAddedCons(*conssetchg, blkmem, set, i) );
5818
5819 /* don't move deleted constraints to the global problem */
5820 if( !cons->deleted )
5821 {
5822 SCIP_CALL( SCIPprobAddCons(prob, set, stat, cons) );
5823 }
5824
5825 /* release constraint */
5826 SCIP_CALL( SCIPconsRelease(&cons, blkmem, set) );
5827 }
5828 }
5829
5830 /* apply constraint disablings to the global problem (loop backwards, because then conssetchgDelDisabledCons() is
5831 * more efficient)
5832 */
5833 for( i = (*conssetchg)->ndisabledconss-1; i >= 0; --i )
5834 {
5835 cons = (*conssetchg)->disabledconss[i];
5836 assert(cons != NULL);
5837 assert(!cons->update);
5838
5839 /* only delete constraints that are not sticking at the current node */
5840 if( !SCIPconsIsStickingAtNode(cons) )
5841 {
5842 /* globally delete constraint */
5843 if( !cons->deleted )
5844 {
5845 SCIP_CALL( SCIPconsDelete(cons, blkmem, set, stat, prob, reopt) );
5846 }
5847
5848 /* release and remove constraint from the disabledconss array */
5849 SCIP_CALL( conssetchgDelDisabledCons(*conssetchg, blkmem, set, i) );
5850 }
5851 }
5852
5853 if( (*conssetchg)->naddedconss == 0 && (*conssetchg)->ndisabledconss == 0 )
5854 {
5855 /* free empty constraint set change data */
5856 SCIP_CALL( SCIPconssetchgFree(conssetchg, blkmem, set) );
5857 }
5858
5859 return SCIP_OKAY;
5860}
5861
5862
5863
5864
5865/*
5866 * Constraint methods
5867 */
5868
5869/** creates and captures a constraint, and inserts it into the conss array of its constraint handler
5870 *
5871 * @warning If a constraint is marked to be checked for feasibility but not to be enforced, a LP or pseudo solution
5872 * may be declared feasible even if it violates this particular constraint.
5873 * This constellation should only be used, if no LP or pseudo solution can violate the constraint -- e.g. if a
5874 * local constraint is redundant due to the variable's local bounds.
5875 */
5877 SCIP_CONS** cons, /**< pointer to constraint */
5878 BMS_BLKMEM* blkmem, /**< block memory */
5879 SCIP_SET* set, /**< global SCIP settings */
5880 const char* name, /**< name of constraint */
5881 SCIP_CONSHDLR* conshdlr, /**< constraint handler for this constraint */
5882 SCIP_CONSDATA* consdata, /**< data for this specific constraint */
5883 SCIP_Bool initial, /**< should the LP relaxation of constraint be in the initial LP?
5884 * Usually set to TRUE. Set to FALSE for 'lazy constraints'. */
5885 SCIP_Bool separate, /**< should the constraint be separated during LP processing?
5886 * Usually set to TRUE. */
5887 SCIP_Bool enforce, /**< should the constraint be enforced during node processing?
5888 * TRUE for model constraints, FALSE for additional, redundant constraints. */
5889 SCIP_Bool check, /**< should the constraint be checked for feasibility?
5890 * TRUE for model constraints, FALSE for additional, redundant constraints. */
5891 SCIP_Bool propagate, /**< should the constraint be propagated during node processing?
5892 * Usually set to TRUE. */
5893 SCIP_Bool local, /**< is constraint only valid locally?
5894 * Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. */
5895 SCIP_Bool modifiable, /**< is constraint modifiable (subject to column generation)?
5896 * Usually set to FALSE. In column generation applications, set to TRUE if pricing
5897 * adds coefficients to this constraint. */
5898 SCIP_Bool dynamic, /**< is constraint subject to aging?
5899 * Usually set to FALSE. Set to TRUE for own cuts which
5900 * are separated as constraints. */
5901 SCIP_Bool removable, /**< should the relaxation be removed from the LP due to aging or cleanup?
5902 * Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. */
5903 SCIP_Bool stickingatnode, /**< should the constraint always be kept at the node where it was added, even
5904 * if it may be moved to a more global node?
5905 * Usually set to FALSE. Set to TRUE to for constraints that represent node data. */
5906 SCIP_Bool original, /**< is constraint belonging to the original problem? */
5907 SCIP_Bool deleteconsdata /**< has the constraint data to be deleted if constraint is freed? */
5908 )
5909{
5910 int i;
5911
5912 assert(cons != NULL);
5913 assert(blkmem != NULL);
5914 assert(set != NULL);
5915 assert(name != NULL);
5916 assert(conshdlr != NULL);
5917 assert(!original || deleteconsdata);
5918
5919 /* create constraint data */
5920 SCIP_ALLOC( BMSallocBlockMemory(blkmem, cons) );
5921 SCIP_ALLOC( BMSduplicateBlockMemoryArray(blkmem, &(*cons)->name, name, strlen(name)+1) );
5922#ifndef NDEBUG
5923 (*cons)->scip = set->scip;
5924#endif
5925 (*cons)->conshdlr = conshdlr;
5926 (*cons)->consdata = consdata;
5927 (*cons)->transorigcons = NULL;
5928 (*cons)->addconssetchg = NULL;
5929 (*cons)->addarraypos = -1;
5930 (*cons)->consspos = -1;
5931 (*cons)->initconsspos = -1;
5932 (*cons)->sepaconsspos = -1;
5933 (*cons)->enfoconsspos = -1;
5934 (*cons)->checkconsspos = -1;
5935 (*cons)->propconsspos = -1;
5936 (*cons)->activedepth = -2;
5937 (*cons)->validdepth = (local ? -1 : 0);
5938 (*cons)->age = 0.0;
5939 (*cons)->nuses = 0;
5940 (*cons)->nupgradelocks = 0;
5941 (*cons)->initial = initial;
5942 (*cons)->separate = separate;
5943 (*cons)->enforce = enforce;
5944 (*cons)->check = check;
5945 (*cons)->propagate = propagate;
5946 (*cons)->sepaenabled = separate;
5947 (*cons)->propenabled = propagate;
5948 (*cons)->local = local;
5949 (*cons)->modifiable = modifiable;
5950 (*cons)->dynamic = dynamic;
5951 (*cons)->removable = removable;
5952 (*cons)->stickingatnode = stickingatnode;
5953 (*cons)->original = original;
5954 (*cons)->deleteconsdata = deleteconsdata;
5955 (*cons)->active = FALSE;
5956 (*cons)->conflict = FALSE;
5957 (*cons)->enabled = FALSE;
5958 (*cons)->obsolete = FALSE;
5959 (*cons)->markpropagate = TRUE;
5960 (*cons)->deleted = FALSE;
5961 (*cons)->update = FALSE;
5962 (*cons)->updateinsert = FALSE;
5963 (*cons)->updateactivate = FALSE;
5964 (*cons)->updatedeactivate = FALSE;
5965 (*cons)->updateenable = FALSE;
5966 (*cons)->updatedisable = FALSE;
5967 (*cons)->updatesepaenable = FALSE;
5968 (*cons)->updatesepadisable = FALSE;
5969 (*cons)->updatepropenable = FALSE;
5970 (*cons)->updatepropdisable = FALSE;
5971 (*cons)->updateobsolete = FALSE;
5972 (*cons)->updatemarkpropagate = FALSE;
5973 (*cons)->updateunmarkpropagate = FALSE;
5974 (*cons)->updatefree = FALSE;
5975 (*cons)->updateactfocus = FALSE;
5976
5977 for( i = 0; i < NLOCKTYPES; i++ )
5978 {
5979 (*cons)->nlockspos[i] = 0;
5980 (*cons)->nlocksneg[i] = 0;
5981 }
5982
5983 /* capture constraint */
5984 SCIPconsCapture(*cons);
5985
5986 /* insert the constraint as inactive constraint into the transformed constraints array */
5987 if( !original )
5988 {
5989 /* check, if inserting constraint should be delayed */
5990 if( conshdlrAreUpdatesDelayed(conshdlr) )
5991 {
5992 SCIPsetDebugMsg(set, " -> delaying insertion of constraint <%s>\n", (*cons)->name);
5993 (*cons)->updateinsert = TRUE;
5994 SCIP_CALL( conshdlrAddUpdateCons((*cons)->conshdlr, set, *cons) );
5995 assert((*cons)->update);
5996 assert((*cons)->nuses == 2);
5997 }
5998 else
5999 {
6000 SCIP_CALL( conshdlrAddCons(conshdlr, set, *cons) );
6001 }
6002 }
6003
6004 checkConssArrays(conshdlr);
6005
6006 return SCIP_OKAY;
6007}
6008
6009/** copies source constraint of source SCIP into the target constraint for the target SCIP, using the variable map for
6010 * mapping the variables of the source SCIP to the variables of the target SCIP; if the copying process was successful
6011 * a constraint is created and captured;
6012 *
6013 * @warning If a constraint is marked to be checked for feasibility but not to be enforced, an LP or pseudo solution
6014 * may be declared feasible even if it violates this particular constraint.
6015 * This constellation should only be used, if no LP or pseudo solution can violate the constraint -- e.g. if a
6016 * local constraint is redundant due to the variable's local bounds.
6017 */
6019 SCIP_CONS** cons, /**< pointer to store the created target constraint */
6020 SCIP_SET* set, /**< global SCIP settings of the target SCIP */
6021 const char* name, /**< name of constraint, or NULL if the name of the source constraint should be used */
6022 SCIP* sourcescip, /**< source SCIP data structure */
6023 SCIP_CONSHDLR* sourceconshdlr, /**< source constraint handler for this constraint */
6024 SCIP_CONS* sourcecons, /**< source constraint of the source SCIP */
6025 SCIP_HASHMAP* varmap, /**< a SCIP_HASHMAP mapping variables of the source SCIP to corresponding
6026 * variables of the target SCIP */
6027 SCIP_HASHMAP* consmap, /**< a hashmap to store the mapping of source constraints to the corresponding
6028 * target constraints, must not be NULL! */
6029 SCIP_Bool initial, /**< should the LP relaxation of constraint be in the initial LP? */
6030 SCIP_Bool separate, /**< should the constraint be separated during LP processing? */
6031 SCIP_Bool enforce, /**< should the constraint be enforced during node processing? */
6032 SCIP_Bool check, /**< should the constraint be checked for feasibility? */
6033 SCIP_Bool propagate, /**< should the constraint be propagated during node processing? */
6034 SCIP_Bool local, /**< is constraint only valid locally? */
6035 SCIP_Bool modifiable, /**< is constraint modifiable (subject to column generation)? */
6036 SCIP_Bool dynamic, /**< is constraint subject to aging? */
6037 SCIP_Bool removable, /**< should the relaxation be removed from the LP due to aging or cleanup? */
6038 SCIP_Bool stickingatnode, /**< should the constraint always be kept at the node where it was added, even
6039 * if it may be moved to a more global node? */
6040 SCIP_Bool global, /**< create a global or a local copy? */
6041 SCIP_Bool* valid /**< pointer to store whether the copying was valid or not */
6042 )
6043{
6044 assert(cons != NULL);
6045 assert(set != NULL);
6046 assert(sourcescip != NULL);
6047 assert(sourceconshdlr != NULL);
6048 assert(sourcecons != NULL);
6049 assert(varmap != NULL);
6050 assert(consmap != NULL);
6051 assert(valid != NULL);
6052
6053 /* if constraint handler does not support copying, success will return false. Constraints handlers have to actively set this to true. */
6054 (*valid) = FALSE;
6055
6056 if( sourceconshdlr->conscopy != NULL )
6057 {
6058 SCIP_CALL( sourceconshdlr->conscopy(set->scip, cons, name, sourcescip, sourceconshdlr, sourcecons, varmap, consmap,
6059 initial, separate, enforce, check, propagate, local, modifiable, dynamic, removable, stickingatnode, global, valid) );
6060 }
6061
6062 return SCIP_OKAY;
6063}
6064
6065
6066/** parses constraint information (in cip format) out of a string; if the parsing process was successful a constraint is
6067 * created, captured, and inserted into the conss array of its constraint handler.
6068 *
6069 * @warning If a constraint is marked to be checked for feasibility but not to be enforced, an LP or pseudo solution
6070 * may be declared feasible even if it violates this particular constraint.
6071 * This constellation should only be used, if no LP or pseudo solution can violate the constraint -- e.g. if a
6072 * local constraint is redundant due to the variable's local bounds.
6073 */
6075 SCIP_CONS** cons, /**< pointer to constraint */
6076 SCIP_SET* set, /**< global SCIP settings */
6077 SCIP_MESSAGEHDLR* messagehdlr, /**< message handler of target SCIP */
6078 const char* str, /**< string to parse for constraint */
6079 SCIP_Bool initial, /**< should the LP relaxation of constraint be in the initial LP?
6080 * Usually set to TRUE. Set to FALSE for 'lazy constraints'. */
6081 SCIP_Bool separate, /**< should the constraint be separated during LP processing?
6082 * Usually set to TRUE. */
6083 SCIP_Bool enforce, /**< should the constraint be enforced during node processing?
6084 * TRUE for model constraints, FALSE for additional, redundant constraints. */
6085 SCIP_Bool check, /**< should the constraint be checked for feasibility?
6086 * TRUE for model constraints, FALSE for additional, redundant constraints. */
6087 SCIP_Bool propagate, /**< should the constraint be propagated during node processing?
6088 * Usually set to TRUE. */
6089 SCIP_Bool local, /**< is constraint only valid locally?
6090 * Usually set to FALSE. Has to be set to TRUE, e.g., for branching constraints. */
6091 SCIP_Bool modifiable, /**< is constraint modifiable (subject to column generation)?
6092 * Usually set to FALSE. In column generation applications, set to TRUE if pricing
6093 * adds coefficients to this constraint. */
6094 SCIP_Bool dynamic, /**< is constraint subject to aging?
6095 * Usually set to FALSE. Set to TRUE for own cuts which
6096 * are separated as constraints. */
6097 SCIP_Bool removable, /**< should the relaxation be removed from the LP due to aging or cleanup?
6098 * Usually set to FALSE. Set to TRUE for 'lazy constraints' and 'user cuts'. */
6099 SCIP_Bool stickingatnode, /**< should the constraint always be kept at the node where it was added, even
6100 * if it may be moved to a more global node?
6101 * Usually set to FALSE. Set to TRUE to for constraints that represent node data. */
6102 SCIP_Bool* success /**< pointer store if the paring process was successful */
6103 )
6104{
6105 SCIP_CONSHDLR* conshdlr;
6106 char conshdlrname[SCIP_MAXSTRLEN];
6107 char consname[SCIP_MAXSTRLEN];
6108 char* endptr;
6109
6110 assert(cons != NULL);
6111 assert(set != NULL);
6112
6113 (*success) = FALSE;
6114
6115 /* scan constraint handler name */
6116 assert(str != NULL);
6117 SCIPstrCopySection(str, '[', ']', conshdlrname, SCIP_MAXSTRLEN, &endptr);
6118 if ( endptr == NULL || endptr == str )
6119 {
6120 SCIPmessagePrintWarning(messagehdlr, "Syntax error: Could not find constraint handler name.\n");
6121 return SCIP_OKAY;
6122 }
6123 assert(endptr != NULL);
6124 SCIPsetDebugMsg(set, "constraint handler name <%s>\n", conshdlrname);
6125
6126 /* scan constraint name */
6127 SCIPstrCopySection(endptr, '<', '>', consname, SCIP_MAXSTRLEN, &endptr);
6128 if ( endptr == NULL || endptr == str )
6129 {
6130 SCIPmessagePrintWarning(messagehdlr, "Syntax error: Could not find constraint name.\n");
6131 return SCIP_OKAY;
6132 }
6133 assert(endptr != NULL);
6134 SCIPsetDebugMsg(set, "constraint name <%s>\n", consname);
6135
6136 str = endptr;
6137
6138 /* skip white space */
6139 SCIP_CALL( SCIPskipSpace((char**)&str) );
6140
6141 /* check for colon */
6142 if( *str != ':' )
6143 {
6144 SCIPmessagePrintWarning(messagehdlr, "Syntax error: Could not find colon ':' after constraint name.\n");
6145 return SCIP_OKAY;
6146 }
6147
6148 /* skip colon */
6149 ++str;
6150
6151 /* skip white space */
6152 SCIP_CALL( SCIPskipSpace((char**)&str) );
6153
6154 /* check if a constraint handler with parsed name exists */
6155 conshdlr = SCIPsetFindConshdlr(set, conshdlrname);
6156
6157 if( conshdlr == NULL )
6158 {
6159 SCIPmessagePrintWarning(messagehdlr, "constraint handler <%s> doesn't exist in SCIP data structure\n", conshdlrname);
6160 }
6161 else
6162 {
6163 assert( conshdlr != NULL );
6164 if ( conshdlr->consparse == NULL )
6165 {
6166 SCIPmessagePrintWarning(messagehdlr, "constraint handler <%s> does not support parsing constraints\n", conshdlrname);
6167 }
6168 else
6169 {
6170 SCIP_CALL( conshdlr->consparse(set->scip, conshdlr, cons, consname, str,
6171 initial, separate, enforce, check, propagate, local, modifiable, dynamic, removable, stickingatnode, success) );
6172 }
6173 }
6174
6175 return SCIP_OKAY;
6176}
6177
6178/** change name of given constraint */
6180 SCIP_CONS* cons, /**< problem constraint */
6181 BMS_BLKMEM* blkmem, /**< block memory buffer */
6182 const char* name /**< new name of constraint */
6183 )
6184{
6185 assert(cons != NULL);
6186 assert(cons->name != NULL);
6187
6188 /* free old constraint name */
6189 BMSfreeBlockMemoryArray(blkmem, &cons->name, strlen(cons->name)+1);
6190
6191 /* copy new constraint name */
6192 SCIP_ALLOC( BMSduplicateBlockMemoryArray(blkmem, &cons->name, name, strlen(name)+1) );
6193
6194 return SCIP_OKAY;
6195}
6196
6197
6198/** frees a constraint and removes it from the conss array of its constraint handler */
6200 SCIP_CONS** cons, /**< constraint to free */
6201 BMS_BLKMEM* blkmem, /**< block memory buffer */
6202 SCIP_SET* set /**< global SCIP settings */
6203 )
6204{
6205 assert(cons != NULL);
6206 assert(*cons != NULL);
6207 assert((*cons)->conshdlr != NULL);
6208 assert((*cons)->nuses == 0);
6209 assert(!(*cons)->active);
6210 assert(!(*cons)->update);
6211 assert(!(*cons)->original || (*cons)->transorigcons == NULL);
6212 assert(blkmem != NULL);
6213 assert(set != NULL);
6214 assert((*cons)->scip == set->scip);
6215
6216 SCIPsetDebugMsg(set, "freeing constraint <%s> at conss pos %d of handler <%s>\n",
6217 (*cons)->name, (*cons)->consspos, (*cons)->conshdlr->name);
6218
6219 /* free constraint data */
6220 if( (*cons)->conshdlr->consdelete != NULL && (*cons)->consdata != NULL && (*cons)->deleteconsdata )
6221 {
6222 SCIP_CALL( (*cons)->conshdlr->consdelete(set->scip, (*cons)->conshdlr, *cons, &(*cons)->consdata) );
6223 }
6224 else if( !(*cons)->deleteconsdata )
6225 (*cons)->consdata = NULL;
6226 assert((*cons)->consdata == NULL);
6227
6228 /* unlink transformed and original constraint */
6229 if( (*cons)->transorigcons != NULL )
6230 {
6231 assert(!(*cons)->original);
6232 assert((*cons)->transorigcons->original);
6233 assert((*cons)->transorigcons->transorigcons == *cons);
6234
6235 (*cons)->transorigcons->transorigcons = NULL;
6236 }
6237
6238 /* remove constraint from the transformed constraints array */
6239 if( !(*cons)->original )
6240 {
6241 conshdlrDelCons((*cons)->conshdlr, *cons);
6242 checkConssArrays((*cons)->conshdlr);
6243 }
6244 assert((*cons)->consspos == -1);
6245
6246 /* free constraint */
6247 BMSfreeBlockMemoryArray(blkmem, &(*cons)->name, strlen((*cons)->name)+1);
6248 BMSfreeBlockMemory(blkmem, cons);
6249
6250 return SCIP_OKAY;
6251}
6252
6253/** increases usage counter of constraint */
6255 SCIP_CONS* cons /**< constraint */
6256 )
6257{
6258 assert(cons != NULL);
6259 assert(cons->nuses >= 0);
6260
6261 SCIPdebugMessage("capture constraint <%s> with nuses=%d, cons pointer %p\n", cons->name, cons->nuses, (void*)cons);
6262 cons->nuses++;
6263}
6264
6265/** decreases usage counter of constraint, and frees memory if necessary */
6267 SCIP_CONS** cons, /**< pointer to constraint */
6268 BMS_BLKMEM* blkmem, /**< block memory */
6269 SCIP_SET* set /**< global SCIP settings */
6270 )
6271{
6272 assert(blkmem != NULL);
6273 assert(cons != NULL);
6274 assert(*cons != NULL);
6275 assert((*cons)->conshdlr != NULL);
6276 assert((*cons)->nuses >= 1);
6277 assert(set != NULL);
6278 assert((*cons)->scip == set->scip);
6279
6280 SCIPsetDebugMsg(set, "release constraint <%s> with nuses=%d, cons pointer %p\n", (*cons)->name, (*cons)->nuses, (void*)(*cons));
6281 (*cons)->nuses--;
6282 if( (*cons)->nuses == 0 )
6283 {
6284 assert(!(*cons)->active || (*cons)->updatedeactivate);
6285
6286 /* check, if freeing constraint should be delayed */
6287 if( conshdlrAreUpdatesDelayed((*cons)->conshdlr) )
6288 {
6289 SCIPsetDebugMsg(set, " -> delaying freeing constraint <%s>\n", (*cons)->name);
6290 (*cons)->updatefree = TRUE;
6291 SCIP_CALL( conshdlrAddUpdateCons((*cons)->conshdlr, set, *cons) );
6292 assert((*cons)->update);
6293 assert((*cons)->nuses == 1);
6294 }
6295 else
6296 {
6297 SCIP_CALL( SCIPconsFree(cons, blkmem, set) );
6298 }
6299 }
6300 *cons = NULL;
6301
6302 return SCIP_OKAY;
6303}
6304
6305/** outputs constraint information to file stream */
6307 SCIP_CONS* cons, /**< constraint to print */
6308 SCIP_SET* set, /**< global SCIP settings */
6309 SCIP_MESSAGEHDLR* messagehdlr, /**< message handler */
6310 FILE* file /**< output file (or NULL for standard output) */
6311 )
6312{
6313 SCIP_CONSHDLR* conshdlr;
6314
6315 assert(cons != NULL);
6316 assert(set != NULL);
6317 assert(cons->scip == set->scip);
6318
6319 conshdlr = cons->conshdlr;
6320 assert(conshdlr != NULL);
6321
6322 SCIPmessageFPrintInfo(messagehdlr, file, " [%s] <%s>: ", conshdlr->name, cons->name);
6323
6324 if( conshdlr->consprint != NULL )
6325 {
6326 SCIP_CALL( conshdlr->consprint(set->scip, conshdlr, cons, file) );
6327 }
6328 else
6329 SCIPmessageFPrintInfo(messagehdlr, file, "constraint handler <%s> doesn't support printing constraint", conshdlr->name);
6330
6331 return SCIP_OKAY;
6332}
6333
6334/** method to collect the variables of a constraint
6335 *
6336 * If the number of variables is greater than the available slots in the variable array, nothing happens except that
6337 * the success point is set to FALSE. With the method SCIPconsGetNVars() it is possible to get the number of variables
6338 * a constraint has in its scope.
6339 *
6340 * @note The success pointer indicates if all variables were copied into the vars arrray.
6341 *
6342 * @note It might be that a constraint handler does not support this functionality, in that case the success pointer is
6343 * set to FALSE.
6344 */
6346 SCIP_CONS* cons, /**< constraint to get variables for */
6347 SCIP_SET* set, /**< global SCIP settings */
6348 SCIP_VAR** vars, /**< array to store the involved variable of the constraint */
6349 int varssize, /**< available slots in vars array which is needed to check if the array is large enough */
6350 SCIP_Bool* success /**< pointer to store whether the variables are successfully copied */
6351 )
6352{
6353 SCIP_CONSHDLR* conshdlr;
6354
6355 assert(cons != NULL);
6356 assert(set != NULL);
6357 assert(cons->scip == set->scip);
6358
6359 conshdlr = cons->conshdlr;
6360 assert(conshdlr != NULL);
6361
6362 if( conshdlr->consgetvars != NULL )
6363 {
6364 SCIP_CALL( conshdlr->consgetvars(set->scip, conshdlr, cons, vars, varssize, success) );
6365 }
6366 else
6367 {
6368 (*success) = FALSE;
6369 }
6370
6371 return SCIP_OKAY;
6372}
6373
6374/** method to collect the number of variables of a constraint
6375 *
6376 * @note The success pointer indicates if the contraint handler was able to return the number of variables
6377 *
6378 * @note It might be that a constraint handler does not support this functionality, in that case the success pointer is
6379 * set to FALSE
6380 */
6382 SCIP_CONS* cons, /**< constraint to get number of variables for */
6383 SCIP_SET* set, /**< global SCIP settings */
6384 int* nvars, /**< pointer to store the number of variables */
6385 SCIP_Bool* success /**< pointer to store whether the constraint successfully returned the number of variables */
6386 )
6387{
6388 SCIP_CONSHDLR* conshdlr;
6389
6390 assert(cons != NULL);
6391 assert(set != NULL);
6392 assert(cons->scip == set->scip);
6393
6394 conshdlr = cons->conshdlr;
6395 assert(conshdlr != NULL);
6396
6397 if( conshdlr->consgetnvars != NULL )
6398 {
6399 SCIP_CALL( conshdlr->consgetnvars(set->scip, conshdlr, cons, nvars, success) );
6400 }
6401 else
6402 {
6403 (*nvars) = 0;
6404 (*success) = FALSE;
6405 }
6406
6407 return SCIP_OKAY;
6408}
6409
6410/** method to collect the permutation symmetry detection graph of a constraint
6411 *
6412 * @note The success pointer indicates whether the constraint handler was able to return the graph.
6413 *
6414 * @note If a constraint handler does not support this functionality, the success pointer is set to FALSE.
6415 */
6417 SCIP_CONS* cons, /**< constraint to get graph for */
6418 SCIP_SET* set, /**< global SCIP settings */
6419 SYM_GRAPH* graph, /**< symmetry detection graph */
6420 SCIP_Bool* success /**< pointer to store whether the constraint successfully returned the graph */
6421 )
6422{
6423 SCIP_CONSHDLR* conshdlr;
6424
6425 assert(cons != NULL);
6426 assert(set != NULL);
6427 assert(cons->scip == set->scip);
6428 assert(success != NULL);
6429
6430 conshdlr = cons->conshdlr;
6431 assert(conshdlr != NULL);
6432
6433 if( conshdlr->consgetpermsymgraph != NULL )
6434 {
6435 SCIP_CALL( conshdlr->consgetpermsymgraph(set->scip, conshdlr, cons, graph, success) );
6436 }
6437 else
6438 *success = FALSE;
6439
6440 return SCIP_OKAY;
6441}
6442
6443/** method to collect the signed permutation symmetry detection graph of a constraint
6444 *
6445 * @note The success pointer indicates whether the constraint handler was able to return the graph.
6446 *
6447 * @note If a constraint handler does not support this functionality, the success pointer is set to FALSE.
6448 */
6450 SCIP_CONS* cons, /**< constraint to get graph for */
6451 SCIP_SET* set, /**< global SCIP settings */
6452 SYM_GRAPH* graph, /**< symmetry detection graph */
6453 SCIP_Bool* success /**< pointer to store whether the constraint successfully returned the graph */
6454 )
6455{
6456 SCIP_CONSHDLR* conshdlr;
6457
6458 assert(cons != NULL);
6459 assert(set != NULL);
6460 assert(cons->scip == set->scip);
6461 assert(success != NULL);
6462
6463 conshdlr = cons->conshdlr;
6464 assert(conshdlr != NULL);
6465
6466 if( conshdlr->consgetsignedpermsymgraph != NULL )
6467 {
6468 SCIP_CALL( conshdlr->consgetsignedpermsymgraph(set->scip, conshdlr, cons, graph, success) );
6469 }
6470 else
6471 *success = FALSE;
6472
6473 return SCIP_OKAY;
6474}
6475
6476/** globally removes constraint from all subproblems; removes constraint from the constraint set change data of the
6477 * node, where it was created, or from the problem, if it was a problem constraint
6478 */
6480 SCIP_CONS* cons, /**< constraint to delete */
6481 BMS_BLKMEM* blkmem, /**< block memory */
6482 SCIP_SET* set, /**< global SCIP settings */
6483 SCIP_STAT* stat, /**< dynamic problem statistics */
6484 SCIP_PROB* prob, /**< problem data */
6485 SCIP_REOPT* reopt /**< reoptimization data */
6486 )
6487{
6488 assert(cons != NULL);
6489 assert(cons->conshdlr != NULL);
6490 assert(!cons->active || cons->updatedeactivate || cons->addarraypos >= 0);
6491 assert(set != NULL);
6492 assert(cons->scip == set->scip);
6493
6494 SCIPsetDebugMsg(set, "globally deleting constraint <%s> (delay updates: %d)\n",
6495 cons->name, cons->conshdlr->delayupdatecount);
6496
6497 /* mark constraint deleted */
6498 cons->deleted = TRUE;
6499
6500 /* deactivate constraint, if it is currently active */
6501 if( cons->active && !cons->updatedeactivate )
6502 {
6503 SCIP_CALL( SCIPconsDeactivate(cons, set, stat) );
6504 }
6505 else
6506 cons->updateactivate = FALSE;
6507
6508 if( set->reopt_enable && !SCIPreoptConsCanBeDeleted(reopt, cons) )
6509 return SCIP_OKAY;
6510
6511 assert(!cons->active || cons->updatedeactivate);
6512 assert(!cons->enabled || cons->updatedeactivate);
6513
6514 /* remove formerly active constraint from the conssetchg's addedconss / prob's conss array */
6515 if( cons->addarraypos >= 0 )
6516 {
6517 if( cons->addconssetchg == NULL )
6518 {
6519 /* remove problem constraint from the problem */
6520 SCIP_CALL( SCIPprobDelCons(prob, blkmem, set, stat, cons) );
6521 }
6522 else
6523 {
6524 assert(cons->addconssetchg->addedconss != NULL);
6525 assert(0 <= cons->addarraypos && cons->addarraypos < cons->addconssetchg->naddedconss);
6526 assert(cons->addconssetchg->addedconss[cons->addarraypos] == cons);
6527
6528 /* remove constraint from the constraint set change addedconss array */
6530 }
6531 }
6532
6533 return SCIP_OKAY;
6534}
6535
6536/** gets and captures transformed constraint of a given original constraint; if the constraint is not yet transformed,
6537 * a new transformed constraint for this constraint is created
6538 */
6540 SCIP_CONS* origcons, /**< original constraint */
6541 BMS_BLKMEM* blkmem, /**< block memory buffer */
6542 SCIP_SET* set, /**< global SCIP settings */
6543 SCIP_CONS** transcons /**< pointer to store the transformed constraint */
6544 )
6545{
6546 assert(origcons != NULL);
6547 assert(set != NULL);
6548 assert(origcons->scip == set->scip);
6549 assert(origcons->conshdlr != NULL);
6550 assert(origcons->original);
6551 assert(transcons != NULL);
6552
6553 /* check, if the constraint is already transformed */
6554 if( origcons->transorigcons != NULL )
6555 {
6556 *transcons = origcons->transorigcons;
6557 SCIPconsCapture(*transcons);
6558 }
6559 else
6560 {
6561 /* create transformed constraint */
6562 if( origcons->conshdlr->constrans != NULL )
6563 {
6564 /* use constraint handler's own method to transform constraint */
6565 SCIP_CALL( origcons->conshdlr->constrans(set->scip, origcons->conshdlr, origcons, transcons) );
6566 }
6567 else
6568 {
6569 /* create new constraint with a pointer copy of the constraint data */
6570 SCIP_CALL( SCIPconsCreate(transcons, blkmem, set, origcons->name, origcons->conshdlr, origcons->consdata, origcons->initial,
6571 origcons->separate, origcons->enforce, origcons->check, origcons->propagate,
6572 origcons->local, origcons->modifiable, origcons->dynamic, origcons->removable, origcons->stickingatnode,
6573 FALSE, FALSE) );
6574 }
6575
6576 /* link original and transformed constraint */
6577 origcons->transorigcons = *transcons;
6578 (*transcons)->transorigcons = origcons;
6579
6580 /* copy the number of upgradelocks */
6581 (*transcons)->nupgradelocks = origcons->nupgradelocks; /*lint !e732*/
6582 }
6583 assert(*transcons != NULL);
6584
6585 return SCIP_OKAY;
6586}
6587
6588/** sets the initial flag of the given constraint */
6590 SCIP_CONS* cons, /**< constraint */
6591 SCIP_SET* set, /**< global SCIP settings */
6592 SCIP_STAT* stat, /**< dynamic problem statistics */
6593 SCIP_Bool initial /**< new value */
6594 )
6595{
6596 assert(cons != NULL);
6597 assert(set != NULL);
6598 assert(cons->scip == set->scip);
6599
6600 if( cons->initial != initial )
6601 {
6602 cons->initial = initial;
6603 if( !cons->original )
6604 {
6605 if( cons->initial )
6606 {
6607 SCIP_CALL( conshdlrAddInitcons(SCIPconsGetHdlr(cons), set, stat, cons) );
6608 }
6609 else
6610 {
6611 if( cons->initconsspos >= 0 )
6612 {
6614 }
6615 }
6616 }
6617 }
6618
6619 return SCIP_OKAY;
6620}
6621
6622/** sets the separate flag of the given constraint */
6624 SCIP_CONS* cons, /**< constraint */
6625 SCIP_SET* set, /**< global SCIP settings */
6626 SCIP_Bool separate /**< new value */
6627 )
6628{
6629 assert(cons != NULL);
6630 assert(set != NULL);
6631 assert(cons->scip == set->scip);
6632
6633 if( cons->separate != separate )
6634 {
6636 {
6637 cons->separate = separate;
6638 }
6639 else if( cons->enabled && cons->sepaenabled )
6640 {
6641 if( separate )
6642 {
6643 cons->separate = separate;
6644 SCIP_CALL( conshdlrAddSepacons(cons->conshdlr, set, cons) );
6645 }
6646 else
6647 {
6648 conshdlrDelSepacons(cons->conshdlr, cons);
6649 cons->separate = separate;
6650 }
6651 }
6652 }
6653
6654 return SCIP_OKAY;
6655}
6656
6657/** sets the enforce flag of the given constraint */
6659 SCIP_CONS* cons, /**< constraint */
6660 SCIP_SET* set, /**< global SCIP settings */
6661 SCIP_Bool enforce /**< new value */
6662 )
6663{
6664 assert(cons != NULL);
6665 assert(set != NULL);
6666 assert(cons->scip == set->scip);
6667
6668 if( cons->enforce != enforce )
6669 {
6671 {
6672 cons->enforce = enforce;
6673 }
6674 else if( cons->enabled )
6675 {
6676 if( enforce )
6677 {
6678 cons->enforce = enforce;
6679 SCIP_CALL( conshdlrAddEnfocons(cons->conshdlr, set, cons) );
6680 }
6681 else
6682 {
6683 conshdlrDelEnfocons(cons->conshdlr, cons);
6684 cons->enforce = enforce;
6685 }
6686 }
6687 }
6688
6689 return SCIP_OKAY;
6690}
6691
6692/** sets the check flag of the given constraint */
6694 SCIP_CONS* cons, /**< constraint */
6695 SCIP_SET* set, /**< global SCIP settings */
6696 SCIP_Bool check /**< new value */
6697 )
6698{
6699 assert(cons != NULL);
6700 assert(set != NULL);
6701 assert(cons->scip == set->scip);
6702
6703 if( cons->check != check )
6704 {
6705 cons->check = check;
6706
6707 if( !cons->original )
6708 {
6709 /* if constraint is a problem constraint, update variable roundings locks */
6710 if( cons->addconssetchg == NULL && cons->addarraypos >= 0 )
6711 {
6712 if( cons->check )
6713 {
6715 }
6716 else
6717 {
6719 }
6720 }
6721
6722 /* if constraint is active, update the checkconss array of the constraint handler */
6723 if( cons->active )
6724 {
6725 if( cons->check )
6726 {
6727 SCIP_CALL( conshdlrAddCheckcons(cons->conshdlr, set, cons) );
6728 }
6729 else
6730 {
6731 conshdlrDelCheckcons(cons->conshdlr, cons);
6732 }
6733 }
6734 }
6735 }
6736
6737 return SCIP_OKAY;
6738}
6739
6740/** sets the propagate flag of the given constraint */
6742 SCIP_CONS* cons, /**< constraint */
6743 SCIP_SET* set, /**< global SCIP settings */
6744 SCIP_Bool propagate /**< new value */
6745 )
6746{
6747 assert(cons != NULL);
6748 assert(set != NULL);
6749 assert(cons->scip == set->scip);
6750
6751 if( cons->propagate != propagate )
6752 {
6754 {
6755 cons->propagate = propagate;
6756 }
6757 else if( cons->enabled && cons->propenabled )
6758 {
6759 if( propagate )
6760 {
6761 cons->propagate = propagate;
6762 SCIP_CALL( conshdlrAddPropcons(cons->conshdlr, set, cons) );
6763 }
6764 else
6765 {
6766 conshdlrDelPropcons(cons->conshdlr, cons);
6767 cons->propagate = propagate;
6768 }
6769 }
6770 }
6771
6772 return SCIP_OKAY;
6773}
6774
6775/** sets the local flag of the given constraint */
6777 SCIP_CONS* cons, /**< constraint */
6778 SCIP_Bool local /**< new value */
6779 )
6780{
6781 assert(cons != NULL);
6782
6783 cons->local = local;
6784 if( !local )
6785 cons->validdepth = 0;
6786}
6787
6788/** sets the modifiable flag of the given constraint */
6790 SCIP_CONS* cons, /**< constraint */
6791 SCIP_Bool modifiable /**< new value */
6792 )
6793{
6794 assert(cons != NULL);
6795
6796 cons->modifiable = modifiable;
6797}
6798
6799/** sets the dynamic flag of the given constraint */
6801 SCIP_CONS* cons, /**< constraint */
6802 SCIP_Bool dynamic /**< new value */
6803 )
6804{
6805 assert(cons != NULL);
6806
6807 cons->dynamic = dynamic;
6808}
6809
6810/** sets the removable flag of the given constraint */
6812 SCIP_CONS* cons, /**< constraint */
6813 SCIP_Bool removable /**< new value */
6814 )
6815{
6816 assert(cons != NULL);
6817
6818 cons->removable = removable;
6819}
6820
6821/** sets the stickingatnode flag of the given constraint */
6823 SCIP_CONS* cons, /**< constraint */
6824 SCIP_Bool stickingatnode /**< new value */
6825 )
6826{
6827 assert(cons != NULL);
6828
6829 cons->stickingatnode = stickingatnode;
6830}
6831
6832/** gives the constraint a new name; ATTENTION: to old pointer is over written that might
6833 * result in a memory leakage */
6835 SCIP_CONS* cons, /**< constraint */
6836 const char* name /**< new name of constraint */
6837 )
6838{
6839 assert( cons != NULL );
6840 assert( name != NULL );
6841
6842 cons->name = (char*)name;
6843}
6844
6845/** gets associated transformed constraint of an original constraint, or NULL if no associated transformed constraint
6846 * exists
6847 */
6849 SCIP_CONS* cons /**< constraint */
6850 )
6851{
6852 assert(cons->original);
6853
6854 return cons->transorigcons;
6855}
6856
6857/** activates constraint or marks constraint to be activated in next update */
6859 SCIP_CONS* cons, /**< constraint */
6860 SCIP_SET* set, /**< global SCIP settings */
6861 SCIP_STAT* stat, /**< dynamic problem statistics */
6862 int depth, /**< depth in the tree where the constraint activation takes place, or -1 for global problem */
6863 SCIP_Bool focusnode /**< does the constraint activation take place at the focus node? */
6864 )
6865{
6866 assert(cons != NULL);
6867 assert(!cons->original);
6868 assert(!cons->active);
6869 assert(!cons->updateactivate);
6870 assert(!cons->updatedeactivate);
6871 assert(!cons->updateenable);
6872 assert(!cons->updatedisable);
6873 assert(!cons->updateobsolete);
6874 assert(!cons->updatefree);
6875 assert(cons->activedepth == -2);
6876 assert(cons->conshdlr != NULL);
6877 assert(set != NULL);
6878 assert(cons->scip == set->scip);
6879
6881 {
6882 SCIPsetDebugMsg(set, "delayed activation of constraint <%s> in constraint handler <%s> (depth %d)\n",
6883 cons->name, cons->conshdlr->name, depth);
6884 cons->updateactivate = TRUE;
6885 cons->activedepth = depth;
6886 cons->updateactfocus = focusnode;
6888 assert(cons->update);
6889 }
6890 else
6891 {
6892 SCIP_CALL( conshdlrActivateCons(cons->conshdlr, set, stat, cons, depth, focusnode) );
6893 assert(cons->active);
6894 }
6895
6896 return SCIP_OKAY;
6897}
6898
6899/** deactivates constraint or marks constraint to be deactivated in next update */
6901 SCIP_CONS* cons, /**< constraint */
6902 SCIP_SET* set, /**< global SCIP settings */
6903 SCIP_STAT* stat /**< dynamic problem statistics */
6904 )
6905{
6906 assert(cons != NULL);
6907 assert(!cons->original);
6908 assert(cons->active);
6909 assert(!cons->updateactivate);
6910 assert(!cons->updatedeactivate);
6911 assert(cons->activedepth >= -1);
6912 assert(cons->conshdlr != NULL);
6913 assert(set != NULL);
6914 assert(cons->scip == set->scip);
6915
6917 {
6918 SCIPsetDebugMsg(set, "delayed deactivation of constraint <%s> in constraint handler <%s>\n",
6919 cons->name, cons->conshdlr->name);
6920 cons->updatedeactivate = TRUE;
6921 cons->activedepth = -2;
6923 assert(cons->update);
6924 }
6925 else
6926 {
6927 SCIP_CALL( conshdlrDeactivateCons(cons->conshdlr, set, stat, cons) );
6928 assert(!cons->active);
6929 }
6930
6931 return SCIP_OKAY;
6932}
6933
6934/** enables constraint's separation, enforcing, and propagation capabilities or marks them to be enabled in next update */
6936 SCIP_CONS* cons, /**< constraint */
6937 SCIP_SET* set, /**< global SCIP settings */
6938 SCIP_STAT* stat /**< dynamic problem statistics */
6939 )
6940{
6941 assert(cons != NULL);
6942 assert(!cons->original);
6943 assert(cons->conshdlr != NULL);
6944 assert(set != NULL);
6945 assert(cons->scip == set->scip);
6946
6947 if( !cons->active || cons->updatedeactivate || cons->updateenable || (cons->enabled && !cons->updatedisable) )
6948 return SCIP_OKAY;
6949
6950 assert(!cons->updateactivate);
6951
6953 {
6954 cons->updateenable = TRUE;
6956 assert(cons->update);
6957 }
6958 else
6959 {
6960 SCIP_CALL( conshdlrEnableCons(cons->conshdlr, set, stat, cons) );
6961 assert(cons->enabled);
6962 }
6963
6964 return SCIP_OKAY;
6965}
6966
6967/** disables constraint's separation, enforcing, and propagation capabilities or marks them to be disabled in next update */
6969 SCIP_CONS* cons, /**< constraint */
6970 SCIP_SET* set, /**< global SCIP settings */
6971 SCIP_STAT* stat /**< dynamic problem statistics */
6972 )
6973{
6974 assert(cons != NULL);
6975 assert(!cons->original);
6976 assert(cons->conshdlr != NULL);
6977 assert(set != NULL);
6978 assert(cons->scip == set->scip);
6979
6980 if( cons->updatedisable || (!cons->enabled && !cons->updateenable) )
6981 return SCIP_OKAY;
6982
6983 assert(cons->active);
6984 assert(!cons->updateactivate);
6985
6987 {
6988 cons->updatedisable = TRUE;
6990 assert(cons->update);
6991 }
6992 else
6993 {
6994 SCIP_CALL( conshdlrDisableCons(cons->conshdlr, set, stat, cons) );
6995 assert(!cons->enabled);
6996 }
6997
6998 return SCIP_OKAY;
6999}
7000
7001/** enables constraint's separation capabilities or marks them to be enabled in next update */
7003 SCIP_CONS* cons, /**< constraint */
7004 SCIP_SET* set /**< global SCIP settings */
7005 )
7006{
7007 assert(cons != NULL);
7008 assert(cons->conshdlr != NULL);
7009 assert(set != NULL);
7010 assert(cons->scip == set->scip);
7011
7012 if( cons->updatesepaenable || (cons->sepaenabled && !cons->updatesepadisable) )
7013 return SCIP_OKAY;
7014
7016 {
7017 cons->updatesepadisable = FALSE;
7018 cons->updatesepaenable = TRUE;
7020 assert(cons->update);
7021 }
7022 else
7023 {
7025 assert(cons->sepaenabled);
7026 }
7027
7028 return SCIP_OKAY;
7029}
7030
7031/** disables constraint's separation capabilities or marks them to be disabled in next update */
7033 SCIP_CONS* cons, /**< constraint */
7034 SCIP_SET* set /**< global SCIP settings */
7035 )
7036{
7037 assert(cons != NULL);
7038 assert(cons->conshdlr != NULL);
7039
7040 if( cons->updatesepadisable || (!cons->sepaenabled && !cons->updatesepaenable) )
7041 return SCIP_OKAY;
7042
7044 {
7045 cons->updatesepaenable = FALSE;
7046 cons->updatesepadisable = TRUE;
7048 assert(cons->update);
7049 }
7050 else
7051 {
7053 assert(!cons->sepaenabled);
7054 }
7055
7056 return SCIP_OKAY;
7057}
7058
7059/** enables constraint's propagation capabilities or marks them to be enabled in next update */
7061 SCIP_CONS* cons, /**< constraint */
7062 SCIP_SET* set /**< global SCIP settings */
7063 )
7064{
7065 assert(cons != NULL);
7066 assert(cons->conshdlr != NULL);
7067 assert(set != NULL);
7068 assert(cons->scip == set->scip);
7069
7070 if( cons->updatepropenable || (cons->propenabled && !cons->updatepropdisable) )
7071 return SCIP_OKAY;
7072
7074 {
7075 cons->updatepropdisable = FALSE;
7076 cons->updatepropenable = TRUE;
7078 assert(cons->update);
7079 }
7080 else
7081 {
7083 assert(cons->propenabled);
7084 }
7085
7086 return SCIP_OKAY;
7087}
7088
7089/** disables constraint's propagation capabilities or marks them to be disabled in next update */
7091 SCIP_CONS* cons, /**< constraint */
7092 SCIP_SET* set /**< global SCIP settings */
7093 )
7094{
7095 assert(cons != NULL);
7096 assert(cons->conshdlr != NULL);
7097 assert(set != NULL);
7098 assert(cons->scip == set->scip);
7099
7100 if( cons->updatepropdisable || (!cons->propenabled && !cons->updatepropenable) )
7101 return SCIP_OKAY;
7102
7104 {
7105 cons->updatepropenable = FALSE;
7106 cons->updatepropdisable = TRUE;
7108 assert(cons->update);
7109 }
7110 else
7111 {
7113 assert(!cons->propenabled);
7114 }
7115
7116 return SCIP_OKAY;
7117}
7118
7119/** marks the constraint to be a conflict */
7121 SCIP_CONS* cons /**< constraint */
7122 )
7123{
7124 assert(cons != NULL);
7125
7126 cons->conflict = TRUE;
7127}
7128
7129/** marks the constraint to be propagated (update might be delayed) */
7131 SCIP_CONS* cons, /**< constraint */
7132 SCIP_SET* set /**< global SCIP settings */
7133 )
7134{
7135 assert(cons != NULL);
7136 assert(cons->conshdlr != NULL);
7137 assert(set != NULL);
7138 assert(cons->scip == set->scip);
7139
7140 if( cons->updatemarkpropagate || (cons->markpropagate && !cons->updateunmarkpropagate) )
7141 return SCIP_OKAY;
7142
7144 {
7146 cons->updatemarkpropagate = TRUE;
7148 assert(cons->update);
7149 }
7150 else
7151 {
7153 assert(cons->markpropagate || !cons->enabled);
7154 }
7155
7156 return SCIP_OKAY;
7157}
7158
7159/** unmarks the constraint to be propagated (update might be delayed) */
7161 SCIP_CONS* cons, /**< constraint */
7162 SCIP_SET* set /**< global SCIP settings */
7163 )
7164{
7165 assert(cons != NULL);
7166 assert(cons->conshdlr != NULL);
7167 assert(set != NULL);
7168 assert(cons->scip == set->scip);
7169
7170 if( cons->updateunmarkpropagate || (!cons->markpropagate && !cons->updatemarkpropagate) )
7171 return SCIP_OKAY;
7172
7174 {
7175 cons->updatemarkpropagate = FALSE;
7178 assert(cons->update);
7179 }
7180 else
7181 {
7183 assert(!cons->markpropagate || !cons->enabled);
7184 }
7185
7186 return SCIP_OKAY;
7187}
7188
7189/** adds given value to age of constraint, but age can never become negative;
7190 * should be called
7191 * - in constraint separation, if no cut was found for this constraint,
7192 * - in constraint enforcing, if constraint was feasible, and
7193 * - in constraint propagation, if no domain reduction was deduced;
7194 * if it's age exceeds the constraint age limit, makes constraint obsolete or marks constraint to be made obsolete
7195 * in next update
7196 */
7198 SCIP_CONS* cons, /**< constraint */
7199 BMS_BLKMEM* blkmem, /**< block memory */
7200 SCIP_SET* set, /**< global SCIP settings */
7201 SCIP_STAT* stat, /**< dynamic problem statistics */
7202 SCIP_PROB* prob, /**< problem data */
7203 SCIP_Real deltaage, /**< value to add to the constraint's age */
7204 SCIP_REOPT* reopt /**< reoptimization data */
7205 )
7206{
7207 assert(cons != NULL);
7208 assert(cons->conshdlr != NULL);
7209 assert(!cons->updateactivate);
7210 assert(set != NULL);
7211 assert(cons->scip == set->scip);
7212
7213 /* no aging in presolving */
7214 if( set->stage == SCIP_STAGE_PRESOLVING )
7215 return SCIP_OKAY;
7216
7217 SCIPsetDebugMsg(set, "adding %g to age (%g) of constraint <%s> of handler <%s>\n",
7218 deltaage, cons->age, cons->name, cons->conshdlr->name);
7219
7220 cons->age += deltaage;
7221 cons->age = MAX(cons->age, 0.0);
7222
7223 if( !cons->original )
7224 {
7225 if( !cons->check && consExceedsAgelimit(cons, set) )
7226 {
7227 SCIP_CALL( SCIPconsDelete(cons, blkmem, set, stat, prob, reopt) );
7228 }
7229 else if( !cons->obsolete && consExceedsObsoleteage(cons, set) )
7230 {
7232 {
7233 cons->updateobsolete = TRUE;
7235 assert(cons->update);
7236 }
7237 else
7238 {
7240 assert(cons->obsolete);
7241 }
7242 }
7243 }
7244
7245 return SCIP_OKAY;
7246}
7247
7248/** increases age of constraint by 1.0;
7249 * should be called
7250 * - in constraint separation, if no cut was found for this constraint,
7251 * - in constraint enforcing, if constraint was feasible, and
7252 * - in constraint propagation, if no domain reduction was deduced;
7253 * if it's age exceeds the constraint age limit, makes constraint obsolete or marks constraint to be made obsolete
7254 * in next update
7255 */
7257 SCIP_CONS* cons, /**< constraint */
7258 BMS_BLKMEM* blkmem, /**< block memory */
7259 SCIP_SET* set, /**< global SCIP settings */
7260 SCIP_STAT* stat, /**< dynamic problem statistics */
7261 SCIP_PROB* prob, /**< problem data */
7262 SCIP_REOPT* reopt /**< reoptimization data */
7263 )
7264{
7265 SCIP_CALL( SCIPconsAddAge(cons, blkmem, set, stat, prob, 1.0, reopt) );
7266
7267 return SCIP_OKAY;
7268}
7269
7270/** resets age of constraint to zero;
7271 * should be called
7272 * - in constraint separation, if a cut was found for this constraint,
7273 * - in constraint enforcing, if the constraint was violated, and
7274 * - in constraint propagation, if a domain reduction was deduced;
7275 * if it was obsolete, makes constraint useful again or marks constraint to be made useful again in next update
7276 */
7278 SCIP_CONS* cons, /**< constraint */
7279 SCIP_SET* set /**< global SCIP settings */
7280 )
7281{
7282 assert(cons != NULL);
7283 assert(cons->conshdlr != NULL);
7284 assert(!cons->updateactivate);
7285 assert(set != NULL);
7286 assert(cons->scip == set->scip);
7287
7288 SCIPsetDebugMsg(set, "resetting age %g of constraint <%s> of handler <%s>\n", cons->age, cons->name, cons->conshdlr->name);
7289
7291 cons->age = 0.0;
7292
7293 if( cons->obsolete )
7294 {
7295 assert(!cons->original);
7297 {
7298 cons->updateobsolete = TRUE;
7300 assert(cons->update);
7301 }
7302 else
7303 {
7305 assert(!cons->obsolete);
7306 }
7307 }
7308
7309 return SCIP_OKAY;
7310}
7311
7312/** resolves the given conflicting bound, that was deduced by the given constraint, by putting all "reason" bounds
7313 * leading to the deduction into the conflict queue with calls to SCIPaddConflictLb(), SCIPaddConflictUb(), SCIPaddConflictBd(),
7314 * SCIPaddConflictRelaxedLb(), SCIPaddConflictRelaxedUb(), SCIPaddConflictRelaxedBd(), or SCIPaddConflictBinvar();
7315 *
7316 * @note it is sufficient to explain the relaxed bound change
7317 */
7319 SCIP_CONS* cons, /**< constraint that deduced the assignment */
7320 SCIP_SET* set, /**< global SCIP settings */
7321 SCIP_VAR* infervar, /**< variable whose bound was deduced by the constraint */
7322 int inferinfo, /**< user inference information attached to the bound change */
7323 SCIP_BOUNDTYPE inferboundtype, /**< bound that was deduced (lower or upper bound) */
7324 SCIP_BDCHGIDX* bdchgidx, /**< bound change index, representing the point of time where change took place */
7325 SCIP_Real relaxedbd, /**< the relaxed bound */
7326 SCIP_RESULT* result /**< pointer to store the result of the callback method */
7327 )
7328{
7329 SCIP_CONSHDLR* conshdlr;
7330
7331 assert(set != NULL);
7332 assert(cons != NULL);
7333 assert((inferboundtype == SCIP_BOUNDTYPE_LOWER
7334 && SCIPgetVarLbAtIndex(set->scip, infervar, bdchgidx, TRUE) > SCIPvarGetLbGlobal(infervar))
7335 || (inferboundtype == SCIP_BOUNDTYPE_UPPER
7336 && SCIPgetVarUbAtIndex(set->scip, infervar, bdchgidx, TRUE) < SCIPvarGetUbGlobal(infervar)));
7337 assert(result != NULL);
7338 assert(cons->scip == set->scip);
7339
7340 *result = SCIP_DIDNOTRUN;
7341
7342 conshdlr = cons->conshdlr;
7343 assert(conshdlr != NULL);
7344
7345 if( conshdlr->consresprop != NULL )
7346 {
7347 /* start timing */
7348 SCIPclockStart(conshdlr->resproptime, set);
7349
7350 SCIP_CALL( conshdlr->consresprop(set->scip, conshdlr, cons, infervar, inferinfo, inferboundtype, bdchgidx,
7351 relaxedbd, result) );
7352
7353 /* stop timing */
7354 SCIPclockStop(conshdlr->resproptime, set);
7355
7356 /* update statistics */
7357 conshdlr->nrespropcalls++;
7358
7359 /* check result code */
7360 if( *result != SCIP_SUCCESS && *result != SCIP_DIDNOTFIND )
7361 {
7362 SCIPerrorMessage("propagation conflict resolving method of constraint handler <%s> returned invalid result <%d>\n",
7363 conshdlr->name, *result);
7364 return SCIP_INVALIDRESULT;
7365 }
7366 }
7367 else
7368 {
7369 SCIPerrorMessage("propagation conflict resolving method of constraint handler <%s> is not implemented\n",
7370 conshdlr->name);
7371 return SCIP_PLUGINNOTFOUND;
7372 }
7373
7374 return SCIP_OKAY;
7375}
7376
7377/** adds given values to lock status of the constraint and updates the locks of the given locktype of the involved variables */
7379 SCIP_CONS* cons, /**< constraint */
7380 SCIP_SET* set, /**< global SCIP settings */
7381 SCIP_LOCKTYPE locktype, /**< type of variable locks */
7382 int nlockspos, /**< increase in number of rounding locks for constraint */
7383 int nlocksneg /**< increase in number of rounding locks for constraint's negation */
7384 )
7385{
7386 int oldnlockspos;
7387 int oldnlocksneg;
7388 int updlockpos;
7389 int updlockneg;
7390
7391 assert(cons != NULL);
7392 assert(cons->conshdlr != NULL);
7393 assert(cons->conshdlr->conslock != NULL);
7394 assert((int)locktype >= 0 && (int)locktype < (int)NLOCKTYPES); /*lint !e685 !e568 !e587 !e650*/
7395 assert(cons->nlockspos[locktype] >= 0);
7396 assert(cons->nlocksneg[locktype] >= 0);
7397 assert(-2 <= nlockspos && nlockspos <= 2);
7398 assert(-2 <= nlocksneg && nlocksneg <= 2);
7399 assert(set != NULL);
7400 assert(cons->scip == set->scip);
7401
7402 /* update the rounding locks */
7403 oldnlockspos = cons->nlockspos[locktype];
7404 oldnlocksneg = cons->nlocksneg[locktype];
7405 cons->nlockspos[locktype] += nlockspos;
7406 cons->nlocksneg[locktype] += nlocksneg;
7407 assert(cons->nlockspos[locktype] >= 0);
7408 assert(cons->nlocksneg[locktype] >= 0);
7409
7410 /* check, if the constraint switched from unlocked to locked, or from locked to unlocked */
7411 updlockpos = (int)(cons->nlockspos[locktype] > 0) - (int)(oldnlockspos > 0);
7412 updlockneg = (int)(cons->nlocksneg[locktype] > 0) - (int)(oldnlocksneg > 0);
7413
7414 /* lock the variables, if the constraint switched from unlocked to locked or from locked to unlocked */
7415 if( updlockpos != 0 || updlockneg != 0 )
7416 {
7417 SCIP_CALL( cons->conshdlr->conslock(set->scip, cons->conshdlr, cons, locktype, updlockpos, updlockneg) );
7418 }
7419
7420 return SCIP_OKAY;
7421}
7422
7423/** checks single constraint for feasibility of the given solution */
7425 SCIP_CONS* cons, /**< constraint to check */
7426 SCIP_SET* set, /**< global SCIP settings */
7427 SCIP_SOL* sol, /**< primal CIP solution */
7428 SCIP_Bool checkintegrality, /**< Has integrality to be checked? */
7429 SCIP_Bool checklprows, /**< Do constraints represented by rows in the current LP have to be checked? */
7430 SCIP_Bool printreason, /**< Should the reason for the violation be printed? */
7431 SCIP_RESULT* result /**< pointer to store the result of the callback method */
7432 )
7433{
7434 SCIP_CONSHDLR* conshdlr;
7435
7436 assert(cons != NULL);
7437 assert(set != NULL);
7438 assert(cons->scip == set->scip);
7439 assert(result != NULL);
7440
7441 conshdlr = cons->conshdlr;
7442 assert(conshdlr != NULL);
7443
7444 /* call external method */
7445 assert(conshdlr->conscheck != NULL);
7446
7447 SCIP_CALL( conshdlr->conscheck(set->scip, conshdlr, &cons, 1, sol, checkintegrality, checklprows, printreason,
7448 FALSE, result) );
7449 SCIPsetDebugMsg(set, " -> checking returned result <%d>\n", *result);
7450
7451 if( *result != SCIP_INFEASIBLE && *result != SCIP_FEASIBLE )
7452 {
7453 SCIPerrorMessage("feasibility check of constraint handler <%s> on constraint <%s> returned invalid result <%d>\n",
7454 conshdlr->name, cons->name, *result);
7455 return SCIP_INVALIDRESULT;
7456 }
7457
7458 return SCIP_OKAY;
7459}
7460
7461/** enforces single constraint for a given pseudo solution */
7463 SCIP_CONS* cons, /**< constraint to enforce */
7464 SCIP_SET* set, /**< global SCIP settings */
7465 SCIP_Bool solinfeasible, /**< was the solution already declared infeasible by a constraint handler? */
7466 SCIP_Bool objinfeasible, /**< is the solution infeasible anyway due to violating lower objective bound? */
7467 SCIP_RESULT* result /**< pointer to store the result of the callback method */
7468 )
7469{
7470 SCIP_CONSHDLR* conshdlr;
7471
7472 assert(cons != NULL);
7473 assert(set != NULL);
7474 assert(cons->scip == set->scip);
7475 assert(result != NULL);
7476
7477 conshdlr = cons->conshdlr;
7478 assert(conshdlr != NULL);
7479
7480 /* call external method */
7481 assert(conshdlr->consenfops != NULL);
7482
7483 SCIP_CALL( conshdlr->consenfops(set->scip, conshdlr, &cons, 1, 1, solinfeasible, objinfeasible, result) );
7484 SCIPsetDebugMsg(set, " -> enfops returned result <%d>\n", *result);
7485
7486 if( *result != SCIP_CUTOFF
7487 && *result != SCIP_CONSADDED
7488 && *result != SCIP_REDUCEDDOM
7489 && *result != SCIP_BRANCHED
7490 && *result != SCIP_SOLVELP
7491 && *result != SCIP_INFEASIBLE
7492 && *result != SCIP_FEASIBLE
7493 && *result != SCIP_DIDNOTRUN )
7494 {
7495 SCIPerrorMessage("enforcing method of constraint handler <%s> for pseudo solutions returned invalid result <%d>\n",
7496 conshdlr->name, *result);
7497 return SCIP_INVALIDRESULT;
7498 }
7499
7500 /* do not update statistics */
7501
7502 return SCIP_OKAY;
7503}
7504
7505/** enforces single constraint for a given LP solution */
7507 SCIP_CONS* cons, /**< constraint to enforce */
7508 SCIP_SET* set, /**< global SCIP settings */
7509 SCIP_Bool solinfeasible, /**< was the solution already declared infeasible by a constraint handler? */
7510 SCIP_RESULT* result /**< pointer to store the result of the callback method */
7511 )
7512{
7513 SCIP_CONSHDLR* conshdlr;
7514
7515 assert(cons != NULL);
7516 assert(set != NULL);
7517 assert(cons->scip == set->scip);
7518 assert(result != NULL);
7519
7520 conshdlr = cons->conshdlr;
7521 assert(conshdlr != NULL);
7522
7523 /* call external method */
7524 assert(conshdlr->consenfolp != NULL);
7525
7526 SCIP_CALL( conshdlr->consenfolp(set->scip, conshdlr, &cons, 1, 1, solinfeasible, result) );
7527 SCIPsetDebugMsg(set, " -> enfolp returned result <%d>\n", *result);
7528
7529 if( *result != SCIP_CUTOFF
7530 && *result != SCIP_CONSADDED
7531 && *result != SCIP_REDUCEDDOM
7532 && *result != SCIP_BRANCHED
7533 && *result != SCIP_SEPARATED
7534 && *result != SCIP_INFEASIBLE
7535 && *result != SCIP_FEASIBLE)
7536 {
7537 SCIPerrorMessage("enforcing method of constraint handler <%s> for LP returned invalid result <%d>\n",
7538 conshdlr->name, *result);
7539 return SCIP_INVALIDRESULT;
7540 }
7541
7542 /* do not update statistics */
7543
7544 return SCIP_OKAY;
7545}
7546
7547/** enforces single constraint for a given relaxation solution */
7549 SCIP_CONS* cons, /**< constraint to enforce */
7550 SCIP_SET* set, /**< global SCIP settings */
7551 SCIP_SOL* sol, /**< solution to be enforced */
7552 SCIP_Bool solinfeasible, /**< was the solution already declared infeasible by a constraint handler? */
7553 SCIP_RESULT* result /**< pointer to store the result of the callback method */
7554 )
7555{
7556 SCIP_CONSHDLR* conshdlr;
7557
7558 assert(cons != NULL);
7559 assert(set != NULL);
7560 assert(cons->scip == set->scip);
7561 assert(sol != NULL);
7562 assert(result != NULL);
7563
7564 conshdlr = cons->conshdlr;
7565 assert(conshdlr != NULL);
7566
7567 /* call external method */
7568 assert(conshdlr->consenfolp != NULL);
7569
7570 SCIP_CALL( conshdlr->consenforelax(set->scip, sol, conshdlr, &cons, 1, 1, solinfeasible, result) );
7571 SCIPdebugMessage(" -> enforelax returned result <%d>\n", *result);
7572
7573 if( *result != SCIP_CUTOFF
7574 && *result != SCIP_CONSADDED
7575 && *result != SCIP_REDUCEDDOM
7576 && *result != SCIP_BRANCHED
7577 && *result != SCIP_SEPARATED
7578 && *result != SCIP_INFEASIBLE
7579 && *result != SCIP_FEASIBLE)
7580 {
7581 SCIPerrorMessage("enforcing method of constraint handler <%s> for relaxation returned invalid result <%d>\n",
7582 conshdlr->name, *result);
7583 return SCIP_INVALIDRESULT;
7584 }
7585
7586 /* do not update statistics */
7587
7588 return SCIP_OKAY;
7589}
7590
7591/** calls LP initialization method for single constraint */
7593 SCIP_CONS* cons, /**< constraint to initialize */
7594 SCIP_SET* set, /**< global SCIP settings */
7595 SCIP_Bool* infeasible /**< pointer to store whether infeasibility was detected while building the LP */
7596 )
7597{
7598 SCIP_CONSHDLR* conshdlr;
7599
7600 assert(cons != NULL);
7601 assert(set != NULL);
7602 assert(infeasible != NULL);
7603 assert(cons->scip == set->scip);
7604
7605 conshdlr = cons->conshdlr;
7606 assert(conshdlr != NULL);
7607
7608 /* call external method */
7609 if( conshdlr->consinitlp != NULL )
7610 {
7611 SCIP_CALL( conshdlr->consinitlp(set->scip, conshdlr, &cons, 1, infeasible) );
7612 }
7613
7614 return SCIP_OKAY;
7615}
7616
7617/** calls separation method of single constraint for LP solution */
7619 SCIP_CONS* cons, /**< constraint to separate */
7620 SCIP_SET* set, /**< global SCIP settings */
7621 SCIP_RESULT* result /**< pointer to store the result of the separation call */
7622 )
7623{
7624 SCIP_CONSHDLR* conshdlr;
7625
7626 assert(cons != NULL);
7627 assert(set != NULL);
7628 assert(cons->scip == set->scip);
7629 assert(result != NULL);
7630
7631 conshdlr = cons->conshdlr;
7632 assert(conshdlr != NULL);
7633
7634 /* call external method */
7635 if( conshdlr->conssepalp != NULL )
7636 {
7637 SCIP_CALL( conshdlr->conssepalp(set->scip, conshdlr, &cons, 1, 1, result) );
7638 SCIPsetDebugMsg(set, " -> sepalp returned result <%d>\n", *result);
7639
7640 if( *result != SCIP_CUTOFF
7641 && *result != SCIP_CONSADDED
7642 && *result != SCIP_REDUCEDDOM
7643 && *result != SCIP_SEPARATED
7644 && *result != SCIP_NEWROUND
7645 && *result != SCIP_DIDNOTFIND
7646 && *result != SCIP_DIDNOTRUN
7647 && *result != SCIP_DELAYED )
7648 {
7649 SCIPerrorMessage("separation method of constraint handler <%s> returned invalid result <%d>\n", conshdlr->name,
7650 *result);
7651 return SCIP_INVALIDRESULT;
7652 }
7653 }
7654
7655 return SCIP_OKAY;
7656}
7657
7658/** calls separation method of single constraint for given primal solution */
7660 SCIP_CONS* cons, /**< constraint to separate */
7661 SCIP_SET* set, /**< global SCIP settings */
7662 SCIP_SOL* sol, /**< primal solution that should be separated */
7663 SCIP_RESULT* result /**< pointer to store the result of the separation call */
7664 )
7665{
7666 SCIP_CONSHDLR* conshdlr;
7667
7668 assert(cons != NULL);
7669 assert(set != NULL);
7670 assert(cons->scip == set->scip);
7671 assert(sol != NULL);
7672 assert(result != NULL);
7673
7674 conshdlr = cons->conshdlr;
7675 assert(conshdlr != NULL);
7676
7677 /* call external method */
7678 if( conshdlr->conssepasol != NULL )
7679 {
7680 SCIP_CALL( conshdlr->conssepasol(set->scip, conshdlr, &cons, 1, 1, sol, result) );
7681 SCIPsetDebugMsg(set, " -> sepasol returned result <%d>\n", *result);
7682
7683 if( *result != SCIP_CUTOFF
7684 && *result != SCIP_CONSADDED
7685 && *result != SCIP_REDUCEDDOM
7686 && *result != SCIP_SEPARATED
7687 && *result != SCIP_NEWROUND
7688 && *result != SCIP_DIDNOTFIND
7689 && *result != SCIP_DIDNOTRUN
7690 && *result != SCIP_DELAYED )
7691 {
7692 SCIPerrorMessage("separation method of constraint handler for arbitrary primal solution <%s> returned invalid result <%d>\n",
7693 conshdlr->name, *result);
7694 return SCIP_INVALIDRESULT;
7695 }
7696 }
7697
7698 return SCIP_OKAY;
7699}
7700
7701/** calls domain propagation method of single constraint */
7703 SCIP_CONS* cons, /**< constraint to propagate */
7704 SCIP_SET* set, /**< global SCIP settings */
7705 SCIP_PROPTIMING proptiming, /**< current point in the node solving loop */
7706 SCIP_RESULT* result /**< pointer to store the result of the callback method */
7707 )
7708{
7709 SCIP_CONSHDLR* conshdlr;
7710
7711 assert(cons != NULL);
7712 assert(set != NULL);
7713 assert(cons->scip == set->scip);
7714 assert(result != NULL);
7715
7716 conshdlr = cons->conshdlr;
7717 assert(conshdlr != NULL);
7718
7719 /* call external method */
7720 if( conshdlr->consprop != NULL )
7721 {
7722 SCIP_CALL( conshdlr->consprop(set->scip, conshdlr, &cons, 1, 1, 1, proptiming, result) );
7723 SCIPsetDebugMsg(set, " -> prop returned result <%d>\n", *result);
7724
7725 if( *result != SCIP_CUTOFF
7726 && *result != SCIP_CONSADDED
7727 && *result != SCIP_REDUCEDDOM
7728 && *result != SCIP_DIDNOTFIND
7729 && *result != SCIP_DIDNOTRUN
7730 && *result != SCIP_DELAYED )
7731 {
7732 SCIPerrorMessage("propagation method of constraint handler <%s> returned invalid result <%d>\n",
7733 conshdlr->name, *result);
7734 return SCIP_INVALIDRESULT;
7735 }
7736 }
7737
7738 return SCIP_OKAY;
7739}
7740
7741/** resolves propagation conflict of single constraint */
7743 SCIP_CONS* cons, /**< constraint to resolve conflict for */
7744 SCIP_SET* set, /**< global SCIP settings */
7745 SCIP_VAR* infervar, /**< the conflict variable whose bound change has to be resolved */
7746 int inferinfo, /**< the user information passed to the corresponding SCIPinferVarLbCons() or SCIPinferVarUbCons() call */
7747 SCIP_BOUNDTYPE boundtype, /**< the type of the changed bound (lower or upper bound) */
7748 SCIP_BDCHGIDX* bdchgidx, /**< the index of the bound change, representing the point of time where the change took place */
7749 SCIP_Real relaxedbd, /**< the relaxed bound which is sufficient to be explained */
7750 SCIP_RESULT* result /**< pointer to store the result of the callback method */
7751 )
7752{
7753 SCIP_CONSHDLR* conshdlr;
7754
7755 assert(cons != NULL);
7756 assert(set != NULL);
7757 assert(cons->scip == set->scip);
7758 assert(result != NULL);
7759 assert(infervar != NULL);
7760 assert(bdchgidx != NULL);
7761
7762 conshdlr = cons->conshdlr;
7763 assert(conshdlr != NULL);
7764
7765 /* call external method */
7766 if( conshdlr->consresprop != NULL )
7767 {
7768 SCIP_CALL( conshdlr->consresprop(set->scip, conshdlr, cons, infervar, inferinfo, boundtype, bdchgidx, relaxedbd, result) );
7769 SCIPsetDebugMsg(set, " -> resprop returned result <%d>\n", *result);
7770
7771 if( *result != SCIP_SUCCESS
7772 && *result != SCIP_DIDNOTFIND )
7773 {
7774 SCIPerrorMessage("propagation conflict resolving method of constraint handler <%s> returned invalid result <%d>\n",
7775 conshdlr->name, *result);
7776 return SCIP_INVALIDRESULT;
7777 }
7778 }
7779
7780 return SCIP_OKAY;
7781}
7782
7783/** presolves single constraint */
7785 SCIP_CONS* cons, /**< constraint to presolve */
7786 SCIP_SET* set, /**< global SCIP settings */
7787 int nrounds, /**< number of presolving rounds already done */
7788 SCIP_PRESOLTIMING timing, /**< current presolving timing */
7789 int nnewfixedvars, /**< number of variables fixed since the last call to the presolving method */
7790 int nnewaggrvars, /**< number of variables aggregated since the last call to the presolving method */
7791 int nnewchgvartypes, /**< number of variable type changes since the last call to the presolving method */
7792 int nnewchgbds, /**< number of variable bounds tightened since the last call to the presolving method */
7793 int nnewholes, /**< number of domain holes added since the last call to the presolving method */
7794 int nnewdelconss, /**< number of deleted constraints since the last call to the presolving method */
7795 int nnewaddconss, /**< number of added constraints since the last call to the presolving method */
7796 int nnewupgdconss, /**< number of upgraded constraints since the last call to the presolving method */
7797 int nnewchgcoefs, /**< number of changed coefficients since the last call to the presolving method */
7798 int nnewchgsides, /**< number of changed left or right hand sides since the last call to the presolving method */
7799 int* nfixedvars, /**< pointer to count total number of variables fixed of all presolvers */
7800 int* naggrvars, /**< pointer to count total number of variables aggregated of all presolvers */
7801 int* nchgvartypes, /**< pointer to count total number of variable type changes of all presolvers */
7802 int* nchgbds, /**< pointer to count total number of variable bounds tightened of all presolvers */
7803 int* naddholes, /**< pointer to count total number of domain holes added of all presolvers */
7804 int* ndelconss, /**< pointer to count total number of deleted constraints of all presolvers */
7805 int* naddconss, /**< pointer to count total number of added constraints of all presolvers */
7806 int* nupgdconss, /**< pointer to count total number of upgraded constraints of all presolvers */
7807 int* nchgcoefs, /**< pointer to count total number of changed coefficients of all presolvers */
7808 int* nchgsides, /**< pointer to count total number of changed left/right hand sides of all presolvers */
7809 SCIP_RESULT* result /**< pointer to store the result of the callback method */
7810 )
7811{
7812 SCIP_CONSHDLR* conshdlr;
7813
7814 assert(cons != NULL);
7815 assert(set != NULL);
7816 assert(cons->scip == set->scip);
7817 assert(nfixedvars != NULL);
7818 assert(naggrvars != NULL);
7819 assert(nchgvartypes != NULL);
7820 assert(nchgbds != NULL);
7821 assert(naddholes != NULL);
7822 assert(ndelconss != NULL);
7823 assert(naddconss != NULL);
7824 assert(nupgdconss != NULL);
7825 assert(nchgcoefs != NULL);
7826 assert(nchgsides != NULL);
7827 assert(result != NULL);
7828
7829 conshdlr = cons->conshdlr;
7830 assert(conshdlr != NULL);
7831
7832 /* call external method */
7833 if( conshdlr->conspresol != NULL )
7834 {
7835 SCIP_CALL( conshdlr->conspresol(set->scip, conshdlr, &cons, 1, nrounds, timing,
7836 nnewfixedvars, nnewaggrvars, nnewchgvartypes, nnewchgbds, nnewholes, nnewdelconss, nnewaddconss,
7837 nnewupgdconss, nnewchgcoefs, nnewchgsides, nfixedvars, naggrvars, nchgvartypes,
7838 nchgbds, naddholes, ndelconss, naddconss, nupgdconss, nchgcoefs, nchgsides, result) );
7839 SCIPsetDebugMsg(set, " -> presol returned result <%d>\n", *result);
7840
7841 if( *result != SCIP_UNBOUNDED
7842 && *result != SCIP_CUTOFF
7843 && *result != SCIP_SUCCESS
7844 && *result != SCIP_DIDNOTFIND
7845 && *result != SCIP_DIDNOTRUN
7846 && *result != SCIP_DELAYED )
7847 {
7848 SCIPerrorMessage("presolving method of constraint handler <%s> returned invalid result <%d>\n",
7849 conshdlr->name, *result);
7850 return SCIP_INVALIDRESULT;
7851 }
7852 }
7853
7854 return SCIP_OKAY;
7855}
7856
7857/** calls constraint activation notification method of single constraint */
7859 SCIP_CONS* cons, /**< constraint to notify */
7860 SCIP_SET* set /**< global SCIP settings */
7861 )
7862{
7863 SCIP_CONSHDLR* conshdlr;
7864
7865 assert(cons != NULL);
7866 assert(set != NULL);
7867 assert(cons->scip == set->scip);
7868
7869 conshdlr = cons->conshdlr;
7870 assert(conshdlr != NULL);
7871
7872 /* call external method */
7873 if( conshdlr->consactive != NULL )
7874 {
7875 SCIP_CALL( conshdlr->consactive(set->scip, conshdlr, cons) );
7876 }
7877
7878 return SCIP_OKAY;
7879}
7880
7881/** calls constraint deactivation notification method of single constraint */
7883 SCIP_CONS* cons, /**< constraint to notify */
7884 SCIP_SET* set /**< global SCIP settings */
7885 )
7886{
7887 SCIP_CONSHDLR* conshdlr;
7888
7889 assert(cons != NULL);
7890 assert(set != NULL);
7891 assert(cons->scip == set->scip);
7892
7893 conshdlr = cons->conshdlr;
7894 assert(conshdlr != NULL);
7895
7896 /* call external method */
7897 if( conshdlr->consdeactive != NULL )
7898 {
7899 SCIP_CALL( conshdlr->consdeactive(set->scip, conshdlr, cons) );
7900 }
7901
7902 return SCIP_OKAY;
7903}
7904
7905
7906
7907/*
7908 * Hash functions
7909 */
7910
7911/** gets the key (i.e. the name) of the given constraint */
7912SCIP_DECL_HASHGETKEY(SCIPhashGetKeyCons)
7913{ /*lint --e{715}*/
7914 SCIP_CONS* cons = (SCIP_CONS*)elem;
7915
7916 assert(cons != NULL);
7917 return cons->name;
7918}
7919
7920
7921/*
7922 * method for arrays of contraint handlers
7923 */
7924
7925/** ensures size of storage for propagable constraints with a minimum size of num */
7926static
7928 SCIP_SET* set, /**< global SCIP settings */
7929 SCIP_CONSHDLR* conshdlr, /**< constraint handler */
7930 int num /**< minimum number of entries to store */
7931 )
7932{
7933 assert(set != NULL);
7934 assert(conshdlr != NULL);
7935
7936 if( num > conshdlr->storedpropconsssize )
7937 {
7938 int newsize;
7939
7940 newsize = SCIPsetCalcMemGrowSize(set, num);
7941 SCIP_ALLOC( BMSreallocMemoryArray(&(conshdlr->storedpropconss), newsize) );
7942
7943 conshdlr->storedpropconsssize = newsize;
7944 }
7945 assert(num <= conshdlr->storedpropconsssize);
7946
7947 return SCIP_OKAY;
7948}
7949
7950/** stores all constraints marked for propagation away when probing is started */
7952 SCIP_SET* set, /**< global SCIP settings */
7953 SCIP_CONSHDLR** conshdlrs, /**< all constraint handlers */
7954 int nconshdlrs /**< number of contraint handlers */
7955 )
7956{
7957 SCIP_CONSHDLR* conshdlr;
7958 int c;
7959
7960 assert(set != NULL);
7961 assert(conshdlrs != NULL || nconshdlrs == 0);
7962
7963 for( c = nconshdlrs - 1; c >= 0; --c )
7964 {
7965 conshdlr = conshdlrs[c]; /*lint !e613*/
7966 assert(conshdlr != NULL);
7967 assert(conshdlr->storednmarkedpropconss == 0);
7968
7969 if( conshdlr->nmarkedpropconss > 0 )
7970 {
7971 int v;
7972
7973 SCIP_CALL( ensurePropagationStorage(set, conshdlr, conshdlr->nmarkedpropconss) );
7974 BMScopyMemoryArray(conshdlr->storedpropconss, conshdlr->propconss, conshdlr->nmarkedpropconss);
7975
7976 conshdlr->storednmarkedpropconss = conshdlr->nmarkedpropconss;
7977 conshdlr->storedpropdomchgcount = conshdlr->lastpropdomchgcount;
7978
7979 for( v = conshdlr->storednmarkedpropconss - 1; v >= 0; --v )
7980 {
7981 SCIPconsCapture(conshdlr->storedpropconss[v]);
7982 }
7983 /* assert(conshdlr->nmarkedpropconss == 0); this assert does not hold if updates are delayed */
7984 }
7985 }
7986
7987 return SCIP_OKAY;
7988}
7989
7990/** reset all constraints marked for propagation when probing was finished */
7992 SCIP_SET* set, /**< global SCIP settings */
7993 BMS_BLKMEM* blkmem, /**< block memory */
7994 SCIP_CONSHDLR** conshdlrs, /**< all constraint handlers */
7995 int nconshdlrs /**< number of contraint handlers */
7996 )
7997{
7998 SCIP_CONSHDLR* conshdlr;
7999 int c;
8000
8001 assert(set != NULL);
8002 assert(blkmem != NULL);
8003 assert(conshdlrs != NULL || nconshdlrs == 0);
8004
8005 for( c = nconshdlrs - 1; c >= 0; --c )
8006 {
8007 conshdlr = conshdlrs[c]; /*lint !e613*/
8008 assert(conshdlr != NULL);
8009
8010 if( conshdlr->storednmarkedpropconss > 0 )
8011 {
8012#ifndef NDEBUG
8013 int ndisabled = 0;
8014#endif
8015 int v;
8016
8017 for( v = conshdlr->nmarkedpropconss - 1; v >= 0; --v )
8018 {
8020 }
8021
8022 /* mark all previously marked constraint, which were marked before probing */
8023 for( v = 0; v < conshdlr->storednmarkedpropconss; ++v )
8024 {
8025 SCIP_CONS* cons = conshdlr->storedpropconss[v];
8026 assert(cons != NULL);
8027
8028 if( cons->enabled && cons->propagate && cons->propenabled )
8029 {
8031 }
8032#ifndef NDEBUG
8033 else
8034 ++ndisabled;
8035#endif
8036 SCIP_CALL( SCIPconsRelease(&cons, blkmem, set) );
8037 } /*lint !e438*/
8038
8039 assert(conshdlr->storednmarkedpropconss - ndisabled <= conshdlr->npropconss);
8040 assert(conshdlr->nmarkedpropconss + ndisabled >= conshdlr->storednmarkedpropconss || (conshdlrAreUpdatesDelayed(conshdlr) && conshdlr->nupdateconss + ndisabled >= conshdlr->storednmarkedpropconss));
8041
8042 conshdlr->lastpropdomchgcount = conshdlr->storedpropdomchgcount;
8043 conshdlr->storednmarkedpropconss = 0;
8044 }
8045 }
8046
8047 return SCIP_OKAY;
8048}
8049
8050/** create linear constraint statistics */
8052 SCIP* scip, /**< scip data structure */
8053 SCIP_LINCONSSTATS** linconsstats /**< pointer to linear constraint classification statistics */
8054 )
8055{
8056 assert(linconsstats != NULL);
8057
8058 SCIP_CALL( SCIPallocBlockMemory(scip, linconsstats) );
8059
8060 return SCIP_OKAY;
8061}
8062
8063/** free linear constraint statistics */
8065 SCIP* scip, /**< scip data structure */
8066 SCIP_LINCONSSTATS** linconsstats /**< pointer to linear constraint classification statistics */
8067 )
8068{
8069 assert(linconsstats != NULL);
8070 assert(*linconsstats != NULL);
8071
8072 SCIPfreeBlockMemory(scip, linconsstats);
8073}
8074
8075/** resets linear constraint statistics */
8077 SCIP_LINCONSSTATS* linconsstats /**< linear constraint classification statistics */
8078 )
8079{
8081 linconsstats->sum = 0;
8082}
8083
8084/** returns the number of occurrences of a specific type of linear constraint */
8086 SCIP_LINCONSSTATS* linconsstats, /**< linear constraint classification statistics */
8087 SCIP_LINCONSTYPE linconstype /**< linear constraint type */
8088 )
8089{
8090 assert(linconsstats != NULL);
8091 assert(0 <= (int)linconstype && (int)linconstype < SCIP_NLINCONSTYPES); /*lint !e587 !e685 !e568*/
8092 assert(linconsstats->counter != NULL);
8093
8094 return linconsstats->counter[(int)linconstype];
8095}
8096
8097/** returns the total number of classified constraints */
8099 SCIP_LINCONSSTATS* linconsstats /**< linear constraint classification statistics */
8100 )
8101{
8102 assert(linconsstats != NULL);
8103
8104 return linconsstats->sum;
8105}
8106
8107/** increases the number of occurrences of a specific type of linear constraint */
8109 SCIP_LINCONSSTATS* linconsstats, /**< linear constraint classification statistics */
8110 SCIP_LINCONSTYPE linconstype, /**< linear constraint type */
8111 int increment /**< positive increment */
8112 )
8113{
8114 assert(linconsstats != NULL);
8115 assert(increment >= 1);
8116 assert(0 <= (int)linconstype && (int)linconstype < SCIP_NLINCONSTYPES); /*lint !e587 !e685 !e568*/
8117 assert(linconsstats->counter != NULL);
8118
8119 linconsstats->counter[(int)linconstype] += increment;
8120 linconsstats->sum += increment;
8121}
8122
8123/** print linear constraint classification statistics */
8125 SCIP* scip, /**< scip data structure */
8126 FILE* file, /**< file handle or NULL to print to standard out */
8127 SCIP_LINCONSSTATS* linconsstats /**< linear constraint classification statistics */
8128 )
8129{
8130 assert(scip != NULL);
8131 assert(linconsstats != NULL);
8132
8133 /* print statistics */
8134 SCIPinfoMessage(scip, file, "\n");
8135 SCIPinfoMessage(scip, file, "%-19s : %10s\n", "Linear cons types", "count");
8136 SCIPinfoMessage(scip, file, " %-17s : %10d\n", "total", SCIPlinConsStatsGetSum(linconsstats));
8137 SCIPinfoMessage(scip, file, " %-17s : %10d\n", "empty", SCIPlinConsStatsGetTypeCount(linconsstats, SCIP_LINCONSTYPE_EMPTY));
8138 SCIPinfoMessage(scip, file, " %-17s : %10d\n", "free", SCIPlinConsStatsGetTypeCount(linconsstats, SCIP_LINCONSTYPE_FREE));
8139 SCIPinfoMessage(scip, file, " %-17s : %10d\n", "singleton", SCIPlinConsStatsGetTypeCount(linconsstats, SCIP_LINCONSTYPE_SINGLETON));
8140 SCIPinfoMessage(scip, file, " %-17s : %10d\n", "aggregation", SCIPlinConsStatsGetTypeCount(linconsstats, SCIP_LINCONSTYPE_AGGREGATION));
8141 SCIPinfoMessage(scip, file, " %-17s : %10d\n", "precedence", SCIPlinConsStatsGetTypeCount(linconsstats, SCIP_LINCONSTYPE_PRECEDENCE));
8142 SCIPinfoMessage(scip, file, " %-17s : %10d\n", "varbound", SCIPlinConsStatsGetTypeCount(linconsstats, SCIP_LINCONSTYPE_VARBOUND));
8143 SCIPinfoMessage(scip, file, " %-17s : %10d\n", "setpartition", SCIPlinConsStatsGetTypeCount(linconsstats, SCIP_LINCONSTYPE_SETPARTITION));
8144 SCIPinfoMessage(scip, file, " %-17s : %10d\n", "setpacking", SCIPlinConsStatsGetTypeCount(linconsstats, SCIP_LINCONSTYPE_SETPACKING));
8145 SCIPinfoMessage(scip, file, " %-17s : %10d\n", "setcovering", SCIPlinConsStatsGetTypeCount(linconsstats, SCIP_LINCONSTYPE_SETCOVERING));
8146 SCIPinfoMessage(scip, file, " %-17s : %10d\n", "cardinality", SCIPlinConsStatsGetTypeCount(linconsstats, SCIP_LINCONSTYPE_CARDINALITY));
8147 SCIPinfoMessage(scip, file, " %-17s : %10d\n", "invknapsack", SCIPlinConsStatsGetTypeCount(linconsstats, SCIP_LINCONSTYPE_INVKNAPSACK));
8148 SCIPinfoMessage(scip, file, " %-17s : %10d\n", "eqknapsack", SCIPlinConsStatsGetTypeCount(linconsstats, SCIP_LINCONSTYPE_EQKNAPSACK));
8149 SCIPinfoMessage(scip, file, " %-17s : %10d\n", "binpacking", SCIPlinConsStatsGetTypeCount(linconsstats, SCIP_LINCONSTYPE_BINPACKING));
8150 SCIPinfoMessage(scip, file, " %-17s : %10d\n", "knapsack", SCIPlinConsStatsGetTypeCount(linconsstats, SCIP_LINCONSTYPE_KNAPSACK));
8151 SCIPinfoMessage(scip, file, " %-17s : %10d\n", "intknapsack", SCIPlinConsStatsGetTypeCount(linconsstats, SCIP_LINCONSTYPE_INTKNAPSACK));
8152 SCIPinfoMessage(scip, file, " %-17s : %10d\n", "mixedbinary", SCIPlinConsStatsGetTypeCount(linconsstats, SCIP_LINCONSTYPE_MIXEDBINARY));
8153 SCIPinfoMessage(scip, file, " %-17s : %10d\n", "general", SCIPlinConsStatsGetTypeCount(linconsstats, SCIP_LINCONSTYPE_GENERAL));
8154 SCIPinfoMessage(scip, file, "\n");
8155}
8156
8157/*
8158 * simple functions implemented as defines
8159 */
8160
8161/* In debug mode, the following methods are implemented as function calls to ensure
8162 * type validity.
8163 * In optimized mode, the methods are implemented as defines to improve performance.
8164 * However, we want to have them in the library anyways, so we have to undef the defines.
8165 */
8166
8167#undef SCIPconsGetName
8168#undef SCIPconsGetPos
8169#undef SCIPconsGetHdlr
8170#undef SCIPconsGetData
8171#undef SCIPconsGetNUses
8172#undef SCIPconsGetActiveDepth
8173#undef SCIPconsGetValidDepth
8174#undef SCIPconsIsActive
8175#undef SCIPconsIsEnabled
8176#undef SCIPconsIsSeparationEnabled
8177#undef SCIPconsIsPropagationEnabled
8178#undef SCIPconsIsDeleted
8179#undef SCIPconsIsObsolete
8180#undef SCIPconsIsConflict
8181#undef SCIPconsGetAge
8182#undef SCIPconsIsInitial
8183#undef SCIPconsIsSeparated
8184#undef SCIPconsIsEnforced
8185#undef SCIPconsIsChecked
8186#undef SCIPconsIsMarkedPropagate
8187#undef SCIPconsIsPropagated
8188#undef SCIPconsIsGlobal
8189#undef SCIPconsIsLocal
8190#undef SCIPconsIsModifiable
8191#undef SCIPconsIsDynamic
8192#undef SCIPconsIsRemovable
8193#undef SCIPconsIsStickingAtNode
8194#undef SCIPconsIsInProb
8195#undef SCIPconsIsOriginal
8196#undef SCIPconsIsTransformed
8197#undef SCIPconsIsLockedPos
8198#undef SCIPconsIsLockedNeg
8199#undef SCIPconsIsLocked
8200#undef SCIPconsGetNLocksPos
8201#undef SCIPconsGetNLocksNeg
8202#undef SCIPconsIsLockedTypePos
8203#undef SCIPconsIsLockedTypeNeg
8204#undef SCIPconsIsLockedType
8205#undef SCIPconsGetNLocksTypePos
8206#undef SCIPconsGetNLocksTypeNeg
8207#undef SCIPconsIsAdded
8208#undef SCIPconsGetNUpgradeLocks
8209
8210/** returns the name of the constraint
8211 *
8212 * @note to change the name of a constraint, use SCIPchgConsName() from scip.h
8213 */
8215 SCIP_CONS* cons /**< constraint */
8216 )
8217{
8218 assert(cons != NULL);
8219
8220 return cons->name;
8221}
8222
8223/** returns the position of constraint in the corresponding handler's conss array */
8225 SCIP_CONS* cons /**< constraint */
8226 )
8227{
8228 assert(cons != NULL);
8229
8230 return cons->consspos;
8231}
8232
8233/** returns the constraint handler of the constraint */
8235 SCIP_CONS* cons /**< constraint */
8236 )
8237{
8238 assert(cons != NULL);
8239
8240 return cons->conshdlr;
8241}
8242
8243/** returns the constraint data field of the constraint */
8245 SCIP_CONS* cons /**< constraint */
8246 )
8247{
8248 assert(cons != NULL);
8249
8250 return cons->consdata;
8251}
8252
8253/** gets number of times, the constraint is currently captured */
8255 SCIP_CONS* cons /**< constraint */
8256 )
8257{
8258 assert(cons != NULL);
8259
8260 return cons->nuses;
8261}
8262
8263/** for an active constraint, returns the depth in the tree at which the constraint was activated */
8265 SCIP_CONS* cons /**< constraint */
8266 )
8267{
8268 assert(cons != NULL);
8269 assert(SCIPconsIsActive(cons));
8270
8271 return cons->activedepth;
8272}
8273
8274/** returns TRUE iff constraint is active in the current node */
8276 SCIP_CONS* cons /**< constraint */
8277 )
8278{
8279 assert(cons != NULL);
8280
8281 return cons->updateactivate || (cons->active && !cons->updatedeactivate);
8282}
8283
8284/** returns TRUE iff constraint is active in the current node */
8286 SCIP_CONS* cons /**< constraint */
8287 )
8288{
8289 assert(cons != NULL);
8290
8291 return cons->updatedeactivate;
8292}
8293
8294/** returns the depth in the tree at which the constraint is valid; returns INT_MAX, if the constraint is local
8295 * and currently not active
8296 */
8298 SCIP_CONS* cons /**< constraint */
8299 )
8300{
8301 assert(cons != NULL);
8302 assert(cons->validdepth == 0 || cons->local);
8303
8304 return (!cons->local ? 0
8305 : !SCIPconsIsActive(cons) ? INT_MAX
8306 : cons->validdepth == -1 ? SCIPconsGetActiveDepth(cons)
8307 : cons->validdepth);
8308}
8309
8310/** returns TRUE iff constraint is enabled in the current node */
8312 SCIP_CONS* cons /**< constraint */
8313 )
8314{
8315 assert(cons != NULL);
8316
8317 return cons->updateenable || (cons->enabled && !cons->updatedisable);
8318}
8319
8320/** returns TRUE iff constraint's separation is enabled in the current node */
8322 SCIP_CONS* cons /**< constraint */
8323 )
8324{
8325 assert(cons != NULL);
8326
8327 return SCIPconsIsEnabled(cons)
8328 && (cons->updatesepaenable || (cons->sepaenabled && !cons->updatesepadisable));
8329}
8330
8331/** returns TRUE iff constraint's propagation is enabled in the current node */
8333 SCIP_CONS* cons /**< constraint */
8334 )
8335{
8336 assert(cons != NULL);
8337
8338 return SCIPconsIsEnabled(cons)
8339 && (cons->updatepropenable || (cons->propenabled && !cons->updatepropdisable));
8340}
8341
8342/** returns TRUE iff constraint is deleted or marked to be deleted */
8344 SCIP_CONS* cons /**< constraint */
8345 )
8346{
8347 assert(cons != NULL);
8348
8349 return cons->deleted;
8350}
8351
8352/** returns TRUE iff constraint is marked obsolete */
8354 SCIP_CONS* cons /**< constraint */
8355 )
8356{
8357 assert(cons != NULL);
8358
8359 return cons->updateobsolete || cons->obsolete;
8360}
8361
8362/** returns TRUE iff constraint is marked as a conflict */
8364 SCIP_CONS* cons /**< constraint */
8365 )
8366{
8367 assert(cons != NULL);
8368
8369 return cons->conflict;
8370}
8371
8372/** gets age of constraint */
8374 SCIP_CONS* cons /**< constraint */
8375 )
8376{
8377 assert(cons != NULL);
8378
8379 return cons->age;
8380}
8381
8382/** returns TRUE iff the LP relaxation of constraint should be in the initial LP */
8384 SCIP_CONS* cons /**< constraint */
8385 )
8386{
8387 assert(cons != NULL);
8388
8389 return cons->initial;
8390}
8391
8392/** returns TRUE iff constraint should be separated during LP processing */
8394 SCIP_CONS* cons /**< constraint */
8395 )
8396{
8397 assert(cons != NULL);
8398
8399 return cons->separate;
8400}
8401
8402/** returns TRUE iff constraint should be enforced during node processing */
8404 SCIP_CONS* cons /**< constraint */
8405 )
8406{
8407 assert(cons != NULL);
8408
8409 return cons->enforce;
8410}
8411
8412/** returns TRUE iff constraint should be checked for feasibility */
8414 SCIP_CONS* cons /**< constraint */
8415 )
8416{
8417 assert(cons != NULL);
8418
8419 return cons->check;
8420}
8421
8422/** returns whether the constraint is marked for propagation */
8424 SCIP_CONS* cons /**< constraint */
8425 )
8426{
8427 assert(cons != NULL);
8428
8429 return (cons->updatemarkpropagate || (cons->markpropagate && !cons->updateunmarkpropagate));
8430}
8431
8432/** returns TRUE iff constraint should be propagated during node processing */
8434 SCIP_CONS* cons /**< constraint */
8435 )
8436{
8437 assert(cons != NULL);
8438
8439 return cons->propagate;
8440}
8441
8442/** returns TRUE iff constraint is globally valid */
8444 SCIP_CONS* cons /**< constraint */
8445 )
8446{
8447 assert(cons != NULL);
8448
8449 return !cons->local;
8450}
8451
8452/** returns TRUE iff constraint is only locally valid or not added to any (sub)problem */
8454 SCIP_CONS* cons /**< constraint */
8455 )
8456{
8457 assert(cons != NULL);
8458
8459 return cons->local;
8460}
8461
8462/** returns TRUE iff constraint is modifiable (subject to column generation) */
8464 SCIP_CONS* cons /**< constraint */
8465 )
8466{
8467 assert(cons != NULL);
8468
8469 return cons->modifiable;
8470}
8471
8472/** returns TRUE iff constraint is subject to aging */
8474 SCIP_CONS* cons /**< constraint */
8475 )
8476{
8477 assert(cons != NULL);
8478
8479 return cons->dynamic;
8480}
8481
8482/** returns TRUE iff constraint's relaxation should be removed from the LP due to aging or cleanup */
8484 SCIP_CONS* cons /**< constraint */
8485 )
8486{
8487 assert(cons != NULL);
8488
8489 return cons->removable;
8490}
8491
8492/** returns TRUE iff constraint's relaxation should be removed from the LP due to aging or cleanup */
8494 SCIP_CONS* cons /**< constraint */
8495 )
8496{
8497 assert(cons != NULL);
8498
8499 return cons->stickingatnode;
8500}
8501
8502/** returns TRUE iff constraint belongs to the global problem */
8504 SCIP_CONS* cons /**< constraint */
8505 )
8506{
8507 assert(cons != NULL);
8508
8509 return (cons->addconssetchg == NULL && cons->addarraypos >= 0);
8510}
8511
8512/** returns TRUE iff constraint is belonging to original space */
8514 SCIP_CONS* cons /**< constraint */
8515 )
8516{
8517 assert(cons != NULL);
8518
8519 return cons->original;
8520}
8521
8522/** returns TRUE iff constraint is belonging to transformed space */
8524 SCIP_CONS* cons /**< constraint */
8525 )
8526{
8527 assert(cons != NULL);
8528
8529 return !cons->original;
8530}
8531
8532/** returns TRUE iff roundings for variables in constraint are locked */
8534 SCIP_CONS* cons /**< constraint */
8535 )
8536{
8537 assert(cons != NULL);
8538
8539 return (cons->nlockspos[SCIP_LOCKTYPE_MODEL] > 0);
8540}
8541
8542/** returns TRUE iff roundings for variables in constraint's negation are locked */
8544 SCIP_CONS* cons /**< constraint */
8545 )
8546{
8547 assert(cons != NULL);
8548
8549 return (cons->nlocksneg[SCIP_LOCKTYPE_MODEL] > 0);
8550}
8551
8552/** returns TRUE iff roundings for variables in constraint or in constraint's negation are locked */
8554 SCIP_CONS* cons /**< constraint */
8555 )
8556{
8557 assert(cons != NULL);
8558
8559 return (cons->nlockspos[SCIP_LOCKTYPE_MODEL] > 0 || cons->nlocksneg[SCIP_LOCKTYPE_MODEL] > 0);
8560}
8561
8562/** get number of times the roundings for variables in constraint are locked */
8564 SCIP_CONS* cons /**< constraint */
8565 )
8566{
8567 assert(cons != NULL);
8568
8569 return cons->nlockspos[SCIP_LOCKTYPE_MODEL];
8570}
8571
8572/** get number of times the roundings for variables in constraint's negation are locked */
8574 SCIP_CONS* cons /**< constraint */
8575 )
8576{
8577 assert(cons != NULL);
8578
8579 return cons->nlocksneg[SCIP_LOCKTYPE_MODEL];
8580}
8581
8582/** returns TRUE iff roundings of the given locktype for variables in constraint are locked */
8584 SCIP_CONS* cons, /**< constraint */
8585 SCIP_LOCKTYPE locktype /**< variable lock type */
8586 )
8587{
8588 assert(cons != NULL);
8589 assert((int)locktype >= 0 && (int)locktype < (int)NLOCKTYPES); /*lint !e685 !e568 !e587 !e650*/
8590
8591 return (cons->nlockspos[locktype] > 0);
8592}
8593
8594/** returns TRUE iff roundings of the given locktype for variables in constraint are locked */
8596 SCIP_CONS* cons, /**< constraint */
8597 SCIP_LOCKTYPE locktype /**< variable lock type */
8598 )
8599{
8600 assert(cons != NULL);
8601 assert((int)locktype >= 0 && (int)locktype < (int)NLOCKTYPES); /*lint !e685 !e568 !e587 !e650*/
8602
8603 return (cons->nlocksneg[locktype] > 0);
8604}
8605
8606/** returns TRUE iff roundings of given locktype for variables in constraint or in constraint's negation are locked */
8608 SCIP_CONS* cons, /**< constraint */
8609 SCIP_LOCKTYPE locktype /**< variable lock type */
8610 )
8611{
8612 assert(cons != NULL);
8613 assert((int)locktype >= 0 && (int)locktype < (int)NLOCKTYPES); /*lint !e685 !e568 !e587 !e650*/
8614
8615 return (cons->nlockspos[locktype] > 0 || cons->nlocksneg[locktype] > 0);
8616}
8617
8618/** get number of times the roundings of given locktype for variables in constraint are locked */
8620 SCIP_CONS* cons, /**< constraint */
8621 SCIP_LOCKTYPE locktype /**< variable lock type */
8622 )
8623{
8624 assert(cons != NULL);
8625 assert((int)locktype >= 0 && (int)locktype < (int)NLOCKTYPES); /*lint !e685 !e568 !e587 !e650*/
8626
8627 return cons->nlockspos[locktype];
8628}
8629
8630/** get number of times the roundings of given locktype for variables in constraint's negation are locked */
8632 SCIP_CONS* cons, /**< constraint */
8633 SCIP_LOCKTYPE locktype /**< variable lock type */
8634 )
8635{
8636 assert(cons != NULL);
8637 assert((int)locktype >= 0 && (int)locktype < (int)NLOCKTYPES); /*lint !e685 !e568 !e587 !e650*/
8638
8639 return cons->nlocksneg[locktype];
8640}
8641
8642/** returns if the constraint was already added to a SCIP instance */
8644 SCIP_CONS* cons /**< constraint */
8645 )
8646{
8647 assert(cons != NULL);
8648
8649 return (cons->addarraypos >= 0);
8650}
8651
8652/** adds locks to (dis-)allow upgrading of constraint */
8654 SCIP_CONS* cons, /**< constraint to add locks */
8655 int nlocks /**< number of locks to add */
8656 )
8657{
8658 assert(cons != NULL);
8659
8660 assert(cons->nupgradelocks < (1 << 28) - nlocks); /*lint !e574*/
8661 cons->nupgradelocks += (unsigned int) nlocks;
8662}
8663
8664/** gets number of locks against upgrading the constraint, 0 means this constraint can be upgraded */
8666 SCIP_CONS* cons /**< constraint */
8667 )
8668{
8669 assert(cons != NULL);
8670
8671 return (int) cons->nupgradelocks;
8672}
SCIP_DECL_CONSENFOPS(ConshdlrSubtour::scip_enfops)
SCIP_DECL_CONSSEPASOL(ConshdlrSubtour::scip_sepasol)
SCIP_DECL_CONSLOCK(ConshdlrSubtour::scip_lock)
SCIP_DECL_CONSDELETE(ConshdlrSubtour::scip_delete)
SCIP_DECL_CONSCOPY(ConshdlrSubtour::scip_copy)
SCIP_DECL_CONSSEPALP(ConshdlrSubtour::scip_sepalp)
SCIP_DECL_CONSTRANS(ConshdlrSubtour::scip_trans)
SCIP_DECL_CONSDELVARS(ConshdlrSubtour::scip_delvars)
SCIP_DECL_CONSPRINT(ConshdlrSubtour::scip_print)
SCIP_DECL_CONSCHECK(ConshdlrSubtour::scip_check)
SCIP_DECL_CONSPROP(ConshdlrSubtour::scip_prop)
SCIP_DECL_CONSENFOLP(ConshdlrSubtour::scip_enfolp)
static GRAPHNODE ** active
int SCIPbranchcandGetNPseudoCands(SCIP_BRANCHCAND *branchcand)
Definition: branch.c:852
internal methods for branching rules and branching candidate storage
void SCIPclockStop(SCIP_CLOCK *clck, SCIP_SET *set)
Definition: clock.c:360
void SCIPclockEnableOrDisable(SCIP_CLOCK *clck, SCIP_Bool enable)
Definition: clock.c:260
void SCIPclockStart(SCIP_CLOCK *clck, SCIP_SET *set)
Definition: clock.c:290
SCIP_Real SCIPclockGetTime(SCIP_CLOCK *clck)
Definition: clock.c:438
void SCIPclockReset(SCIP_CLOCK *clck)
Definition: clock.c:209
void SCIPclockFree(SCIP_CLOCK **clck)
Definition: clock.c:185
SCIP_RETCODE SCIPclockCreate(SCIP_CLOCK **clck, SCIP_CLOCKTYPE clocktype)
Definition: clock.c:170
internal methods for clocks and timing issues
SCIP_RETCODE SCIPconshdlrsStorePropagationStatus(SCIP_SET *set, SCIP_CONSHDLR **conshdlrs, int nconshdlrs)
Definition: cons.c:7951
static SCIP_RETCODE conshdlrAddInitcons(SCIP_CONSHDLR *conshdlr, SCIP_SET *set, SCIP_STAT *stat, SCIP_CONS *cons)
Definition: cons.c:816
void SCIPconshdlrSetFree(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSFREE((*consfree)))
Definition: cons.c:4304
SCIP_RETCODE SCIPconsAddLocks(SCIP_CONS *cons, SCIP_SET *set, SCIP_LOCKTYPE locktype, int nlockspos, int nlocksneg)
Definition: cons.c:7378
SCIP_RETCODE SCIPconshdlrSeparateLP(SCIP_CONSHDLR *conshdlr, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_STAT *stat, SCIP_SEPASTORE *sepastore, int depth, SCIP_Bool execdelayed, SCIP_RESULT *result)
Definition: cons.c:2877
void SCIPconshdlrSetInitsol(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSINITSOL((*consinitsol)))
Definition: cons.c:4337
SCIP_RETCODE SCIPconsParse(SCIP_CONS **cons, SCIP_SET *set, SCIP_MESSAGEHDLR *messagehdlr, const char *str, SCIP_Bool initial, SCIP_Bool separate, SCIP_Bool enforce, SCIP_Bool check, SCIP_Bool propagate, SCIP_Bool local, SCIP_Bool modifiable, SCIP_Bool dynamic, SCIP_Bool removable, SCIP_Bool stickingatnode, SCIP_Bool *success)
Definition: cons.c:6074
SCIP_RETCODE SCIPconssetchgUndo(SCIP_CONSSETCHG *conssetchg, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_STAT *stat)
Definition: cons.c:5694
SCIP_RETCODE SCIPconsEnableSeparation(SCIP_CONS *cons, SCIP_SET *set)
Definition: cons.c:7002
static SCIP_RETCODE conssetchgEnsureAddedconssSize(SCIP_CONSSETCHG *conssetchg, BMS_BLKMEM *blkmem, SCIP_SET *set, int num)
Definition: cons.c:5394
void SCIPconshdlrSetTrans(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSTRANS((*constrans)))
Definition: cons.c:4421
SCIP_RETCODE SCIPconshdlrSetPresol(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSPRESOL((*conspresol)), int maxprerounds, SCIP_PRESOLTIMING presoltiming)
Definition: cons.c:4381
void SCIPconshdlrIncNCutsFound(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4930
SCIP_RETCODE SCIPconshdlrInit(SCIP_CONSHDLR *conshdlr, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_STAT *stat)
Definition: cons.c:2411
static SCIP_RETCODE conssetchgDelAddedCons(SCIP_CONSSETCHG *conssetchg, BMS_BLKMEM *blkmem, SCIP_SET *set, int arraypos)
Definition: cons.c:5518
static SCIP_RETCODE conshdlrEnableCons(SCIP_CONSHDLR *conshdlr, SCIP_SET *set, SCIP_STAT *stat, SCIP_CONS *cons)
Definition: cons.c:1404
void SCIPconsMarkConflict(SCIP_CONS *cons)
Definition: cons.c:7120
SCIP_RETCODE SCIPconsEnable(SCIP_CONS *cons, SCIP_SET *set, SCIP_STAT *stat)
Definition: cons.c:6935
void SCIPconsCapture(SCIP_CONS *cons)
Definition: cons.c:6254
SCIP_RETCODE SCIPconsProp(SCIP_CONS *cons, SCIP_SET *set, SCIP_PROPTIMING proptiming, SCIP_RESULT *result)
Definition: cons.c:7702
static SCIP_RETCODE conssetchgCreate(SCIP_CONSSETCHG **conssetchg, BMS_BLKMEM *blkmem)
Definition: cons.c:5318
SCIP_RETCODE SCIPconsPrint(SCIP_CONS *cons, SCIP_SET *set, SCIP_MESSAGEHDLR *messagehdlr, FILE *file)
Definition: cons.c:6306
SCIP_RETCODE SCIPconsCreate(SCIP_CONS **cons, BMS_BLKMEM *blkmem, SCIP_SET *set, const char *name, SCIP_CONSHDLR *conshdlr, SCIP_CONSDATA *consdata, SCIP_Bool initial, SCIP_Bool separate, SCIP_Bool enforce, SCIP_Bool check, SCIP_Bool propagate, SCIP_Bool local, SCIP_Bool modifiable, SCIP_Bool dynamic, SCIP_Bool removable, SCIP_Bool stickingatnode, SCIP_Bool original, SCIP_Bool deleteconsdata)
Definition: cons.c:5876
void SCIPconshdlrIncNAppliedCuts(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4920
static SCIP_RETCODE conshdlrEnsureCheckconssMem(SCIP_CONSHDLR *conshdlr, SCIP_SET *set, int num)
Definition: cons.c:170
static void conshdlrDelPropcons(SCIP_CONSHDLR *conshdlr, SCIP_CONS *cons)
Definition: cons.c:1225
static SCIP_Bool conshdlrAreUpdatesDelayed(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:323
void SCIPconsSetLocal(SCIP_CONS *cons, SCIP_Bool local)
Definition: cons.c:6776
SCIP_RETCODE SCIPconsMarkPropagate(SCIP_CONS *cons, SCIP_SET *set)
Definition: cons.c:7130
void SCIPconshdlrSetInit(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSINIT((*consinit)))
Definition: cons.c:4315
void SCIPconshdlrSetDelete(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSDELETE((*consdelete)))
Definition: cons.c:4410
SCIP_RETCODE SCIPconshdlrEnforceRelaxSol(SCIP_CONSHDLR *conshdlr, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_STAT *stat, SCIP_TREE *tree, SCIP_SEPASTORE *sepastore, SCIP_SOL *relaxsol, SCIP_Bool solinfeasible, SCIP_RESULT *result)
Definition: cons.c:3163
static SCIP_RETCODE conshdlrDisableConsSeparation(SCIP_CONSHDLR *conshdlr, SCIP_CONS *cons)
Definition: cons.c:1315
static SCIP_Real conshdlrGetAgeresetavg(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:332
static SCIP_RETCODE conssetchgEnsureDisabledconssSize(SCIP_CONSSETCHG *conssetchg, BMS_BLKMEM *blkmem, SCIP_SET *set, int num)
Definition: cons.c:5418
SCIP_RETCODE SCIPconsDeactivate(SCIP_CONS *cons, SCIP_SET *set, SCIP_STAT *stat)
Definition: cons.c:6900
void SCIPconshdlrSetParse(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSPARSE((*consparse)))
Definition: cons.c:4520
static SCIP_RETCODE conshdlrEnsurePropconssMem(SCIP_CONSHDLR *conshdlr, SCIP_SET *set, int num)
Definition: cons.c:194
SCIP_RETCODE SCIPconshdlrExitsol(SCIP_CONSHDLR *conshdlr, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_STAT *stat, SCIP_Bool restart)
Definition: cons.c:2733
void SCIPconshdlrSetGetPermsymGraph(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSGETPERMSYMGRAPH((*consgetpermsymgraph)))
Definition: cons.c:4564
SCIP_RETCODE SCIPconshdlrSeparateSol(SCIP_CONSHDLR *conshdlr, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_STAT *stat, SCIP_SEPASTORE *sepastore, SCIP_SOL *sol, int depth, SCIP_Bool execdelayed, SCIP_RESULT *result)
Definition: cons.c:3034
void SCIPconshdlrSetGetNVars(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSGETNVARS((*consgetnvars)))
Definition: cons.c:4542
SCIP_RETCODE SCIPconsDisable(SCIP_CONS *cons, SCIP_SET *set, SCIP_STAT *stat)
Definition: cons.c:6968
SCIP_RETCODE SCIPconsDeactive(SCIP_CONS *cons, SCIP_SET *set)
Definition: cons.c:7882
static SCIP_RETCODE conshdlrMarkConsObsolete(SCIP_CONSHDLR *conshdlr, SCIP_CONS *cons)
Definition: cons.c:388
SCIP_RETCODE SCIPconshdlrLockVars(SCIP_CONSHDLR *conshdlr, SCIP_SET *set)
Definition: cons.c:4167
void SCIPconshdlrSetActive(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSACTIVE((*consactive)))
Definition: cons.c:4454
SCIP_RETCODE SCIPconshdlrEnforceLPSol(SCIP_CONSHDLR *conshdlr, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_STAT *stat, SCIP_TREE *tree, SCIP_SEPASTORE *sepastore, SCIP_Bool solinfeasible, SCIP_RESULT *result)
Definition: cons.c:3351
SCIP_RETCODE SCIPconsGetPermsymGraph(SCIP_CONS *cons, SCIP_SET *set, SYM_GRAPH *graph, SCIP_Bool *success)
Definition: cons.c:6416
SCIP_RETCODE SCIPconsGetNVars(SCIP_CONS *cons, SCIP_SET *set, int *nvars, SCIP_Bool *success)
Definition: cons.c:6381
static SCIP_RETCODE conshdlrEnsureUpdateconssMem(SCIP_CONSHDLR *conshdlr, SCIP_SET *set, int num)
Definition: cons.c:218
void SCIPconshdlrSetInitpre(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSINITPRE((*consinitpre)))
Definition: cons.c:4359
void SCIPconsSetStickingAtNode(SCIP_CONS *cons, SCIP_Bool stickingatnode)
Definition: cons.c:6822
SCIP_RETCODE SCIPconsSetSeparated(SCIP_CONS *cons, SCIP_SET *set, SCIP_Bool separate)
Definition: cons.c:6623
#define checkConssArrays(conshdlr)
Definition: cons.c:247
SCIP_RETCODE SCIPconsSepalp(SCIP_CONS *cons, SCIP_SET *set, SCIP_RESULT *result)
Definition: cons.c:7618
static SCIP_RETCODE conssetchgRelease(SCIP_CONSSETCHG *conssetchg, BMS_BLKMEM *blkmem, SCIP_SET *set)
Definition: cons.c:5339
static SCIP_RETCODE conshdlrProcessUpdates(SCIP_CONSHDLR *conshdlr, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_STAT *stat)
Definition: cons.c:1689
SCIP_RETCODE SCIPconsEnfops(SCIP_CONS *cons, SCIP_SET *set, SCIP_Bool solinfeasible, SCIP_Bool objinfeasible, SCIP_RESULT *result)
Definition: cons.c:7462
SCIP_RETCODE SCIPconsActive(SCIP_CONS *cons, SCIP_SET *set)
Definition: cons.c:7858
#define AGERESETAVG_AGELIMIT
Definition: cons.c:58
SCIP_RETCODE SCIPconsResetAge(SCIP_CONS *cons, SCIP_SET *set)
Definition: cons.c:7277
static SCIP_RETCODE conshdlrEnsureInitconssMem(SCIP_CONSHDLR *conshdlr, SCIP_SET *set, int num)
Definition: cons.c:98
static SCIP_RETCODE conshdlrAddCheckcons(SCIP_CONSHDLR *conshdlr, SCIP_SET *set, SCIP_CONS *cons)
Definition: cons.c:1086
static SCIP_RETCODE ensurePropagationStorage(SCIP_SET *set, SCIP_CONSHDLR *conshdlr, int num)
Definition: cons.c:7927
SCIP_RETCODE SCIPconsResprop(SCIP_CONS *cons, SCIP_SET *set, SCIP_VAR *infervar, int inferinfo, SCIP_BOUNDTYPE boundtype, SCIP_BDCHGIDX *bdchgidx, SCIP_Real relaxedbd, SCIP_RESULT *result)
Definition: cons.c:7742
void SCIPconsSetRemovable(SCIP_CONS *cons, SCIP_Bool removable)
Definition: cons.c:6811
SCIP_RETCODE SCIPconshdlrCreate(SCIP_CONSHDLR **conshdlr, SCIP_SET *set, SCIP_MESSAGEHDLR *messagehdlr, BMS_BLKMEM *blkmem, const char *name, const char *desc, int sepapriority, int enfopriority, int checkpriority, int sepafreq, int propfreq, int eagerfreq, int maxprerounds, SCIP_Bool delaysepa, SCIP_Bool delayprop, SCIP_Bool needscons, SCIP_PROPTIMING proptiming, SCIP_PRESOLTIMING presoltiming, SCIP_DECL_CONSHDLRCOPY((*conshdlrcopy)), SCIP_DECL_CONSFREE((*consfree)), SCIP_DECL_CONSINIT((*consinit)), SCIP_DECL_CONSEXIT((*consexit)), SCIP_DECL_CONSINITPRE((*consinitpre)), SCIP_DECL_CONSEXITPRE((*consexitpre)), SCIP_DECL_CONSINITSOL((*consinitsol)), SCIP_DECL_CONSEXITSOL((*consexitsol)), SCIP_DECL_CONSDELETE((*consdelete)), SCIP_DECL_CONSTRANS((*constrans)), SCIP_DECL_CONSINITLP((*consinitlp)), SCIP_DECL_CONSSEPALP((*conssepalp)), SCIP_DECL_CONSSEPASOL((*conssepasol)), SCIP_DECL_CONSENFOLP((*consenfolp)), SCIP_DECL_CONSENFORELAX((*consenforelax)), SCIP_DECL_CONSENFOPS((*consenfops)), SCIP_DECL_CONSCHECK((*conscheck)), SCIP_DECL_CONSPROP((*consprop)), SCIP_DECL_CONSPRESOL((*conspresol)), SCIP_DECL_CONSRESPROP((*consresprop)), SCIP_DECL_CONSLOCK((*conslock)), SCIP_DECL_CONSACTIVE((*consactive)), SCIP_DECL_CONSDEACTIVE((*consdeactive)), SCIP_DECL_CONSENABLE((*consenable)), SCIP_DECL_CONSDISABLE((*consdisable)), SCIP_DECL_CONSDELVARS((*consdelvars)), SCIP_DECL_CONSPRINT((*consprint)), SCIP_DECL_CONSCOPY((*conscopy)), SCIP_DECL_CONSPARSE((*consparse)), SCIP_DECL_CONSGETVARS((*consgetvars)), SCIP_DECL_CONSGETNVARS((*consgetnvars)), SCIP_DECL_CONSGETDIVEBDCHGS((*consgetdivebdchgs)), SCIP_DECL_CONSGETPERMSYMGRAPH((*consgetpermsymgraph)), SCIP_DECL_CONSGETSIGNEDPERMSYMGRAPH((*consgetsignedpermsymgraph)), SCIP_CONSHDLRDATA *conshdlrdata)
Definition: cons.c:2286
void SCIPconshdlrEnableOrDisableClocks(SCIP_CONSHDLR *conshdlr, SCIP_Bool enable)
Definition: cons.c:4700
static SCIP_RETCODE conssetchgDelDisabledCons(SCIP_CONSSETCHG *conssetchg, BMS_BLKMEM *blkmem, SCIP_SET *set, int arraypos)
Definition: cons.c:5564
SCIP_RETCODE SCIPconsTransform(SCIP_CONS *origcons, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_CONS **transcons)
Definition: cons.c:6539
static SCIP_Bool consExceedsAgelimit(SCIP_CONS *cons, SCIP_SET *set)
Definition: cons.c:356
static SCIP_RETCODE conshdlrAddSepacons(SCIP_CONSHDLR *conshdlr, SCIP_SET *set, SCIP_CONS *cons)
Definition: cons.c:887
SCIP_RETCODE SCIPconsCheck(SCIP_CONS *cons, SCIP_SET *set, SCIP_SOL *sol, SCIP_Bool checkintegrality, SCIP_Bool checklprows, SCIP_Bool printreason, SCIP_RESULT *result)
Definition: cons.c:7424
#define AGERESETAVG_OBSOLETEAGE
Definition: cons.c:60
static void conshdlrDelEnfocons(SCIP_CONSHDLR *conshdlr, SCIP_CONS *cons)
Definition: cons.c:1034
SCIP_RETCODE SCIPconssetchgAddAddedCons(SCIP_CONSSETCHG **conssetchg, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_STAT *stat, SCIP_CONS *cons, int depth, SCIP_Bool focusnode, SCIP_Bool active)
Definition: cons.c:5443
SCIP_RETCODE SCIPconshdlrInitLP(SCIP_CONSHDLR *conshdlr, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_STAT *stat, SCIP_TREE *tree, SCIP_Bool initkeptconss, SCIP_Bool *cutoff)
Definition: cons.c:2770
static SCIP_RETCODE conshdlrDisableConsPropagation(SCIP_CONSHDLR *conshdlr, SCIP_CONS *cons)
Definition: cons.c:1375
static SCIP_RETCODE conshdlrEnsureConssMem(SCIP_CONSHDLR *conshdlr, SCIP_SET *set, int num)
Definition: cons.c:74
#define AGERESETAVG_MIN
Definition: cons.c:56
void SCIPconshdlrSetDisable(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSDISABLE((*consdisable)))
Definition: cons.c:4487
static void conshdlrUnmarkConsPropagate(SCIP_CONSHDLR *conshdlr, SCIP_CONS *cons)
Definition: cons.c:698
static void conshdlrMarkConsPropagate(SCIP_CONSHDLR *conshdlr, SCIP_CONS *cons)
Definition: cons.c:623
SCIP_RETCODE SCIPconsAddAge(SCIP_CONS *cons, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_STAT *stat, SCIP_PROB *prob, SCIP_Real deltaage, SCIP_REOPT *reopt)
Definition: cons.c:7197
void SCIPconshdlrSetGetSignedPermsymGraph(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSGETSIGNEDPERMSYMGRAPH((*consgetsignedpermsymgraph)))
Definition: cons.c:4576
SCIP_RETCODE SCIPconsEnablePropagation(SCIP_CONS *cons, SCIP_SET *set)
Definition: cons.c:7060
static void conshdlrDelCheckcons(SCIP_CONSHDLR *conshdlr, SCIP_CONS *cons)
Definition: cons.c:1130
static void conshdlrDelayUpdates(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:1883
SCIP_DECL_HASHGETKEY(SCIPhashGetKeyCons)
Definition: cons.c:7912
static void conshdlrDelInitcons(SCIP_CONSHDLR *conshdlr, SCIP_CONS *cons)
Definition: cons.c:852
static SCIP_RETCODE conshdlrForceUpdates(SCIP_CONSHDLR *conshdlr, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_STAT *stat)
Definition: cons.c:1899
SCIP_RETCODE SCIPconsEnfolp(SCIP_CONS *cons, SCIP_SET *set, SCIP_Bool solinfeasible, SCIP_RESULT *result)
Definition: cons.c:7506
static SCIP_RETCODE conshdlrAddCons(SCIP_CONSHDLR *conshdlr, SCIP_SET *set, SCIP_CONS *cons)
Definition: cons.c:770
SCIP_RETCODE SCIPconsSetInitial(SCIP_CONS *cons, SCIP_SET *set, SCIP_STAT *stat, SCIP_Bool initial)
Definition: cons.c:6589
SCIP_RETCODE SCIPconssetchgFree(SCIP_CONSSETCHG **conssetchg, BMS_BLKMEM *blkmem, SCIP_SET *set)
Definition: cons.c:5369
static SCIP_RETCODE conshdlrEnsureEnfoconssMem(SCIP_CONSHDLR *conshdlr, SCIP_SET *set, int num)
Definition: cons.c:146
SCIP_RETCODE SCIPconsChgName(SCIP_CONS *cons, BMS_BLKMEM *blkmem, const char *name)
Definition: cons.c:6179
static SCIP_RETCODE conshdlrDisableCons(SCIP_CONSHDLR *conshdlr, SCIP_SET *set, SCIP_STAT *stat, SCIP_CONS *cons)
Definition: cons.c:1466
SCIP_RETCODE SCIPconsIncAge(SCIP_CONS *cons, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_STAT *stat, SCIP_PROB *prob, SCIP_REOPT *reopt)
Definition: cons.c:7256
void SCIPconshdlrSetExitsol(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSEXITSOL((*consexitsol)))
Definition: cons.c:4348
static SCIP_Bool consExceedsObsoleteage(SCIP_CONS *cons, SCIP_SET *set)
Definition: cons.c:371
SCIP_RETCODE SCIPconshdlrInitpre(SCIP_CONSHDLR *conshdlr, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_STAT *stat)
Definition: cons.c:2567
void SCIPconsSetDynamic(SCIP_CONS *cons, SCIP_Bool dynamic)
Definition: cons.c:6800
SCIP_RETCODE SCIPconsSepasol(SCIP_CONS *cons, SCIP_SET *set, SCIP_SOL *sol, SCIP_RESULT *result)
Definition: cons.c:7659
SCIP_RETCODE SCIPconsFree(SCIP_CONS **cons, BMS_BLKMEM *blkmem, SCIP_SET *set)
Definition: cons.c:6199
static SCIP_RETCODE conshdlrMarkConsUseful(SCIP_CONSHDLR *conshdlr, SCIP_CONS *cons)
Definition: cons.c:518
static SCIP_RETCODE conshdlrEnableConsPropagation(SCIP_CONSHDLR *conshdlr, SCIP_SET *set, SCIP_CONS *cons)
Definition: cons.c:1344
SCIP_RETCODE SCIPconssetchgAddDisabledCons(SCIP_CONSSETCHG **conssetchg, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_CONS *cons)
Definition: cons.c:5489
SCIP_RETCODE SCIPconsDelete(SCIP_CONS *cons, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_STAT *stat, SCIP_PROB *prob, SCIP_REOPT *reopt)
Definition: cons.c:6479
SCIP_RETCODE SCIPconsPresol(SCIP_CONS *cons, SCIP_SET *set, int nrounds, SCIP_PRESOLTIMING timing, int nnewfixedvars, int nnewaggrvars, int nnewchgvartypes, int nnewchgbds, int nnewholes, int nnewdelconss, int nnewaddconss, int nnewupgdconss, int nnewchgcoefs, int nnewchgsides, int *nfixedvars, int *naggrvars, int *nchgvartypes, int *nchgbds, int *naddholes, int *ndelconss, int *naddconss, int *nupgdconss, int *nchgcoefs, int *nchgsides, SCIP_RESULT *result)
Definition: cons.c:7784
SCIP_RETCODE SCIPconsDisablePropagation(SCIP_CONS *cons, SCIP_SET *set)
Definition: cons.c:7090
void SCIPconshdlrSetResprop(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSRESPROP((*consresprop)))
Definition: cons.c:4443
SCIP_RETCODE SCIPconsCopy(SCIP_CONS **cons, SCIP_SET *set, const char *name, SCIP *sourcescip, SCIP_CONSHDLR *sourceconshdlr, SCIP_CONS *sourcecons, SCIP_HASHMAP *varmap, SCIP_HASHMAP *consmap, SCIP_Bool initial, SCIP_Bool separate, SCIP_Bool enforce, SCIP_Bool check, SCIP_Bool propagate, SCIP_Bool local, SCIP_Bool modifiable, SCIP_Bool dynamic, SCIP_Bool removable, SCIP_Bool stickingatnode, SCIP_Bool global, SCIP_Bool *valid)
Definition: cons.c:6018
static void conshdlrDelCons(SCIP_CONSHDLR *conshdlr, SCIP_CONS *cons)
Definition: cons.c:796
SCIP_RETCODE SCIPconsRelease(SCIP_CONS **cons, BMS_BLKMEM *blkmem, SCIP_SET *set)
Definition: cons.c:6266
void SCIPconshdlrSetInitlp(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSINITLP((*consinitlp)))
Definition: cons.c:4432
SCIP_RETCODE SCIPconsResolvePropagation(SCIP_CONS *cons, SCIP_SET *set, SCIP_VAR *infervar, int inferinfo, SCIP_BOUNDTYPE inferboundtype, SCIP_BDCHGIDX *bdchgidx, SCIP_Real relaxedbd, SCIP_RESULT *result)
Definition: cons.c:7318
SCIP_RETCODE SCIPconsSetPropagated(SCIP_CONS *cons, SCIP_SET *set, SCIP_Bool propagate)
Definition: cons.c:6741
SCIP_RETCODE SCIPconsDisableSeparation(SCIP_CONS *cons, SCIP_SET *set)
Definition: cons.c:7032
void SCIPconshdlrSetGetDiveBdChgs(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSGETDIVEBDCHGS((*consgetdivebdchgs)))
Definition: cons.c:4553
static SCIP_RETCODE conshdlrEnsureSepaconssMem(SCIP_CONSHDLR *conshdlr, SCIP_SET *set, int num)
Definition: cons.c:122
SCIP_RETCODE SCIPconsGetSignedPermsymGraph(SCIP_CONS *cons, SCIP_SET *set, SYM_GRAPH *graph, SCIP_Bool *success)
Definition: cons.c:6449
#define AGERESETAVG_INIT
Definition: cons.c:55
SCIP_RETCODE SCIPconshdlrUnlockVars(SCIP_CONSHDLR *conshdlr, SCIP_SET *set)
Definition: cons.c:4182
SCIP_RETCODE SCIPconsSetChecked(SCIP_CONS *cons, SCIP_SET *set, SCIP_Bool check)
Definition: cons.c:6693
SCIP_RETCODE SCIPconsInitlp(SCIP_CONS *cons, SCIP_SET *set, SCIP_Bool *infeasible)
Definition: cons.c:7592
SCIP_RETCODE SCIPconsEnforelax(SCIP_CONS *cons, SCIP_SET *set, SCIP_SOL *sol, SCIP_Bool solinfeasible, SCIP_RESULT *result)
Definition: cons.c:7548
static SCIP_RETCODE conshdlrAddUpdateCons(SCIP_CONSHDLR *conshdlr, SCIP_SET *set, SCIP_CONS *cons)
Definition: cons.c:1925
static SCIP_RETCODE doConshdlrCreate(SCIP_CONSHDLR **conshdlr, SCIP_SET *set, SCIP_MESSAGEHDLR *messagehdlr, BMS_BLKMEM *blkmem, const char *name, const char *desc, int sepapriority, int enfopriority, int checkpriority, int sepafreq, int propfreq, int eagerfreq, int maxprerounds, SCIP_Bool delaysepa, SCIP_Bool delayprop, SCIP_Bool needscons, SCIP_PROPTIMING proptiming, SCIP_PRESOLTIMING presoltiming, SCIP_DECL_CONSHDLRCOPY((*conshdlrcopy)), SCIP_DECL_CONSFREE((*consfree)), SCIP_DECL_CONSINIT((*consinit)), SCIP_DECL_CONSEXIT((*consexit)), SCIP_DECL_CONSINITPRE((*consinitpre)), SCIP_DECL_CONSEXITPRE((*consexitpre)), SCIP_DECL_CONSINITSOL((*consinitsol)), SCIP_DECL_CONSEXITSOL((*consexitsol)), SCIP_DECL_CONSDELETE((*consdelete)), SCIP_DECL_CONSTRANS((*constrans)), SCIP_DECL_CONSINITLP((*consinitlp)), SCIP_DECL_CONSSEPALP((*conssepalp)), SCIP_DECL_CONSSEPASOL((*conssepasol)), SCIP_DECL_CONSENFOLP((*consenfolp)), SCIP_DECL_CONSENFORELAX((*consenforelax)), SCIP_DECL_CONSENFOPS((*consenfops)), SCIP_DECL_CONSCHECK((*conscheck)), SCIP_DECL_CONSPROP((*consprop)), SCIP_DECL_CONSPRESOL((*conspresol)), SCIP_DECL_CONSRESPROP((*consresprop)), SCIP_DECL_CONSLOCK((*conslock)), SCIP_DECL_CONSACTIVE((*consactive)), SCIP_DECL_CONSDEACTIVE((*consdeactive)), SCIP_DECL_CONSENABLE((*consenable)), SCIP_DECL_CONSDISABLE((*consdisable)), SCIP_DECL_CONSDELVARS((*consdelvars)), SCIP_DECL_CONSPRINT((*consprint)), SCIP_DECL_CONSCOPY((*conscopy)), SCIP_DECL_CONSPARSE((*consparse)), SCIP_DECL_CONSGETVARS((*consgetvars)), SCIP_DECL_CONSGETNVARS((*consgetnvars)), SCIP_DECL_CONSGETDIVEBDCHGS((*consgetdivebdchgs)), SCIP_DECL_CONSGETPERMSYMGRAPH((*consgetpermsymgraph)), SCIP_DECL_CONSGETSIGNEDPERMSYMGRAPH((*consgetsignedpermsymgraph)), SCIP_CONSHDLRDATA *conshdlrdata)
Definition: cons.c:2002
SCIP_RETCODE SCIPconshdlrsResetPropagationStatus(SCIP_SET *set, BMS_BLKMEM *blkmem, SCIP_CONSHDLR **conshdlrs, int nconshdlrs)
Definition: cons.c:7991
void SCIPconshdlrSetExit(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSEXIT((*consexit)))
Definition: cons.c:4326
SCIP_RETCODE SCIPconshdlrCopyInclude(SCIP_CONSHDLR *conshdlr, SCIP_SET *set, SCIP_Bool *valid)
Definition: cons.c:1980
SCIP_RETCODE SCIPconsActivate(SCIP_CONS *cons, SCIP_SET *set, SCIP_STAT *stat, int depth, SCIP_Bool focusnode)
Definition: cons.c:6858
static SCIP_RETCODE conshdlrAddEnfocons(SCIP_CONSHDLR *conshdlr, SCIP_SET *set, SCIP_CONS *cons)
Definition: cons.c:977
static SCIP_RETCODE conshdlrEnableConsSeparation(SCIP_CONSHDLR *conshdlr, SCIP_SET *set, SCIP_CONS *cons)
Definition: cons.c:1284
void SCIPconshdlrSetCopy(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSHDLRCOPY((*conshdlrcopy)), SCIP_DECL_CONSCOPY((*conscopy)))
Definition: cons.c:4289
void SCIPconshdlrSetDelvars(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSDELVARS((*consdelvars)))
Definition: cons.c:4498
static void conshdlrDelSepacons(SCIP_CONSHDLR *conshdlr, SCIP_CONS *cons)
Definition: cons.c:931
void SCIPconshdlrSetEnable(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSENABLE((*consenable)))
Definition: cons.c:4476
SCIP_CONS * SCIPconsGetTransformed(SCIP_CONS *cons)
Definition: cons.c:6848
#define AGERESETAVG_DECAY
Definition: cons.c:57
void SCIPconshdlrSetPrint(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSPRINT((*consprint)))
Definition: cons.c:4509
SCIP_RETCODE SCIPconshdlrPropagate(SCIP_CONSHDLR *conshdlr, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_STAT *stat, int depth, SCIP_Bool fullpropagation, SCIP_Bool execdelayed, SCIP_Bool instrongbranching, SCIP_PROPTIMING proptiming, SCIP_RESULT *result)
Definition: cons.c:3822
SCIP_RETCODE SCIPconsUnmarkPropagate(SCIP_CONS *cons, SCIP_SET *set)
Definition: cons.c:7160
SCIP_RETCODE SCIPconshdlrGetDiveBoundChanges(SCIP_CONSHDLR *conshdlr, SCIP_SET *set, SCIP_DIVESET *diveset, SCIP_SOL *sol, SCIP_Bool *success, SCIP_Bool *infeasible)
Definition: cons.c:3529
static void conshdlrUpdateAgeresetavg(SCIP_CONSHDLR *conshdlr, SCIP_Real age)
Definition: cons.c:343
void SCIPconshdlrSetDeactive(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSDEACTIVE((*consdeactive)))
Definition: cons.c:4465
static SCIP_RETCODE conshdlrAddPropcons(SCIP_CONSHDLR *conshdlr, SCIP_SET *set, SCIP_CONS *cons)
Definition: cons.c:1169
SCIP_RETCODE SCIPconshdlrPresolve(SCIP_CONSHDLR *conshdlr, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_STAT *stat, SCIP_PRESOLTIMING timing, int nrounds, int *nfixedvars, int *naggrvars, int *nchgvartypes, int *nchgbds, int *naddholes, int *ndelconss, int *naddconss, int *nupgdconss, int *nchgcoefs, int *nchgsides, SCIP_RESULT *result)
Definition: cons.c:3993
SCIP_RETCODE SCIPconsGetVars(SCIP_CONS *cons, SCIP_SET *set, SCIP_VAR **vars, int varssize, SCIP_Bool *success)
Definition: cons.c:6345
void SCIPconsSetNamePointer(SCIP_CONS *cons, const char *name)
Definition: cons.c:6834
SCIP_RETCODE SCIPconshdlrEnforcePseudoSol(SCIP_CONSHDLR *conshdlr, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_STAT *stat, SCIP_TREE *tree, SCIP_BRANCHCAND *branchcand, SCIP_Bool solinfeasible, SCIP_Bool objinfeasible, SCIP_Bool forced, SCIP_RESULT *result)
Definition: cons.c:3556
SCIP_RETCODE SCIPconssetchgApply(SCIP_CONSSETCHG *conssetchg, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_STAT *stat, int depth, SCIP_Bool focusnode)
Definition: cons.c:5607
SCIP_RETCODE SCIPconshdlrDelVars(SCIP_CONSHDLR *conshdlr, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_STAT *stat)
Definition: cons.c:4136
SCIP_RETCODE SCIPconsSetEnforced(SCIP_CONS *cons, SCIP_SET *set, SCIP_Bool enforce)
Definition: cons.c:6658
void SCIPconsSetModifiable(SCIP_CONS *cons, SCIP_Bool modifiable)
Definition: cons.c:6789
void SCIPconshdlrSetGetVars(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSGETVARS((*consgetvars)))
Definition: cons.c:4531
static SCIP_RETCODE conshdlrDeactivateCons(SCIP_CONSHDLR *conshdlr, SCIP_SET *set, SCIP_STAT *stat, SCIP_CONS *cons)
Definition: cons.c:1607
void SCIPconshdlrSetExitpre(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSEXITPRE((*consexitpre)))
Definition: cons.c:4370
SCIP_RETCODE SCIPconshdlrExitpre(SCIP_CONSHDLR *conshdlr, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_STAT *stat)
Definition: cons.c:2653
SCIP_RETCODE SCIPconshdlrInitsol(SCIP_CONSHDLR *conshdlr, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_STAT *stat)
Definition: cons.c:2693
SCIP_RETCODE SCIPconssetchgMakeGlobal(SCIP_CONSSETCHG **conssetchg, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_STAT *stat, SCIP_PROB *prob, SCIP_REOPT *reopt)
Definition: cons.c:5780
SCIP_RETCODE SCIPconshdlrCheck(SCIP_CONSHDLR *conshdlr, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_STAT *stat, SCIP_SOL *sol, SCIP_Bool checkintegrality, SCIP_Bool checklprows, SCIP_Bool printreason, SCIP_Bool completely, SCIP_RESULT *result)
Definition: cons.c:3760
SCIP_RETCODE SCIPconshdlrExit(SCIP_CONSHDLR *conshdlr, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_STAT *stat)
Definition: cons.c:2524
static SCIP_RETCODE conshdlrActivateCons(SCIP_CONSHDLR *conshdlr, SCIP_SET *set, SCIP_STAT *stat, SCIP_CONS *cons, int depth, SCIP_Bool focusnode)
Definition: cons.c:1532
SCIP_RETCODE SCIPconshdlrFree(SCIP_CONSHDLR **conshdlr, SCIP_SET *set)
Definition: cons.c:2366
internal methods for constraints and constraint handlers
common defines and data types used in all packages of SCIP
#define NULL
Definition: def.h:266
#define SCIP_MAXSTRLEN
Definition: def.h:287
#define SCIP_Longint
Definition: def.h:157
#define SCIP_MAXTREEDEPTH
Definition: def.h:315
#define SCIP_Bool
Definition: def.h:91
#define MIN(x, y)
Definition: def.h:242
#define SCIP_ALLOC(x)
Definition: def.h:384
#define SCIP_Real
Definition: def.h:172
#define TRUE
Definition: def.h:93
#define FALSE
Definition: def.h:94
#define MAX(x, y)
Definition: def.h:238
#define SCIP_CALL(x)
Definition: def.h:373
#define SCIP_CALL_FINALLY(x, y)
Definition: def.h:415
void SCIPinfoMessage(SCIP *scip, FILE *file, const char *formatstr,...)
Definition: scip_message.c:208
int SCIPconshdlrGetNCheckConss(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4656
void SCIPconshdlrSetData(SCIP_CONSHDLR *conshdlr, SCIP_CONSHDLRDATA *conshdlrdata)
Definition: cons.c:4227
int SCIPconshdlrGetMaxNActiveConss(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4970
SCIP_Real SCIPconshdlrGetCheckTime(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4800
SCIP_PROPTIMING SCIPconshdlrGetPropTiming(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5250
SCIP_Bool SCIPconshdlrWasSolSeparationDelayed(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5210
SCIP_Longint SCIPconshdlrGetNCheckCalls(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4870
SCIP_CONS ** SCIPconshdlrGetCheckConss(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4613
int SCIPconshdlrGetNChgSides(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5080
SCIP_Real SCIPconshdlrGetPresolTime(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4730
int SCIPconshdlrGetEagerFreq(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5150
SCIP_Bool SCIPconshdlrDoesPresolve(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5170
void SCIPconshdlrSetProp(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSPROP((*consprop)), int propfreq, SCIP_Bool delayprop, SCIP_PROPTIMING timingmask)
Definition: cons.c:4259
int SCIPconshdlrGetNFixedVars(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4990
SCIP_PRESOLTIMING SCIPconshdlrGetPresolTiming(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5272
SCIP_Real SCIPconshdlrGetEnfoLPTime(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4750
int SCIPconshdlrGetNPresolCalls(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5090
SCIP_Longint SCIPconshdlrGetNDomredsFound(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4950
int SCIPconshdlrGetSepaPriority(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5100
SCIP_Longint SCIPconshdlrGetNCutsApplied(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4910
int SCIPconshdlrGetNChgCoefs(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5070
void SCIPconshdlrSetPresolTiming(SCIP_CONSHDLR *conshdlr, SCIP_PRESOLTIMING presoltiming)
Definition: cons.c:5282
int SCIPconshdlrGetNUpdateConss(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4690
SCIP_CONS ** SCIPconshdlrGetEnfoConss(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4603
void SCIPconshdlrSetSepa(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSSEPALP((*conssepalp)), SCIP_DECL_CONSSEPASOL((*conssepasol)), int sepafreq, int sepapriority, SCIP_Bool delaysepa)
Definition: cons.c:4238
SCIP_Real SCIPconshdlrGetStrongBranchPropTime(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4790
void SCIPconshdlrSetEnforelax(SCIP_CONSHDLR *conshdlr, SCIP_DECL_CONSENFORELAX((*consenforelax)))
Definition: cons.c:4278
SCIP_Longint SCIPconshdlrGetNCutsFound(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4900
SCIP_Bool SCIPconshdlrSupportsSignedPermsymDetection(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5303
SCIP_Bool SCIPconshdlrIsPropagationDelayed(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5190
SCIP_Real SCIPconshdlrGetPropTime(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4780
void SCIPconssetchgGetAddedConsData(SCIP_CONSSETCHG *conssetchg, SCIP_CONS ***conss, int *nconss)
Definition: cons.c:5593
SCIP_Real SCIPconshdlrGetEnfoPSTime(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4760
int SCIPconshdlrGetPropFreq(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5140
int SCIPconshdlrGetNConss(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4636
SCIP_Longint SCIPconshdlrGetNCutoffs(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4890
const char * SCIPconshdlrGetName(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4197
int SCIPconshdlrGetNEnabledConss(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4680
SCIP_CONS ** SCIPconshdlrGetUpdateConss(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4626
SCIP_Bool SCIPconshdlrIsSeparationDelayed(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5180
SCIP_Longint SCIPconshdlrGetNSepaCalls(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4820
int SCIPconshdlrGetNDelConss(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5040
SCIP_DECL_SORTPTRCOMP(SCIPconshdlrCompSepa)
Definition: cons.c:1956
SCIP_Bool SCIPconshdlrWasLPSeparationDelayed(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5200
SCIP_Longint SCIPconshdlrGetNChildren(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4960
SCIP_Real SCIPconshdlrGetEnfoRelaxTime(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4770
void SCIPconshdlrSetPropTiming(SCIP_CONSHDLR *conshdlr, SCIP_PROPTIMING proptiming)
Definition: cons.c:5260
SCIP_Bool SCIPconshdlrNeedsCons(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5160
int SCIPconshdlrGetNAggrVars(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5000
SCIP_Longint SCIPconshdlrGetNEnfoPSCalls(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4840
int SCIPconshdlrGetNAddHoles(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5030
int SCIPconshdlrGetNEnfoConss(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4646
SCIP_Bool SCIPconshdlrIsInitialized(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5230
int SCIPconshdlrGetNUpgdConss(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5060
int SCIPconshdlrGetStartNActiveConss(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4980
SCIP_Bool SCIPconshdlrWasPropagationDelayed(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5220
int SCIPconshdlrGetNAddConss(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5050
SCIP_Bool SCIPconshdlrSupportsPermsymDetection(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5293
int SCIPconshdlrGetNChgBds(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5020
const char * SCIPconshdlrGetDesc(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4207
SCIP_CONSHDLRDATA * SCIPconshdlrGetData(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4217
SCIP_Longint SCIPconshdlrGetNConssFound(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4940
int SCIPconshdlrGetNActiveConss(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4670
int SCIPconshdlrGetCheckPriority(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5120
int SCIPconshdlrGetSepaFreq(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5130
SCIP_Longint SCIPconshdlrGetNPropCalls(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4860
SCIP_Longint SCIPconshdlrGetNEnfoLPCalls(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4830
SCIP_CONS ** SCIPconshdlrGetConss(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4593
int SCIPconshdlrGetEnfoPriority(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5110
SCIP_Real SCIPconshdlrGetSetupTime(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4720
SCIP_Longint SCIPconshdlrGetNRespropCalls(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4880
SCIP_Real SCIPconshdlrGetSepaTime(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4740
SCIP_Bool SCIPconshdlrIsClonable(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5240
int SCIPconshdlrGetNChgVarTypes(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:5010
SCIP_Real SCIPconshdlrGetRespropTime(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4810
SCIP_Longint SCIPconshdlrGetNEnfoRelaxCalls(SCIP_CONSHDLR *conshdlr)
Definition: cons.c:4850
SCIP_Bool SCIPconsIsLockedNeg(SCIP_CONS *cons)
Definition: cons.c:8543
SCIP_CONSDATA * SCIPconsGetData(SCIP_CONS *cons)
Definition: cons.c:8244
void SCIPconsAddUpgradeLocks(SCIP_CONS *cons, int nlocks)
Definition: cons.c:8653
int SCIPconsGetPos(SCIP_CONS *cons)
Definition: cons.c:8224
SCIP_Bool SCIPconsIsConflict(SCIP_CONS *cons)
Definition: cons.c:8363
SCIP_Bool SCIPconsIsDynamic(SCIP_CONS *cons)
Definition: cons.c:8473
SCIP_Real SCIPconsGetAge(SCIP_CONS *cons)
Definition: cons.c:8373
SCIP_CONSHDLR * SCIPconsGetHdlr(SCIP_CONS *cons)
Definition: cons.c:8234
int SCIPconsGetActiveDepth(SCIP_CONS *cons)
Definition: cons.c:8264
SCIP_Bool SCIPconsIsLockedPos(SCIP_CONS *cons)
Definition: cons.c:8533
SCIP_Bool SCIPconsIsPropagationEnabled(SCIP_CONS *cons)
Definition: cons.c:8332
SCIP_Bool SCIPconsIsInitial(SCIP_CONS *cons)
Definition: cons.c:8383
int SCIPconsGetNUpgradeLocks(SCIP_CONS *cons)
Definition: cons.c:8665
SCIP_Bool SCIPconsIsMarkedPropagate(SCIP_CONS *cons)
Definition: cons.c:8423
int SCIPconsGetNLocksTypeNeg(SCIP_CONS *cons, SCIP_LOCKTYPE locktype)
Definition: cons.c:8631
int SCIPconsGetValidDepth(SCIP_CONS *cons)
Definition: cons.c:8297
SCIP_Bool SCIPconsIsOriginal(SCIP_CONS *cons)
Definition: cons.c:8513
SCIP_Bool SCIPconsIsChecked(SCIP_CONS *cons)
Definition: cons.c:8413
SCIP_Bool SCIPconsIsDeleted(SCIP_CONS *cons)
Definition: cons.c:8343
SCIP_Bool SCIPconsIsUpdatedeactivate(SCIP_CONS *cons)
Definition: cons.c:8285
SCIP_Bool SCIPconsIsTransformed(SCIP_CONS *cons)
Definition: cons.c:8523
int SCIPconsGetNLocksPos(SCIP_CONS *cons)
Definition: cons.c:8563
SCIP_Bool SCIPconsIsLockedType(SCIP_CONS *cons, SCIP_LOCKTYPE locktype)
Definition: cons.c:8607
SCIP_Bool SCIPconsIsEnforced(SCIP_CONS *cons)
Definition: cons.c:8403
SCIP_Bool SCIPconsIsInProb(SCIP_CONS *cons)
Definition: cons.c:8503
SCIP_Bool SCIPconsIsGlobal(SCIP_CONS *cons)
Definition: cons.c:8443
SCIP_Bool SCIPconsIsActive(SCIP_CONS *cons)
Definition: cons.c:8275
SCIP_Bool SCIPconsIsPropagated(SCIP_CONS *cons)
Definition: cons.c:8433
SCIP_Bool SCIPconsIsLocal(SCIP_CONS *cons)
Definition: cons.c:8453
int SCIPconsGetNLocksNeg(SCIP_CONS *cons)
Definition: cons.c:8573
int SCIPconsGetNUses(SCIP_CONS *cons)
Definition: cons.c:8254
SCIP_Bool SCIPconsIsLockedTypePos(SCIP_CONS *cons, SCIP_LOCKTYPE locktype)
Definition: cons.c:8583
SCIP_Bool SCIPconsIsEnabled(SCIP_CONS *cons)
Definition: cons.c:8311
const char * SCIPconsGetName(SCIP_CONS *cons)
Definition: cons.c:8214
SCIP_Bool SCIPconsIsLocked(SCIP_CONS *cons)
Definition: cons.c:8553
SCIP_Bool SCIPconsIsSeparationEnabled(SCIP_CONS *cons)
Definition: cons.c:8321
SCIP_Bool SCIPconsIsLockedTypeNeg(SCIP_CONS *cons, SCIP_LOCKTYPE locktype)
Definition: cons.c:8595
SCIP_Bool SCIPconsIsModifiable(SCIP_CONS *cons)
Definition: cons.c:8463
SCIP_Bool SCIPconsIsAdded(SCIP_CONS *cons)
Definition: cons.c:8643
SCIP_Bool SCIPconsIsObsolete(SCIP_CONS *cons)
Definition: cons.c:8353
SCIP_Bool SCIPconsIsStickingAtNode(SCIP_CONS *cons)
Definition: cons.c:8493
int SCIPconsGetNLocksTypePos(SCIP_CONS *cons, SCIP_LOCKTYPE locktype)
Definition: cons.c:8619
SCIP_Bool SCIPconsIsSeparated(SCIP_CONS *cons)
Definition: cons.c:8393
SCIP_Bool SCIPconsIsRemovable(SCIP_CONS *cons)
Definition: cons.c:8483
#define SCIPfreeBlockMemory(scip, ptr)
Definition: scip_mem.h:108
#define SCIPallocBlockMemory(scip, ptr)
Definition: scip_mem.h:89
int SCIPlinConsStatsGetSum(SCIP_LINCONSSTATS *linconsstats)
Definition: cons.c:8098
void SCIPlinConsStatsIncTypeCount(SCIP_LINCONSSTATS *linconsstats, SCIP_LINCONSTYPE linconstype, int increment)
Definition: cons.c:8108
int SCIPlinConsStatsGetTypeCount(SCIP_LINCONSSTATS *linconsstats, SCIP_LINCONSTYPE linconstype)
Definition: cons.c:8085
void SCIPlinConsStatsFree(SCIP *scip, SCIP_LINCONSSTATS **linconsstats)
Definition: cons.c:8064
void SCIPlinConsStatsReset(SCIP_LINCONSSTATS *linconsstats)
Definition: cons.c:8076
void SCIPprintLinConsStats(SCIP *scip, FILE *file, SCIP_LINCONSSTATS *linconsstats)
Definition: cons.c:8124
SCIP_RETCODE SCIPlinConsStatsCreate(SCIP *scip, SCIP_LINCONSSTATS **linconsstats)
Definition: cons.c:8051
SCIP_Real SCIPvarGetUbGlobal(SCIP_VAR *var)
Definition: var.c:18087
SCIP_Real SCIPgetVarUbAtIndex(SCIP *scip, SCIP_VAR *var, SCIP_BDCHGIDX *bdchgidx, SCIP_Bool after)
Definition: scip_var.c:2128
SCIP_Real SCIPvarGetLbGlobal(SCIP_VAR *var)
Definition: var.c:18077
SCIP_Real SCIPgetVarLbAtIndex(SCIP *scip, SCIP_VAR *var, SCIP_BDCHGIDX *bdchgidx, SCIP_Bool after)
Definition: scip_var.c:1992
int SCIPsnprintf(char *t, int len, const char *s,...)
Definition: misc.c:10880
void SCIPstrCopySection(const char *str, char startchar, char endchar, char *token, int size, char **endptr)
Definition: misc.c:11038
SCIP_RETCODE SCIPskipSpace(char **s)
Definition: misc.c:10869
static const char * paramname[]
Definition: lpi_msk.c:5096
#define BMSduplicateBlockMemoryArray(mem, ptr, source, num)
Definition: memory.h:462
#define BMSfreeMemory(ptr)
Definition: memory.h:145
#define BMSfreeBlockMemory(mem, ptr)
Definition: memory.h:465
#define BMSallocBlockMemory(mem, ptr)
Definition: memory.h:451
#define BMSreallocMemoryArray(ptr, num)
Definition: memory.h:127
#define BMSfreeBlockMemoryArrayNull(mem, ptr, num)
Definition: memory.h:468
#define BMSduplicateMemoryArray(ptr, source, num)
Definition: memory.h:143
#define BMSclearMemory(ptr)
Definition: memory.h:129
#define BMScopyMemoryArray(ptr, source, num)
Definition: memory.h:134
#define BMSfreeBlockMemoryArray(mem, ptr, num)
Definition: memory.h:467
#define BMSreallocBlockMemoryArray(mem, ptr, oldnum, newnum)
Definition: memory.h:458
#define BMSclearMemoryArray(ptr, num)
Definition: memory.h:130
struct BMS_BlkMem BMS_BLKMEM
Definition: memory.h:437
#define BMSfreeMemoryArrayNull(ptr)
Definition: memory.h:148
#define BMSallocMemory(ptr)
Definition: memory.h:118
void SCIPmessagePrintError(const char *formatstr,...)
Definition: message.c:791
void SCIPmessageFPrintInfo(SCIP_MESSAGEHDLR *messagehdlr, FILE *file, const char *formatstr,...)
Definition: message.c:618
void SCIPmessagePrintWarning(SCIP_MESSAGEHDLR *messagehdlr, const char *formatstr,...)
Definition: message.c:427
SCIP_RETCODE SCIPprobDelCons(SCIP_PROB *prob, BMS_BLKMEM *blkmem, SCIP_SET *set, SCIP_STAT *stat, SCIP_CONS *cons)
Definition: prob.c:1390
SCIP_RETCODE SCIPprobAddCons(SCIP_PROB *prob, SCIP_SET *set, SCIP_STAT *stat, SCIP_CONS *cons)
Definition: prob.c:1319
internal methods for storing and manipulating the main problem
#define SCIPerrorMessage
Definition: pub_message.h:64
#define SCIPdebugMessage
Definition: pub_message.h:96
public data structures and miscellaneous methods
SCIP_Bool SCIPreoptConsCanBeDeleted(SCIP_REOPT *reopt, SCIP_CONS *cons)
Definition: reopt.c:8310
data structures and methods for collecting reoptimization information
SCIP callable library.
int SCIPsepastoreGetNCuts(SCIP_SEPASTORE *sepastore)
Definition: sepastore.c:1149
internal methods for storing separated cuts
SCIP_RETCODE SCIPsetAddIntParam(SCIP_SET *set, SCIP_MESSAGEHDLR *messagehdlr, BMS_BLKMEM *blkmem, const char *name, const char *desc, int *valueptr, SCIP_Bool isadvanced, int defaultvalue, int minvalue, int maxvalue, SCIP_DECL_PARAMCHGD((*paramchgd)), SCIP_PARAMDATA *paramdata)
Definition: set.c:2984
SCIP_RETCODE SCIPsetAddBoolParam(SCIP_SET *set, SCIP_MESSAGEHDLR *messagehdlr, BMS_BLKMEM *blkmem, const char *name, const char *desc, SCIP_Bool *valueptr, SCIP_Bool isadvanced, SCIP_Bool defaultvalue, SCIP_DECL_PARAMCHGD((*paramchgd)), SCIP_PARAMDATA *paramdata)
Definition: set.c:2962
SCIP_CONSHDLR * SCIPsetFindConshdlr(SCIP_SET *set, const char *name)
Definition: set.c:3985
SCIP_STAGE SCIPsetGetStage(SCIP_SET *set)
Definition: set.c:2952
int SCIPsetCalcMemGrowSize(SCIP_SET *set, int num)
Definition: set.c:5764
internal methods for global SCIP settings
#define SCIPsetDebugMsg
Definition: set.h:1784
internal methods for problem statistics
SCIP_CONS ** addedconss
Definition: struct_cons.h:117
SCIP_CONS ** disabledconss
Definition: struct_cons.h:118
unsigned int nupgradelocks
Definition: struct_cons.h:107
unsigned int initial
Definition: struct_cons.h:68
int nlocksneg[NLOCKTYPES]
Definition: struct_cons.h:64
unsigned int updatefree
Definition: struct_cons.h:103
unsigned int updatesepaenable
Definition: struct_cons.h:98
int validdepth
Definition: struct_cons.h:66
SCIP_CONSDATA * consdata
Definition: struct_cons.h:51
unsigned int enabled
Definition: struct_cons.h:88
int enfoconsspos
Definition: struct_cons.h:60
SCIP_Real age
Definition: struct_cons.h:48
unsigned int dynamic
Definition: struct_cons.h:77
int addarraypos
Definition: struct_cons.h:56
unsigned int propagate
Definition: struct_cons.h:72
unsigned int updateobsolete
Definition: struct_cons.h:102
unsigned int updatesepadisable
Definition: struct_cons.h:99
SCIP_CONSSETCHG * addconssetchg
Definition: struct_cons.h:54
char * name
Definition: struct_cons.h:49
unsigned int updateenable
Definition: struct_cons.h:96
unsigned int updateactfocus
Definition: struct_cons.h:104
int sepaconsspos
Definition: struct_cons.h:59
unsigned int updateunmarkpropagate
Definition: struct_cons.h:106
unsigned int deleted
Definition: struct_cons.h:91
unsigned int updateactivate
Definition: struct_cons.h:94
unsigned int local
Definition: struct_cons.h:75
SCIP_CONS * transorigcons
Definition: struct_cons.h:52
int propconsspos
Definition: struct_cons.h:62
SCIP * scip
Definition: struct_cons.h:110
unsigned int updatedisable
Definition: struct_cons.h:97
unsigned int updatedeactivate
Definition: struct_cons.h:95
int activedepth
Definition: struct_cons.h:65
unsigned int active
Definition: struct_cons.h:82
unsigned int removable
Definition: struct_cons.h:78
unsigned int updatepropenable
Definition: struct_cons.h:100
unsigned int enforce
Definition: struct_cons.h:70
SCIP_CONSHDLR * conshdlr
Definition: struct_cons.h:50
unsigned int modifiable
Definition: struct_cons.h:76
int checkconsspos
Definition: struct_cons.h:61
unsigned int conflict
Definition: struct_cons.h:87
unsigned int original
Definition: struct_cons.h:80
unsigned int separate
Definition: struct_cons.h:69
unsigned int sepaenabled
Definition: struct_cons.h:73
int consspos
Definition: struct_cons.h:57
unsigned int obsolete
Definition: struct_cons.h:89
unsigned int update
Definition: struct_cons.h:92
int initconsspos
Definition: struct_cons.h:58
unsigned int stickingatnode
Definition: struct_cons.h:79
unsigned int propenabled
Definition: struct_cons.h:74
unsigned int check
Definition: struct_cons.h:71
int nlockspos[NLOCKTYPES]
Definition: struct_cons.h:63
unsigned int markpropagate
Definition: struct_cons.h:90
unsigned int updatemarkpropagate
Definition: struct_cons.h:105
unsigned int updatepropdisable
Definition: struct_cons.h:101
unsigned int updateinsert
Definition: struct_cons.h:93
SCIP_Longint nsepacalls
Definition: struct_cons.h:128
SCIP_CONS ** conss
Definition: struct_cons.h:190
int nusefulcheckconss
Definition: struct_cons.h:242
SCIP_CONS ** checkconss
Definition: struct_cons.h:197
int nusefulenfoconss
Definition: struct_cons.h:239
SCIP_CLOCK * presoltime
Definition: struct_cons.h:204
SCIP_RESULT lastenfolpresult
Definition: struct_cons.h:149
SCIP_Longint ndomredsfound
Definition: struct_cons.h:139
SCIP_PRESOLTIMING presoltiming
Definition: struct_cons.h:287
SCIP_CLOCK * enfopstime
Definition: struct_cons.h:207
SCIP_Longint lastenfolpdomchgcount
Definition: struct_cons.h:143
SCIP_CLOCK * enforelaxtime
Definition: struct_cons.h:208
int nusefulsepaconss
Definition: struct_cons.h:236
SCIP_Bool delayprop
Definition: struct_cons.h:278
int storednmarkedpropconss
Definition: struct_cons.h:248
SCIP_CLOCK * enfolptime
Definition: struct_cons.h:206
SCIP_Longint nenfolpcalls
Definition: struct_cons.h:129
SCIP_Longint ncutoffs
Definition: struct_cons.h:135
int storedpropconsssize
Definition: struct_cons.h:247
SCIP_CLOCK * proptime
Definition: struct_cons.h:209
SCIP_Longint ncheckcalls
Definition: struct_cons.h:133
SCIP_CLOCK * checktime
Definition: struct_cons.h:211
SCIP_RESULT lastenfopsresult
Definition: struct_cons.h:150
SCIP_Bool initialized
Definition: struct_cons.h:283
SCIP_Bool duringsepa
Definition: struct_cons.h:284
SCIP_CLOCK * sbproptime
Definition: struct_cons.h:210
int nusefulpropconss
Definition: struct_cons.h:246
SCIP_Longint nenforelaxcalls
Definition: struct_cons.h:131
SCIP_Longint lastsepalpcount
Definition: struct_cons.h:213
SCIP_Longint lastenfolplpcount
Definition: struct_cons.h:214
int lastnusefulpropconss
Definition: struct_cons.h:252
SCIP_Bool sepasolwasdelayed
Definition: struct_cons.h:281
SCIP_Bool propwasdelayed
Definition: struct_cons.h:282
SCIP_Bool sepalpwasdelayed
Definition: struct_cons.h:280
SCIP_Longint ncutsapplied
Definition: struct_cons.h:137
SCIP_CLOCK * resproptime
Definition: struct_cons.h:212
SCIP_RESULT lastenforelaxresult
Definition: struct_cons.h:151
int lastnusefulenfoconss
Definition: struct_cons.h:254
int nmarkedpropconss
Definition: struct_cons.h:245
int startnactiveconss
Definition: struct_cons.h:228
SCIP_Longint nchildren
Definition: struct_cons.h:140
SCIP_Longint nenfopscalls
Definition: struct_cons.h:130
SCIP_Longint lastenforelaxrelaxcount
Definition: struct_cons.h:215
SCIP_Bool needscons
Definition: struct_cons.h:279
int delayupdatecount
Definition: struct_cons.h:276
SCIP_Real ageresetavg
Definition: struct_cons.h:152
SCIP_Longint storedpropdomchgcount
Definition: struct_cons.h:142
SCIP_CONS ** sepaconss
Definition: struct_cons.h:195
SCIP_Longint lastenfolpnode
Definition: struct_cons.h:146
SCIP_PROPTIMING proptiming
Definition: struct_cons.h:286
SCIP_Bool delaysepa
Definition: struct_cons.h:277
SCIP_CONS ** enfoconss
Definition: struct_cons.h:196
SCIP_Longint lastenforelaxnode
Definition: struct_cons.h:148
SCIP_CONS ** initconss
Definition: struct_cons.h:194
SCIP_CONS ** storedpropconss
Definition: struct_cons.h:199
SCIP_Bool duringprop
Definition: struct_cons.h:285
SCIP_Longint lastpropdomchgcount
Definition: struct_cons.h:141
SCIP_Longint ncutsfound
Definition: struct_cons.h:136
SCIP_Longint lastenfopsnode
Definition: struct_cons.h:147
SCIP_Longint lastenforelaxdomchgcount
Definition: struct_cons.h:145
SCIP_Longint nrespropcalls
Definition: struct_cons.h:134
SCIP_Longint npropcalls
Definition: struct_cons.h:132
SCIP_CONSHDLRDATA * conshdlrdata
Definition: struct_cons.h:189
SCIP_CLOCK * sepatime
Definition: struct_cons.h:205
SCIP_CONS ** propconss
Definition: struct_cons.h:198
SCIP_CONS ** updateconss
Definition: struct_cons.h:202
int lastnusefulsepaconss
Definition: struct_cons.h:253
int lastnchgvartypes
Definition: struct_cons.h:257
SCIP_CLOCK * setuptime
Definition: struct_cons.h:203
SCIP_Longint nconssfound
Definition: struct_cons.h:138
SCIP_Longint lastenfopsdomchgcount
Definition: struct_cons.h:144
int counter[SCIP_NLINCONSTYPES]
Definition: struct_cons.h:293
SCIP_Longint nnodes
Definition: struct_stat.h:82
SCIP_Longint domchgcount
Definition: struct_stat.h:114
SCIP_Longint lpcount
Definition: struct_stat.h:190
SCIP_Longint nprobholechgs
Definition: struct_stat.h:118
SCIP_Longint ninitconssadded
Definition: struct_stat.h:123
SCIP_Longint relaxcount
Definition: struct_stat.h:191
SCIP_Longint nboundchgs
Definition: struct_stat.h:115
SCIP_Longint nholechgs
Definition: struct_stat.h:116
int nenabledconss
Definition: struct_stat.h:240
int nactiveconss
Definition: struct_stat.h:239
SCIP_Longint nprobboundchgs
Definition: struct_stat.h:117
int nchildren
Definition: struct_tree.h:223
datastructures for constraints and constraint handlers
Definition: heur_padm.c:135
SCIP_Bool SCIPtreeProbing(SCIP_TREE *tree)
Definition: tree.c:8384
int SCIPtreeGetCurrentDepth(SCIP_TREE *tree)
Definition: tree.c:8502
internal methods for branch and bound tree
@ SCIP_CLOCKTYPE_DEFAULT
Definition: type_clock.h:43
#define SCIP_DECL_CONSGETSIGNEDPERMSYMGRAPH(x)
Definition: type_cons.h:955
#define SCIP_DECL_CONSGETPERMSYMGRAPH(x)
Definition: type_cons.h:937
#define SCIP_DECL_CONSINITPRE(x)
Definition: type_cons.h:156
#define SCIP_DECL_CONSEXIT(x)
Definition: type_cons.h:136
#define SCIP_DECL_CONSGETVARS(x)
Definition: type_cons.h:866
#define SCIP_DECL_CONSINITSOL(x)
Definition: type_cons.h:201
struct SCIP_ConshdlrData SCIP_CONSHDLRDATA
Definition: type_cons.h:64
#define SCIP_DECL_CONSDISABLE(x)
Definition: type_cons.h:735
#define SCIP_DECL_CONSENFORELAX(x)
Definition: type_cons.h:388
#define SCIP_DECL_CONSGETDIVEBDCHGS(x)
Definition: type_cons.h:919
#define SCIP_DECL_CONSGETNVARS(x)
Definition: type_cons.h:884
#define SCIP_DECL_CONSRESPROP(x)
Definition: type_cons.h:611
@ SCIP_LINCONSTYPE_BINPACKING
Definition: type_cons.h:85
@ SCIP_LINCONSTYPE_VARBOUND
Definition: type_cons.h:78
@ SCIP_LINCONSTYPE_EMPTY
Definition: type_cons.h:73
@ SCIP_LINCONSTYPE_INVKNAPSACK
Definition: type_cons.h:83
@ SCIP_LINCONSTYPE_PRECEDENCE
Definition: type_cons.h:77
@ SCIP_LINCONSTYPE_AGGREGATION
Definition: type_cons.h:76
@ SCIP_LINCONSTYPE_MIXEDBINARY
Definition: type_cons.h:88
@ SCIP_LINCONSTYPE_SINGLETON
Definition: type_cons.h:75
@ SCIP_LINCONSTYPE_SETCOVERING
Definition: type_cons.h:81
@ SCIP_LINCONSTYPE_EQKNAPSACK
Definition: type_cons.h:84
@ SCIP_LINCONSTYPE_FREE
Definition: type_cons.h:74
@ SCIP_LINCONSTYPE_KNAPSACK
Definition: type_cons.h:86
@ SCIP_LINCONSTYPE_SETPARTITION
Definition: type_cons.h:79
@ SCIP_LINCONSTYPE_INTKNAPSACK
Definition: type_cons.h:87
@ SCIP_LINCONSTYPE_SETPACKING
Definition: type_cons.h:80
@ SCIP_LINCONSTYPE_GENERAL
Definition: type_cons.h:89
@ SCIP_LINCONSTYPE_CARDINALITY
Definition: type_cons.h:82
#define SCIP_DECL_CONSACTIVE(x)
Definition: type_cons.h:690
#define SCIP_DECL_CONSPARSE(x)
Definition: type_cons.h:844
#define SCIP_DECL_CONSDEACTIVE(x)
Definition: type_cons.h:705
#define SCIP_DECL_CONSPRESOL(x)
Definition: type_cons.h:560
#define SCIP_DECL_CONSENABLE(x)
Definition: type_cons.h:720
#define SCIP_DECL_CONSINITLP(x)
Definition: type_cons.h:259
#define SCIP_DECL_CONSEXITPRE(x)
Definition: type_cons.h:180
#define SCIP_DECL_CONSINIT(x)
Definition: type_cons.h:126
struct SCIP_ConsData SCIP_CONSDATA
Definition: type_cons.h:65
#define SCIP_DECL_CONSHDLRCOPY(x)
Definition: type_cons.h:108
#define SCIP_DECL_CONSEXITSOL(x)
Definition: type_cons.h:216
#define SCIP_NLINCONSTYPES
Definition: type_cons.h:93
#define SCIP_DECL_CONSFREE(x)
Definition: type_cons.h:116
enum SCIP_LinConstype SCIP_LINCONSTYPE
Definition: type_cons.h:91
@ SCIP_BOUNDTYPE_UPPER
Definition: type_lp.h:57
@ SCIP_BOUNDTYPE_LOWER
Definition: type_lp.h:56
enum SCIP_BoundType SCIP_BOUNDTYPE
Definition: type_lp.h:59
@ SCIP_DIDNOTRUN
Definition: type_result.h:42
@ SCIP_CUTOFF
Definition: type_result.h:48
@ SCIP_FEASIBLE
Definition: type_result.h:45
@ SCIP_DELAYED
Definition: type_result.h:43
@ SCIP_REDUCEDDOM
Definition: type_result.h:51
@ SCIP_DIDNOTFIND
Definition: type_result.h:44
@ SCIP_CONSADDED
Definition: type_result.h:52
@ SCIP_UNBOUNDED
Definition: type_result.h:47
@ SCIP_BRANCHED
Definition: type_result.h:54
@ SCIP_SEPARATED
Definition: type_result.h:49
@ SCIP_SOLVELP
Definition: type_result.h:55
@ SCIP_NEWROUND
Definition: type_result.h:50
@ SCIP_SUCCESS
Definition: type_result.h:58
@ SCIP_DELAYNODE
Definition: type_result.h:59
@ SCIP_INFEASIBLE
Definition: type_result.h:46
enum SCIP_Result SCIP_RESULT
Definition: type_result.h:61
@ SCIP_INVALIDRESULT
Definition: type_retcode.h:53
@ SCIP_PLUGINNOTFOUND
Definition: type_retcode.h:54
@ SCIP_PARAMETERWRONGVAL
Definition: type_retcode.h:57
@ SCIP_OKAY
Definition: type_retcode.h:42
@ SCIP_INVALIDCALL
Definition: type_retcode.h:51
enum SCIP_Retcode SCIP_RETCODE
Definition: type_retcode.h:63
@ SCIP_STAGE_PROBLEM
Definition: type_set.h:45
@ SCIP_STAGE_PRESOLVING
Definition: type_set.h:49
#define SCIP_PRESOLTIMING_MAX
Definition: type_timing.h:59
#define SCIP_PRESOLTIMING_FINAL
Definition: type_timing.h:55
unsigned int SCIP_PROPTIMING
Definition: type_timing.h:74
#define SCIP_PRESOLTIMING_MEDIUM
Definition: type_timing.h:53
unsigned int SCIP_PRESOLTIMING
Definition: type_timing.h:61
#define SCIP_PROPTIMING_AFTERLPLOOP
Definition: type_timing.h:67
#define SCIP_PRESOLTIMING_FAST
Definition: type_timing.h:52
#define SCIP_PRESOLTIMING_EXHAUSTIVE
Definition: type_timing.h:54
#define SCIP_PROPTIMING_BEFORELP
Definition: type_timing.h:65
#define SCIP_PROPTIMING_ALWAYS
Definition: type_timing.h:72
#define SCIP_PROPTIMING_DURINGLPLOOP
Definition: type_timing.h:66
#define NLOCKTYPES
Definition: type_var.h:94
enum SCIP_LockType SCIP_LOCKTYPE
Definition: type_var.h:100
@ SCIP_LOCKTYPE_MODEL
Definition: type_var.h:97
internal methods for problem variables