Scippy

SCIP

Solving Constraint Integer Programs

reader_sto.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 reader_sto.c
26 * @ingroup DEFPLUGINS_READER
27 * @brief STO file reader - the stochastic information of an instance in SMPS format
28 * @author Stephen J. Maher
29 */
30
31
32/*---+----1----+----2----+----3----+----4----+----5----+----6----+----7----+----8----+----9----+----0----+----1----+----2*/
33
36#include "scip/cons_linear.h"
37#include "scip/pub_cons.h"
38#include "scip/pub_fileio.h"
39#include "scip/pub_message.h"
40#include "scip/pub_misc.h"
41#include "scip/pub_reader.h"
42#include "scip/pub_var.h"
43#include "scip/reader_cor.h"
44#include "scip/reader_sto.h"
45#include "scip/reader_tim.h"
46#include "scip/scip_cons.h"
47#include "scip/scip_debug.h"
48#include "scip/scipdefplugins.h"
49#include "scip/scip_general.h"
50#include "scip/scip_mem.h"
51#include "scip/scip_message.h"
52#include "scip/scip_numerics.h"
53#include "scip/scip_param.h"
54#include "scip/scip_prob.h"
55#include "scip/scip_reader.h"
56#include "scip/scip_var.h"
57#include <stdlib.h>
58#include <string.h>
59
60#define READER_NAME "storeader"
61#define READER_DESC "file reader for stochastic information of stochastic programs in the SMPS file format"
62#define READER_EXTENSION "sto"
63
64#define DEFAULT_USEBENDERS FALSE /**< should Benders' decomposition be used for the stochastic program? */
65
66/*
67 * sto reader internal methods
68 */
69
70#define STO_MAX_LINELEN 1024
71#define STO_MAX_NAMELEN 256
72
73#define STO_DEFAULT_ARRAYSIZE 100
74#define STO_DEFAULT_ENTRIESSIZE 20
75#define STO_DEFAULT_BLOCKARRAYSIZE 5
76#define STO_DEFAULT_CHILDRENSIZE 5
77
78#define BLANK ' '
79
80typedef struct StoScenario STOSCENARIO;
81
82/** STO reading data */
83struct SCIP_ReaderData
84{
85 SCIP_Bool usebenders;
86 STOSCENARIO* scenariotree; /**< the multi stage scenario tree */
87 int numscenarios; /**< the total number of scenarios in the scenario tree */
88};
89
90
92{
93 SCIP* scip; /**< the SCIP instance for the scenario. Used for benders. */
94 SCIP** subproblems; /**< the SCIP instances for the subproblems */
95 STOSCENARIO* parent; /**< parent scenario. */
96 STOSCENARIO** children; /**< children scenarios. */
97 int nchildren; /**< the number of children scenarios. */
98 int childrensize; /**< the size of the children array. */
99 int nsubproblems; /**< the number of subproblems */
100 int stagenum; /**< the number of the stage */
101 int scenarionum; /**< the scenario number of this stage */
102 const char* stagename; /**< the stage name */
103 const char* name; /**< the scenario name. */
104 SCIP_Real probability; /**< the probability for this scenario. */
105 SCIP_Real lowerbound; /**< the lower bound for this scenario */
106 /* the following describes the modifications to the constraint matrix and rhs for each scenario. */
107 const char** rownames; /**< the names of the rows with a changed value. */
108 const char** colnames; /**< the names of the columns with a changed value. */
109 SCIP_Real* values; /**< the values for the given row/column pair. */
110 int nentries; /**< the number of row/column pairs */
111 int entriessize; /**< the size of the row/colum arrays */
112};
113
114
115
116/** enum containing all sto sections */
118{
126
127/** enum containing the types of stochastic information */
129{
138
139/** sto input structure */
141{
148 const char* f0;
149 const char* f1;
150 const char* f2;
151 const char* f3;
152 const char* f4;
153 const char* f5;
154 const char* f6;
157};
158typedef struct StoInput STOINPUT;
159
160/** creates a scenario structure */
161static
163 SCIP* scip, /**< SCIP data structure */
164 STOSCENARIO** scenariodata /**< the scenario to be created */
165 )
166{
167 assert(scip != NULL);
168
169 SCIPdebugMessage("Creating scenario data.\n");
170
171 SCIP_CALL( SCIPallocBlockMemory(scip, scenariodata) );
172
173 (*scenariodata)->scip = NULL;
174 (*scenariodata)->subproblems = NULL;
175 (*scenariodata)->parent = NULL;
176 (*scenariodata)->nchildren = 0;
177 (*scenariodata)->childrensize = STO_DEFAULT_CHILDRENSIZE;
178 (*scenariodata)->nsubproblems = 0;
179 (*scenariodata)->stagenum = -1;
180 (*scenariodata)->scenarionum = -1;
181 (*scenariodata)->stagename = NULL;
182 (*scenariodata)->name = NULL;
183 (*scenariodata)->probability = 1.0;
184 (*scenariodata)->lowerbound = -SCIPinfinity(scip);
185 (*scenariodata)->nentries = 0;
186 (*scenariodata)->entriessize = STO_DEFAULT_ENTRIESSIZE;
187
188 SCIP_CALL( SCIPallocBlockMemoryArray(scip, &(*scenariodata)->children, (*scenariodata)->childrensize) );
189 SCIP_CALL( SCIPallocBlockMemoryArray(scip, &(*scenariodata)->rownames, (*scenariodata)->entriessize) );
190 SCIP_CALL( SCIPallocBlockMemoryArray(scip, &(*scenariodata)->colnames, (*scenariodata)->entriessize) );
191 SCIP_CALL( SCIPallocBlockMemoryArray(scip, &(*scenariodata)->values, (*scenariodata)->entriessize) );
192
193 return SCIP_OKAY;
194}
195
196/** frees the memory used for the scenario tree */
197static
199 SCIP* scip, /**< the SCIP data structure */
200 STOSCENARIO** scenariotree /**< the scenario tree */
201 )
202{
203 int nchildren;
204 int i;
205
206 assert(scip != NULL);
207 assert(scenariotree != NULL);
208 assert(*scenariotree != NULL);
209
210 SCIPdebugMessage("Freeing scenario <%s> in stage <%s>\n", (*scenariotree)->name,
211 (*scenariotree)->stagename);
212
213 /* storing the number of children before starting the recursive freeing */
214 nchildren = (*scenariotree)->nchildren;
215
216 while( (*scenariotree)->nchildren > 0 )
217 {
218 SCIP_CALL( freeScenarioTree(scip, &(*scenariotree)->children[(*scenariotree)->nchildren - 1]) );
219 (*scenariotree)->nchildren--;
220 }
221
222 for( i = (*scenariotree)->nentries - 1; i >= 0; i-- )
223 {
224 SCIPfreeBlockMemoryArray(scip, &(*scenariotree)->colnames[i], strlen((*scenariotree)->colnames[i]) + 1);
225 SCIPfreeBlockMemoryArray(scip, &(*scenariotree)->rownames[i], strlen((*scenariotree)->rownames[i]) + 1);
226 }
227
228 SCIPfreeBlockMemoryArray(scip, &(*scenariotree)->values, (*scenariotree)->entriessize);
229 SCIPfreeBlockMemoryArray(scip, &(*scenariotree)->colnames, (*scenariotree)->entriessize);
230 SCIPfreeBlockMemoryArray(scip, &(*scenariotree)->rownames, (*scenariotree)->entriessize);
231 SCIPfreeBlockMemoryArray(scip, &(*scenariotree)->children, (*scenariotree)->childrensize);
232
233 SCIPfreeBlockMemoryArray(scip, &(*scenariotree)->name, strlen((*scenariotree)->name) + 1);
234 SCIPfreeBlockMemoryArray(scip, &(*scenariotree)->stagename, strlen((*scenariotree)->stagename) + 1);
235
236 /* freeing the subproblem SCIP instances */
237 for( i = (*scenariotree)->nsubproblems - 1; i >= 0; i-- )
238 SCIP_CALL( SCIPfree(&(*scenariotree)->subproblems[i]) );
239
240 /* freeing the array that stores the subproblems */
241 if( nchildren > 0 && (*scenariotree)->subproblems != NULL )
242 SCIPfreeBlockMemoryArray(scip, &(*scenariotree)->subproblems, nchildren);
243
244 SCIPfreeBlockMemory(scip, scenariotree);
245
246 return SCIP_OKAY;
247}
248
249/** sets the SCIP pointer to the scenario */
250static
252 STOSCENARIO* scenario, /**< the scenario */
253 SCIP* scip /**< the SCIP data structure */
254 )
255{
256 assert(scenario != NULL);
257 assert(scip != NULL);
258
259 scenario->scip = scip;
260}
261
262/** returns the SCIP pointer to the scenario */
263static
265 STOSCENARIO* scenario /**< the scenario */
266 )
267{
268 assert(scenario != NULL);
269
270 return scenario->scip;
271}
272
273/** creates the subproblem array. This array will be the same size as the number of children */
274static
276 SCIP* scip, /**< the SCIP data structure */
277 STOSCENARIO* scenario /**< the scenario */
278 )
279{
280 assert(scip != NULL);
281 assert(scenario != NULL);
282
284
285 return SCIP_OKAY;
286}
287
288/** adds a scenario to the subproblem array */
289static
291 STOSCENARIO* scenario, /**< the scenario */
292 SCIP* subproblem /**< the subproblems data structure */
293 )
294{
295 assert(scenario != NULL);
296 assert(subproblem != NULL);
297
298 assert(scenario->nsubproblems + 1 <= scenario->nchildren);
299
300 scenario->subproblems[scenario->nsubproblems] = subproblem;
301 scenario->nsubproblems++;
302}
303
304/** returns the subproblem array for the scenario */
305static
307 STOSCENARIO* scenario /**< the scenario */
308 )
309{
310 assert(scenario != NULL);
311
312 return scenario->subproblems;
313}
314
315/** returns the number of children for a given scenario */
316static
318 STOSCENARIO* scenario /**< the scenario */
319 )
320{
321 assert(scenario != NULL);
322
323 return scenario->nchildren;
324}
325
326/** returns a given child for a given scenario */
327static
329 STOSCENARIO* scenario, /**< the scenario */
330 int childnum /**< the number of the desired child */
331 )
332{
333 assert(scenario != NULL);
334 assert(childnum >= 0 && childnum < scenario->nchildren);
335
336 return scenario->children[childnum];
337}
338
339/** returns the parent of a scenario */
340static
342 STOSCENARIO* scenario /**< the scenario */
343 )
344{
345 assert(scenario != NULL);
346
347 return scenario->parent;
348}
349
350/** sets the stage name */
351static
353 SCIP* scip, /**< the SCIP data structure */
354 STOSCENARIO* scenario, /**< the scenario */
355 const char* stagename /**< the stage name */
356 )
357{
358 assert(scip != NULL);
359 assert(scenario != NULL);
360
361 SCIP_CALL( SCIPduplicateBlockMemoryArray(scip, &scenario->stagename, stagename, strlen(stagename) + 1) );
362
363 return SCIP_OKAY;
364}
365
366/** returns the stage name */
367static
369 SCIP* scip, /**< the SCIP data structure */
370 STOSCENARIO* scenario /**< the scenario */
371 )
372{
373 assert(scip != NULL);
374 assert(scenario != NULL);
375
376 return scenario->stagename;
377}
378
379/** sets the stage num */
380static
382 SCIP* scip, /**< the SCIP data structure */
383 STOSCENARIO* scenario, /**< the scenario */
384 int stagenum /**< the stage num */
385 )
386{
387 assert(scip != NULL);
388 assert(scenario != NULL);
389
390 scenario->stagenum = stagenum;
391
392 return SCIP_OKAY;
393}
394
395/** returns the stage num */
396static
398 SCIP* scip, /**< the SCIP data structure */
399 STOSCENARIO* scenario /**< the scenario */
400 )
401{
402 assert(scip != NULL);
403 assert(scenario != NULL);
404
405 return scenario->stagenum;
406}
407
408/** sets the scenario name */
409static
411 SCIP* scip, /**< the SCIP data structure */
412 STOSCENARIO* scenario, /**< the scenario */
413 const char* name /**< the scenario name */
414 )
415{
416 assert(scip != NULL);
417 assert(scenario != NULL);
418
419 SCIP_CALL( SCIPduplicateBlockMemoryArray(scip, &scenario->name, name, strlen(name) + 1) );
420
421 return SCIP_OKAY;
422}
423
424/** returns the scenario name */
425static
426const char* getScenarioName(
427 STOSCENARIO* scenario /**< the scenario */
428 )
429{
430 assert(scenario != NULL);
431
432 return scenario->name;
433}
434
435/** sets the scenario num */
436static
438 SCIP* scip, /**< the SCIP data structure */
439 STOSCENARIO* scenario, /**< the scenario */
440 int scenarionum /**< the scenario num */
441 )
442{
443 assert(scip != NULL);
444 assert(scenario != NULL);
445
446 scenario->scenarionum = scenarionum;
447
448 return SCIP_OKAY;
449}
450
451/** returns the scenario num */
452static
454 SCIP* scip, /**< the SCIP data structure */
455 STOSCENARIO* scenario /**< the scenario */
456 )
457{
458 assert(scip != NULL);
459 assert(scenario != NULL);
460
461 return scenario->scenarionum;
462}
463
464/** sets the scenario probability */
465static
467 SCIP* scip, /**< the SCIP data structure */
468 STOSCENARIO* scenario, /**< the scenario */
469 SCIP_Real probability /**< the scenario probability */
470 )
471{
472 assert(scip != NULL);
473 assert(scenario != NULL);
474
475 scenario->probability = probability;
476
477 return SCIP_OKAY;
478}
479
480/** returns the scenario probability */
481static
483 SCIP* scip, /**< the SCIP data structure */
484 STOSCENARIO* scenario /**< the scenario */
485 )
486{
487 assert(scip != NULL);
488 assert(scenario != NULL);
489
490 return scenario->probability;
491}
492
493/** sets the scenario lowerbound */
494static
496 SCIP* scip, /**< the SCIP data structure */
497 STOSCENARIO* scenario, /**< the scenario */
498 SCIP_Real lowerbound /**< the scenario lowerbound */
499 )
500{
501 assert(scip != NULL);
502 assert(scenario != NULL);
503
504 scenario->lowerbound = lowerbound;
505
506 return SCIP_OKAY;
507}
508
509/** returns the scenario lowerbound */
510static
512 SCIP* scip, /**< the SCIP data structure */
513 STOSCENARIO* scenario /**< the scenario */
514 )
515{
516 assert(scip != NULL);
517 assert(scenario != NULL);
518
519 return scenario->lowerbound;
520}
521
522/** add scenario entry */
523static
525 SCIP* scip, /**< the SCIP data structure */
526 STOSCENARIO* scenario, /**< the scenario */
527 const char* rowname, /**< the row name for the entry */
528 const char* colname, /**< the col name for the entry */
529 SCIP_Real value /**< the value for the entry */
530 )
531{
532 assert(scip != NULL);
533 assert(scenario != NULL);
534
535 if( scenario->nentries + 1 > scenario->entriessize )
536 {
537 int newsize;
538 newsize = SCIPcalcMemGrowSize(scip, scenario->nentries + 1);
539 SCIP_CALL( SCIPreallocBlockMemoryArray(scip, &scenario->rownames, scenario->entriessize, newsize) );
540 SCIP_CALL( SCIPreallocBlockMemoryArray(scip, &scenario->colnames, scenario->entriessize, newsize) );
541 SCIP_CALL( SCIPreallocBlockMemoryArray(scip, &scenario->values, scenario->entriessize, newsize) );
542 scenario->entriessize = newsize;
543 }
544
545 SCIP_CALL( SCIPduplicateBlockMemoryArray(scip, &scenario->rownames[scenario->nentries], rowname, strlen(rowname) + 1) ); /*lint !e866*/
546 SCIP_CALL( SCIPduplicateBlockMemoryArray(scip, &scenario->colnames[scenario->nentries], colname, strlen(colname) + 1) ); /*lint !e866*/
547
548 scenario->values[scenario->nentries] = value;
549 scenario->nentries++;
550
551 return SCIP_OKAY;
552}
553
554/** returns the number of entries for a scenario */
555static
557 STOSCENARIO* scenario /**< the scenario */
558 )
559{
560 assert(scenario != NULL);
561
562 return scenario->nentries;
563}
564
565/** returns an entry row for a scenario */
566static
568 STOSCENARIO* scenario, /**< the scenario */
569 int entry /**< the entry number */
570 )
571{
572 assert(scenario != NULL);
573 assert(entry >= 0 && entry < scenario->nentries);
574
575 return scenario->rownames[entry];
576}
577
578/** returns an entry column for a scenario */
579static
581 STOSCENARIO* scenario, /**< the scenario */
582 int entry /**< the entry number */
583 )
584{
585 assert(scenario != NULL);
586 assert(entry >= 0 && entry < scenario->nentries);
587
588 return scenario->colnames[entry];
589}
590
591/** returns an entry value for a scenario */
592static
594 STOSCENARIO* scenario, /**< the scenario */
595 int entry /**< the entry number */
596 )
597{
598 assert(scenario != NULL);
599 assert(entry >= 0 && entry < scenario->nentries);
600
601 return scenario->values[entry];
602}
603
604/** copies a scenario.
605 * In the case of blocks, the scenarios must be combined
606 */
607static
609 SCIP* scip, /**< the SCIP data structure */
610 STOSCENARIO* sourcescenario, /**< the source scenario */
611 STOSCENARIO** targetscenario, /**< the target scenario */
612 SCIP_Bool copyname /**< should the name be copied? */
613 )
614{
615 SCIP_Real probability;
616 SCIP_Real lowerbound;
617 int i;
618
619 assert(scip != NULL);
620 assert(sourcescenario != NULL);
621 assert(targetscenario != NULL);
622
623 /* setting the stage name */
624 if( copyname )
625 {
626 SCIP_CALL( setScenarioName(scip, (*targetscenario), sourcescenario->name) );
627 SCIP_CALL( setScenarioStageName(scip, (*targetscenario), sourcescenario->stagename) );
628 SCIP_CALL( setScenarioNum(scip, (*targetscenario), sourcescenario->scenarionum) );
629 SCIP_CALL( setScenarioStageNum(scip, (*targetscenario), sourcescenario->stagenum) );
630 }
631
632 /* adding the entries from scenario 1 and 2 to the merged scenario */
633 for( i = 0; i < sourcescenario->nentries; i++ )
634 SCIP_CALL( addScenarioEntry(scip, (*targetscenario), sourcescenario->rownames[i], sourcescenario->colnames[i],
635 sourcescenario->values[i]) );
636
637 /* setting the scenario probability */
638 probability = getScenarioProbability(scip, sourcescenario);
639 SCIP_CALL( setScenarioProbability(scip, (*targetscenario), probability) );
640
641 lowerbound = getScenarioLowerbound(scip, sourcescenario);
642 SCIP_CALL( setScenarioLowerbound(scip, (*targetscenario), lowerbound) );
643
644 return SCIP_OKAY;
645}
646
647/** merge scenarios.
648 * In the case of blocks, the scenarios must be combined
649 */
650static
652 SCIP* scip, /**< the SCIP data structure */
653 STOSCENARIO* scenario1, /**< the first scenario */
654 STOSCENARIO** mergedscenario /**< the merged scenario */
655 )
656{
657 SCIP_Real probability;
658 int i;
659
660 assert(scip != NULL);
661 assert(scenario1 != NULL);
662 assert(mergedscenario != NULL);
663
664 /* adding the entries from scenario 1 and 2 to the merged scenario */
665 for( i = 0; i < scenario1->nentries; i++ )
666 SCIP_CALL( addScenarioEntry(scip, (*mergedscenario), scenario1->rownames[i], scenario1->colnames[i],
667 scenario1->values[i]) );
668
669 /* setting the scenario probability */
670 probability = getScenarioProbability(scip, scenario1)*getScenarioProbability(scip, (*mergedscenario));
671 SCIP_CALL( setScenarioProbability(scip, (*mergedscenario), probability) );
672
673 return SCIP_OKAY;
674}
675
676/** adds a child to a given scenario */
677static
679 SCIP* scip, /**< the SCIP data structure */
680 STOSCENARIO** parent, /**< the parent scenario */
681 STOSCENARIO* child /**< the child scenario */
682 )
683{
684 STOSCENARIO* scenario;
685
686 assert(parent != NULL);
687 assert((*parent) != NULL);
688 assert(child != NULL);
689
690 if( (*parent)->nchildren + 1 > (*parent)->childrensize )
691 SCIP_CALL( SCIPensureBlockMemoryArray(scip, &(*parent)->children, &(*parent)->childrensize,
692 (*parent)->nchildren + 1) );
693
694 SCIP_CALL( createScenarioData(scip, &scenario) );
695 SCIP_CALL( copyScenario(scip, child, &scenario, TRUE) );
696 scenario->parent = (*parent);
697
698 (*parent)->children[(*parent)->nchildren] = scenario;
699 (*parent)->nchildren++;
700
701 return SCIP_OKAY;
702}
703
704/** recursively adds the scenarios to the reader data */
705static
707 SCIP* scip, /**< the SCIP data structure */
708 STOSCENARIO** scenariotree, /**< the scenario tree */
709 STOSCENARIO*** scenarios, /**< the array of scenarios */
710 int* numscenarios, /**< the number of scenarios per stage */
711 int numstages, /**< the number of stages */
712 int stage /**< the number of the stage. Also the depth of the tree */
713 )
714{
715 int stageindex;
716 int i;
717
718 assert(scip != NULL);
719 assert(scenariotree != NULL);
720 assert(stage >= 0 && stage < numstages);
721
722 /* finding the scenarios for this stage */
723 for( i = 0; i < numstages; i++ )
724 {
725 if( strcmp(getScenarioStageName(scip, scenarios[i][0]), SCIPtimGetStageName(scip, stage + 1)) == 0 )
726 break;
727 }
728 assert(i < numstages);
729
730 stageindex = i;
731
732 /* adds each scenario to the scenario tree */
733 for( i = 0; i < numscenarios[stageindex]; i++ )
734 {
735 /* adding child to the scenario tree */
736 SCIP_CALL( scenarioAddChild(scip, scenariotree, scenarios[stageindex][i]) );
737
738 /* building the tree below the recently added child */
739 if( stage < numstages - 1 )
740 {
741 STOSCENARIO* child = getScenarioChild((*scenariotree), getScenarioNChildren((*scenariotree)) - 1);
742 SCIP_CALL( buildScenarioTree(scip, &child, scenarios, numscenarios, numstages, stage + 1) );
743 }
744 }
745
746 return SCIP_OKAY;
747}
748
749
750/* adds the scenarios to the reader data */
751static
753 SCIP* scip, /**< the SCIP data structure */
754 SCIP_READERDATA* readerdata, /**< the reader data */
755 STOSCENARIO*** scenarios, /**< the array of scenarios */
756 int* numscenarios, /**< the number of scenarios per stage */
757 int numscenariostages /**< the number of stages for which scenarios were collected */
758 )
759{
760 int i;
761
762 assert(scip != NULL);
763 assert(readerdata != NULL);
764 assert(scenarios != NULL);
765 assert(numscenariostages == SCIPtimGetNStages(scip) - 1);
766
767 SCIP_CALL( buildScenarioTree(scip, &readerdata->scenariotree, scenarios, numscenarios, numscenariostages, 0) );
768
769 /* setting the number of scenarios per stage in the TIME reader data */
770 for( i = 0; i < numscenariostages; i++ )
771 readerdata->numscenarios += numscenarios[i];
772
773 return SCIP_OKAY;
774}
775
776
777/** finds a scenario with a given name */
778static
780 STOSCENARIO* scenariotree, /**< the scenario tree to search */
781 const char* scenname /**< the name of the scenario to search */
782 )
783{
784 STOSCENARIO* retscen;
785 int i;
786
787 if( strcmp(getScenarioName(scenariotree), scenname) == 0 )
788 return scenariotree;
789 else
790 {
791 retscen = NULL;
792 for( i = 0; i < getScenarioNChildren(scenariotree); i++ )
793 {
794 retscen = findScenarioInTree(scenariotree->children[i], scenname);
795 if( retscen != NULL )
796 return retscen;
797 }
798 }
799
800 return NULL;
801}
802
803
804/** inserts a scenario into the reader data scenario tree */
805static
807 SCIP* scip, /**< the SCIP data structure */
808 SCIP_READERDATA* readerdata, /**< the reader data */
809 STOSCENARIO* scenario, /**< the scenario to insert in the scenario tree */
810 char* parentname /**< the parent scenario for the inserting scenario */
811 )
812{
813 STOSCENARIO* parentscen;
814
815 assert(scip != NULL);
816 assert(readerdata != NULL);
817 assert(scenario != NULL);
818
819 /* searching for the parent scenario in the tree */
820 parentscen = findScenarioInTree(readerdata->scenariotree, parentname);
821
822 /* adding the scenario as a child of the parent scenario */
823 SCIP_CALL( scenarioAddChild(scip, &parentscen, scenario) );
824
825 readerdata->numscenarios++;
826
827 return SCIP_OKAY;
828}
829
830
831/* builds the scenarios from the blocks for a given stage */
832static
834 SCIP* scip, /**< the SCIP data structure */
835 STOSCENARIO*** blocks, /**< the block that form the scenarios */
836 STOSCENARIO*** scenarios, /**< the array to store the scenarios */
837 STOSCENARIO*** blocksforscen, /**< the blocks that will form the scenario */
838 int* numblocksforscen, /**< the number of blocks that form the scenario */
839 int numblocks, /**< the number of blocks */
840 int* numblocksperblock, /**< the number of blocks for a given block */
841 int* numscenarios, /**< the number of scenarios */
842 int* scenariossize, /**< the size of scenarios array */
843 const char* stage, /**< the stage for this scenario */
844 int stagenum, /**< the number of the stage */
845 int blocknum /**< the block number */
846 )
847{
848 SCIP_Bool processed;
849 int i;
850 int j;
851
852 assert(scip != NULL);
853 assert(blocks != NULL);
854 assert(scenarios != NULL);
855 assert(blocksforscen != NULL);
856
857 processed = FALSE;
858 i = blocknum + 1;
859 while( !processed && i < numblocks )
860 {
861 /* it is only necessary to process the next block in the list the belongs to the given stage. */
862 if( strcmp(getScenarioStageName(scip, blocks[i][0]), stage) == 0 )
863 {
864 processed = TRUE;
865
866 for( j = 0; j < numblocksperblock[i]; j++ )
867 {
868 /* adding the blocks that will build the scenario */
869 (*blocksforscen)[(*numblocksforscen)] = blocks[i][j];
870 (*numblocksforscen)++;
871 SCIP_CALL( buildScenariosFromBlocks(scip, blocks, scenarios, blocksforscen, numblocksforscen, numblocks,
872 numblocksperblock, numscenarios, scenariossize, stage, stagenum + 1, i) );
873
874 /* the last block needs to be removed so that a new block can be used in its place */
875 (*numblocksforscen)--;
876 }
877 }
878 else
879 {
880 /* the index is only incremented if no block is processed. This is necessary because the value of i is used in
881 * the next if statement for identifying whether all blocks have been processed.
882 */
883 i++;
884 }
885 }
886
887 /* when all blocks have been inspected, then it is possible to build the scenario */
888 if( i == numblocks )
889 {
890 char scenarioname[SCIP_MAXSTRLEN];
891
892 /* ensuring the correct amount of memory is available */
893 if( (*numscenarios) + 1 > (*scenariossize) )
894 {
895 int newsize;
896 newsize = SCIPcalcMemGrowSize(scip, (*numscenarios) + 1);
897 SCIP_CALL( SCIPreallocBlockMemoryArray(scip, scenarios, (*scenariossize), newsize) );
898 (*scenariossize) = newsize;
899 }
900
901 SCIP_CALL( createScenarioData(scip, &(*scenarios)[(*numscenarios)]) );
902
903 /* setting the scenario name */
904 (void) SCIPsnprintf(scenarioname, SCIP_MAXSTRLEN, "Scenario_%s_%d", stage, (*numscenarios));
905 SCIP_CALL( setScenarioName(scip, (*scenarios)[(*numscenarios)], scenarioname) );
906 SCIP_CALL( setScenarioStageName(scip, (*scenarios)[(*numscenarios)], stage) );
907 SCIP_CALL( setScenarioNum(scip, (*scenarios)[(*numscenarios)], (*numscenarios)) );
908 SCIP_CALL( setScenarioStageNum(scip, (*scenarios)[(*numscenarios)], stagenum) );
909
910 /* if there is only a single block for the scenario, then we simply copy the block.
911 * Otherwise, the blocks are merged into a single scenario */
912 if( (*numblocksforscen) == 1 )
913 SCIP_CALL( copyScenario(scip, (*blocksforscen)[0], &(*scenarios)[(*numscenarios)], FALSE) );
914 else
915 {
916 SCIP_CALL( copyScenario(scip, (*blocksforscen)[0], &(*scenarios)[(*numscenarios)], FALSE) );
917 for( i = 1; i < (*numblocksforscen); i++ )
918 SCIP_CALL( mergeScenarios(scip, (*blocksforscen)[i], &(*scenarios)[(*numscenarios)]) );
919 }
920
921 (*numscenarios)++;
922 }
923
924 return SCIP_OKAY;
925}
926
927
928/* creates the scenarios from the blocks */
929static
931 SCIP* scip, /**< the SCIP data structure */
932 SCIP_READERDATA* readerdata, /**< the reader data */
933 STOSCENARIO*** blocks, /**< the block that form the scenarios */
934 int numblocks, /**< the number of blocks */
935 int* numblocksperblock, /**< the number of blocks for each block type */
936 int numstages /**< the number of stages */
937 )
938{
939 STOSCENARIO*** scenarios;
940 STOSCENARIO** blocksforscen;
941 int* numscenarios;
942 int* scenariossize;
943 int numblocksforscen;
944 int stagenum;
945 char periods[SCIP_MAXSTRLEN];
946 int i;
947 int j;
948
949 assert(scip != NULL);
950 assert(blocks != NULL);
951
952 /* allocating the memory for the scenarios array */
953 SCIP_CALL( SCIPallocBlockMemoryArray(scip, &scenarios, numstages) );
954 SCIP_CALL( SCIPallocBufferArray(scip, &numscenarios, numstages) );
955 SCIP_CALL( SCIPallocBufferArray(scip, &scenariossize, numstages) );
956 for( i = 0; i < numstages; i++ )
957 {
958 scenariossize[i] = STO_DEFAULT_BLOCKARRAYSIZE;
959 numscenarios[i] = 0;
960 SCIP_CALL( SCIPallocBlockMemoryArray(scip, &scenarios[i], scenariossize[i]) );
961 }
962
963 /* allocating the memory for the block for scenario array */
964 SCIP_CALL( SCIPallocBufferArray(scip, &blocksforscen, numblocks) );
965
966 (void) SCIPsnprintf(periods, SCIP_MAXSTRLEN, "");
967
968 stagenum = 0;
969 for( i = 0; i < numblocks; i++ )
970 {
971 numblocksforscen = 0;
972 if( strstr(periods, getScenarioStageName(scip, blocks[i][0])) == NULL )
973 {
974 /* recording the stage name as processed */
975 (void) SCIPsnprintf(periods, SCIP_MAXSTRLEN, "%s_%s", periods, getScenarioStageName(scip, blocks[i][0]));
976
977 SCIP_CALL( buildScenariosFromBlocks(scip, blocks, &scenarios[stagenum], &blocksforscen, &numblocksforscen,
978 numblocks, numblocksperblock, &numscenarios[stagenum], &scenariossize[stagenum],
979 getScenarioStageName(scip, blocks[i][0]), stagenum, i - 1) );
980
981 stagenum++;
982 }
983 }
984
985 /* adding the scenarios to the reader data */
986 SCIP_CALL( setScenarioNum(scip, readerdata->scenariotree, 0) );
987 SCIP_CALL( setScenarioStageNum(scip, readerdata->scenariotree, 0) );
988 SCIP_CALL( addScenariosToReaderdata(scip, readerdata, scenarios, numscenarios, numstages) );
989
990 SCIPfreeBufferArray(scip, &blocksforscen);
991 for( i = numstages - 1; i >= 0; i-- )
992 {
993 for( j = numscenarios[i] - 1; j >= 0; j-- )
994 SCIP_CALL( freeScenarioTree(scip, &scenarios[i][j]) );
995 SCIPfreeBlockMemoryArray(scip, &scenarios[i], scenariossize[i]);
996 }
997 SCIPfreeBufferArray(scip, &scenariossize);
998 SCIPfreeBufferArray(scip, &numscenarios);
999 SCIPfreeBlockMemoryArray(scip, &scenarios, numstages);
1000
1001 return SCIP_OKAY;
1002}
1003
1004/** creates the reader data */
1005static
1007 SCIP* scip, /**< SCIP data structure */
1008 SCIP_READERDATA* readerdata /**< the reader data */
1009 )
1010{
1011 assert(scip != NULL);
1012 assert(readerdata != NULL);
1013
1014 /* creating the initial scenario */
1015 SCIP_CALL( createScenarioData(scip, &readerdata->scenariotree) );
1016
1017 /* setting the scenario name and stage name */
1018 SCIP_CALL( setScenarioName(scip, readerdata->scenariotree, "ROOT") );
1019 SCIP_CALL( setScenarioStageName(scip, readerdata->scenariotree, SCIPtimGetStageName(scip, 0)) );
1020
1021 return SCIP_OKAY;
1022}
1023
1024/** frees the reader data */
1025static
1027 SCIP* scip, /**< the SCIP data structure */
1028 SCIP_READERDATA* readerdata /**< the reader data */
1029 )
1030{
1031 assert(scip != NULL);
1032 assert(readerdata != NULL);
1033
1034 /* freeing the scenario tree */
1035 if( readerdata->scenariotree != NULL )
1036 SCIP_CALL( freeScenarioTree(scip, &readerdata->scenariotree) );
1037
1038 SCIPfreeBlockMemory(scip, &readerdata);
1039
1040 return SCIP_OKAY;
1041}
1042
1043/** creates the sto input structure */
1044static
1046 SCIP* scip, /**< SCIP data structure */
1047 STOINPUT** stoi, /**< sto input structure */
1048 SCIP_FILE* fp /**< file object for the input file */
1049 )
1050{
1051 assert(stoi != NULL);
1052 assert(fp != NULL);
1053
1055
1056 (*stoi)->section = STO_STOCH;
1057 (*stoi)->stochinfotype = STO_STOCHINFO_NONE;
1058 (*stoi)->fp = fp;
1059 (*stoi)->lineno = 0;
1060 (*stoi)->haserror = FALSE;
1061 (*stoi)->buf [0] = '\0';
1062 (*stoi)->probname[0] = '\0';
1063 (*stoi)->stochtype[0] = '\0';
1064 (*stoi)->f0 = NULL;
1065 (*stoi)->f1 = NULL;
1066 (*stoi)->f2 = NULL;
1067 (*stoi)->f3 = NULL;
1068 (*stoi)->f4 = NULL;
1069 (*stoi)->f5 = NULL;
1070 (*stoi)->f6 = NULL;
1071
1072 return SCIP_OKAY;
1073}
1074
1075/** free the sto input structure */
1076static
1078 SCIP* scip, /**< SCIP data structure */
1079 STOINPUT** stoi /**< sto input structure */
1080 )
1081{
1083}
1084
1085/** returns the current section */
1086static
1088 const STOINPUT* stoi /**< sto input structure */
1089 )
1090{
1091 assert(stoi != NULL);
1092
1093 return stoi->section;
1094}
1095
1096/** returns the stochastic information type */
1097static
1099 const STOINPUT* stoi /**< sto input structure */
1100 )
1101{
1102 assert(stoi != NULL);
1103
1104 return stoi->stochinfotype;
1105}
1106
1107/** return the current value of field 0 */
1108static
1109const char* stoinputField0(
1110 const STOINPUT* stoi /**< sto input structure */
1111 )
1112{
1113 assert(stoi != NULL);
1114
1115 return stoi->f0;
1116}
1117
1118/** return the current value of field 1 */
1119static
1120const char* stoinputField1(
1121 const STOINPUT* stoi /**< sto input structure */
1122 )
1123{
1124 assert(stoi != NULL);
1125
1126 return stoi->f1;
1127}
1128
1129/** return the current value of field 2 */
1130static
1131const char* stoinputField2(
1132 const STOINPUT* stoi /**< sto input structure */
1133 )
1134{
1135 assert(stoi != NULL);
1136
1137 return stoi->f2;
1138}
1139
1140/** return the current value of field 3 */
1141static
1142const char* stoinputField3(
1143 const STOINPUT* stoi /**< sto input structure */
1144 )
1145{
1146 assert(stoi != NULL);
1147
1148 return stoi->f3;
1149}
1150
1151/** return the current value of field 4 */
1152static
1153const char* stoinputField4(
1154 const STOINPUT* stoi /**< sto input structure */
1155 )
1156{
1157 assert(stoi != NULL);
1158
1159 return stoi->f4;
1160}
1161
1162/** return the current value of field 5 */
1163static
1164const char* stoinputField5(
1165 const STOINPUT* stoi /**< sto input structure */
1166 )
1167{
1168 assert(stoi != NULL);
1169
1170 return stoi->f5;
1171}
1172
1173/** return the current value of field 6 */
1174static
1175const char* stoinputField6(
1176 const STOINPUT* stoi /**< sto input structure */
1177 )
1178{
1179 assert(stoi != NULL);
1180
1181 return stoi->f6;
1182}
1183
1184/** returns if an error was detected */
1185static
1187 const STOINPUT* stoi /**< sto input structure */
1188 )
1189{
1190 assert(stoi != NULL);
1191
1192 return stoi->haserror;
1193}
1194
1195/** set the section in the sto input structure to given section */
1196static
1198 STOINPUT* stoi, /**< sto input structure */
1199 STOSECTION section /**< section that is set */
1200 )
1201{
1202 assert(stoi != NULL);
1203
1204 stoi->section = section;
1205}
1206
1207/** set the stochastic info type in the sto input structure */
1208static
1210 STOINPUT* stoi, /**< sto input structure */
1211 STOSTOCHINFO stochinfotype /**< the stochastic infomation type */
1212 )
1213{
1214 assert(stoi != NULL);
1215
1217}
1218
1219/** set the problem name in the sto input structure to given problem name */
1220static
1222 STOINPUT* stoi, /**< sto input structure */
1223 const char* probname /**< name of the problem to set */
1224 )
1225{
1226 assert(stoi != NULL);
1227 assert(probname != NULL);
1228 assert(strlen(probname) < sizeof(stoi->probname));
1229
1230 (void)SCIPmemccpy(stoi->probname, probname, '\0', STO_MAX_NAMELEN - 1);
1231}
1232
1233/** set the type name in the sto input structure to given objective name */
1234static
1236 STOINPUT* stoi, /**< sto input structure */
1237 const char* stochtype /**< name of the scenario type */
1238 )
1239{
1240 assert(stoi != NULL);
1241 assert(stochtype != NULL);
1242 assert(strlen(stochtype) < sizeof(stoi->stochtype));
1243
1244 (void)SCIPmemccpy(stoi->stochtype, stochtype, '\0', STO_MAX_NAMELEN - 1);
1245}
1246
1247static
1249 STOINPUT* stoi /**< sto input structure */
1250 )
1251{
1252 assert(stoi != NULL);
1253
1254 SCIPerrorMessage("Syntax error in line %d\n", stoi->lineno);
1255 stoi->section = STO_ENDATA;
1256 stoi->haserror = TRUE;
1257}
1258
1259/** fill the line from \p pos up to column 80 with blanks. */
1260static
1262 char* buf, /**< buffer to clear */
1263 unsigned int pos /**< position to start the clearing process */
1264 )
1265{
1266 unsigned int i;
1267
1268 for(i = pos; i < 80; i++)
1269 buf[i] = BLANK;
1270 buf[80] = '\0';
1271}
1272
1273/** read a sto format data line and parse the fields. */
1274static
1276 STOINPUT* stoi /**< sto input structure */
1277 )
1278{
1279 unsigned int len;
1280 unsigned int i;
1281 char* s;
1282 SCIP_Bool is_marker;
1283 SCIP_Bool is_empty;
1284 char* nexttok;
1285
1286 do
1287 {
1288 stoi->f0 = stoi->f1 = stoi->f2 = stoi->f3 = stoi->f4 = stoi->f5 = stoi->f6 = 0;
1289 is_marker = FALSE;
1290
1291 /* Read until we have not a comment line. */
1292 do
1293 {
1294 stoi->buf[STO_MAX_LINELEN-1] = '\0';
1295 if( NULL == SCIPfgets(stoi->buf, (int) sizeof(stoi->buf), stoi->fp) )
1296 return FALSE;
1297 stoi->lineno++;
1298 }
1299 while( *stoi->buf == '*' ); /* coverity[a_loop_bound] */
1300
1301 /* Normalize line */
1302 len = (unsigned int) strlen(stoi->buf);
1303
1304 for( i = 0; i < len; i++ )
1305 {
1306 if( (stoi->buf[i] == '\t') || (stoi->buf[i] == '\n') || (stoi->buf[i] == '\r') )
1307 stoi->buf[i] = BLANK;
1308 }
1309
1310 if( len < 80 )
1311 clearFrom(stoi->buf, len);
1312
1313 SCIPdebugMessage("line %d: <%s>\n", stoi->lineno, stoi->buf);
1314
1315 assert(strlen(stoi->buf) >= 80);
1316
1317 /* Look for new section */
1318 if( *stoi->buf != BLANK )
1319 {
1320 stoi->f0 = SCIPstrtok(&stoi->buf[0], " ", &nexttok);
1321
1322 assert(stoi->f0 != 0);
1323
1324 stoi->f1 = SCIPstrtok(NULL, " ", &nexttok);
1325
1326 return TRUE;
1327 }
1328
1329 s = &stoi->buf[1];
1330
1331 /* At this point it is not clear if we have a indicator field.
1332 * If there is none (e.g. empty) f1 will be the first name field.
1333 * If there is one, f2 will be the first name field.
1334 *
1335 * Initially comment marks '$' are only allowed in the beginning
1336 * of the 2nd and 3rd name field. We test all fields but the first.
1337 * This makes no difference, since if the $ is at the start of a value
1338 * field, the line will be erroneous anyway.
1339 */
1340 do
1341 {
1342 if( NULL == (stoi->f1 = SCIPstrtok(s, " ", &nexttok)) )
1343 break;
1344
1345 if( (NULL == (stoi->f2 = SCIPstrtok(NULL, " ", &nexttok))) || (*stoi->f2 == '$') )
1346 {
1347 stoi->f2 = 0;
1348 break;
1349 }
1350
1351 if( (NULL == (stoi->f3 = SCIPstrtok(NULL, " ", &nexttok))) || (*stoi->f3 == '$') )
1352 {
1353 stoi->f3 = 0;
1354 break;
1355 }
1356
1357 if( (NULL == (stoi->f4 = SCIPstrtok(NULL, " ", &nexttok))) || (*stoi->f4 == '$') )
1358 {
1359 stoi->f4 = 0;
1360 break;
1361 }
1362
1363 if( (NULL == (stoi->f5 = SCIPstrtok(NULL, " ", &nexttok))) || (*stoi->f5 == '$') )
1364 {
1365 stoi->f5 = 0;
1366 break;
1367 }
1368
1369 if( (NULL == (stoi->f6 = SCIPstrtok(NULL, " ", &nexttok))) || (*stoi->f6 == '$') )
1370 stoi->f6 = 0;
1371 }
1372 while( FALSE );
1373
1374 /* check for empty lines */
1375 is_empty = (stoi->f0 == NULL && stoi->f1 == NULL);
1376 }
1377 while( is_marker || is_empty );
1378
1379 return TRUE;
1380}
1381
1382/** Process STOCH section. */
1383static
1385 SCIP* scip, /**< SCIP data structure */
1386 STOINPUT* stoi /**< sto input structure */
1387 )
1388{
1389 assert(stoi != NULL);
1390
1391 SCIPdebugMsg(scip, "read problem name\n");
1392
1393 /* This has to be the Line with the NAME section. */
1394 if( !stoinputReadLine(stoi) || stoinputField0(stoi) == NULL || strcmp(stoinputField0(stoi), "STOCH") )
1395 {
1396 stoinputSyntaxerror(stoi);
1397 return SCIP_OKAY;
1398 }
1399
1400 /* Sometimes the name is omitted. */
1401 stoinputSetProbname(stoi, (stoinputField1(stoi) == 0) ? "_STO_" : stoinputField1(stoi));
1402
1403 /* This hat to be a new section */
1404 /* coverity[tainted_data] */
1405 if( !stoinputReadLine(stoi) || (stoinputField0(stoi) == NULL) )
1406 {
1407 stoinputSyntaxerror(stoi);
1408 return SCIP_OKAY;
1409 }
1410
1411 /* setting the stochatic information section */
1412 if( !strncmp(stoinputField0(stoi), "BLOCKS", 6) )
1414 else if( !strncmp(stoinputField0(stoi), "SCENARIOS", 9) )
1416 else if( !strncmp(stoinputField0(stoi), "INDEP", 5) )
1418 else
1419 {
1420 stoinputSyntaxerror(stoi);
1421 return SCIP_OKAY;
1422 }
1423
1424 /* setting the stochastic information type */
1425 if( !strncmp(stoinputField1(stoi), "DISCRETE", 8) )
1427 else if( !strncmp(stoinputField1(stoi), "UNIFORM", 7) )
1429 else if( !strncmp(stoinputField1(stoi), "NORMAL", 6) )
1431 else if( !strncmp(stoinputField1(stoi), "SUB", 3) )
1433 else if( !strncmp(stoinputField1(stoi), "LINTR", 5) )
1435 else
1436 {
1437 stoinputSyntaxerror(stoi);
1438 return SCIP_OKAY;
1439 }
1440
1441 return SCIP_OKAY;
1442}
1443
1444/** Process BLOCKS section. */
1445static
1447 STOINPUT* stoi, /**< sto input structure */
1448 SCIP* scip, /**< SCIP data structure */
1449 SCIP_READERDATA* readerdata /**< the reader data */
1450 )
1451{
1452 STOSCENARIO*** blocks;
1453 int numblocks;
1454 int* numblocksperblock;
1455 int blockssize;
1456 int* blocksperblocksize;
1457 char BL[] = "BL";
1458 int blocknum;
1459 int blockindex;
1460 int i;
1461 int j;
1462 char stagenames[SCIP_MAXSTRLEN];
1463 int numstages;
1464
1465 SCIPdebugMsg(scip, "read Blocks\n");
1466
1467 /* This has to be the Line with the name. */
1468 if( stoinputField1(stoi) == NULL )
1469 {
1470 stoinputSyntaxerror(stoi);
1471 return SCIP_OKAY;
1472 }
1473
1475
1476 /* initializing the block data */
1477 numblocks = 0;
1478 blockssize = STO_DEFAULT_ARRAYSIZE;
1482
1483 blockindex = 0;
1484 blocknum = 0;
1485
1486 /* initializing the stage names record */
1487 numstages = 0;
1488 (void) SCIPsnprintf(stagenames, SCIP_MAXSTRLEN, "");
1489
1490 /* coverity[tainted_data] */
1491 while( stoinputReadLine(stoi) )
1492 {
1493 if( stoinputField0(stoi) != NULL )
1494 {
1495 if( !strcmp(stoinputField0(stoi), "BLOCKS") )
1496 {
1498 if( strcmp(stoinputField1(stoi), "DISCRETE") )
1499 {
1500 SCIPerrorMessage("Sorry, %s blocks stucture is not currently supported.\n", stoinputField1(stoi));
1501 SCIPerrorMessage("Only DISCRETE blocks are supported.\n");
1502 goto TERMINATE;
1503 }
1504 }
1505 else if( !strcmp(stoinputField0(stoi), "ENDATA") )
1506 {
1507 SCIP_CALL( createScenariosFromBlocks(scip, readerdata, blocks, numblocks, numblocksperblock, numstages) );
1509 }
1510 else
1511 stoinputSyntaxerror(stoi);
1512
1513 goto TERMINATE;
1514 }
1515
1516 if( strcmp(stoinputField1(stoi), BL) == 0 )
1517 {
1518 SCIP_Bool foundblock = FALSE;
1519
1520 /* checking whether the stage has been added previously */
1521 if( strstr(stagenames, stoinputField3(stoi)) == NULL )
1522 {
1523 /* recording the stage name as processed */
1524 (void) SCIPsnprintf(stagenames, SCIP_MAXSTRLEN, "%s_%s", stagenames, stoinputField3(stoi));
1525 numstages++;
1526 }
1527
1528 /* determining whether a block name has previously been added */
1529 for( i = 0; i < numblocks; i++ )
1530 {
1531 if( strcmp(getScenarioName(blocks[i][0]), stoinputField2(stoi)) == 0 )
1532 {
1533 foundblock = TRUE;
1534 break;
1535 }
1536 }
1537 blocknum = i;
1538
1539 /* if the block is found, then the memory for the blocks array must be ensured */
1540 if( foundblock )
1541 {
1542 /* ensuring enough memory is available for the blocks */
1543 if( numblocksperblock[blocknum] + 1 > blocksperblocksize[blocknum] )
1544 {
1545 int newsize;
1546 newsize = SCIPcalcMemGrowSize(scip, numblocksperblock[blocknum] + 1);
1547 SCIP_CALL( SCIPreallocBlockMemoryArray(scip, &blocks[blocknum], blocksperblocksize[blocknum], newsize) ); /*lint !e866*/
1548 blocksperblocksize[blocknum] = newsize;
1549 }
1550 }
1551 else
1552 {
1553 /* ensuring enough memory is available for the blocks */
1554 if( numblocks + 1 > blockssize )
1555 {
1556 int newsize;
1557 newsize = SCIPcalcMemGrowSize(scip, numblocks + 1);
1558 SCIP_CALL( SCIPreallocBlockMemoryArray(scip, &blocks, blockssize, newsize) );
1559 SCIP_CALL( SCIPreallocBlockMemoryArray(scip, &numblocksperblock, blockssize, newsize) );
1560 SCIP_CALL( SCIPreallocBlockMemoryArray(scip, &blocksperblocksize, blockssize, newsize) );
1561 blockssize = newsize;
1562 }
1563
1564 blocksperblocksize[blocknum] = STO_DEFAULT_BLOCKARRAYSIZE;
1565 numblocksperblock[blocknum] = 0;
1566 SCIP_CALL( SCIPallocBlockMemoryArray(scip, &blocks[blocknum], blocksperblocksize[blocknum]) );
1567 }
1568
1569 blockindex = numblocksperblock[blocknum];
1570
1571 /* creating the scenario data structure */
1572 SCIP_CALL( createScenarioData(scip, &blocks[blocknum][blockindex]) );
1573
1574 SCIP_CALL( setScenarioName(scip, blocks[blocknum][blockindex], stoinputField2(stoi)) );
1575 SCIP_CALL( setScenarioStageName(scip, blocks[blocknum][blockindex], stoinputField3(stoi)) );
1576 SCIP_CALL( setScenarioProbability(scip, blocks[blocknum][blockindex], atof(stoinputField4(stoi))) );
1577 numblocksperblock[blocknum]++;
1578
1579 if( !foundblock )
1580 numblocks++;
1581 }
1582 else
1583 {
1584 SCIP_CALL( addScenarioEntry(scip, blocks[blocknum][blockindex], stoinputField2(stoi), stoinputField1(stoi),
1585 atof(stoinputField3(stoi))) );
1586 }
1587 }
1588 stoinputSyntaxerror(stoi);
1589
1590TERMINATE:
1591
1592 /* releasing the scenario data */
1593 for( i = numblocks - 1; i >= 0; i-- )
1594 {
1595 for( j = numblocksperblock[i] - 1; j >= 0; j-- )
1596 SCIP_CALL( freeScenarioTree(scip, &blocks[i][j]) );
1597 }
1598
1599 for( i = numblocks - 1; i >= 0; i-- )
1600 SCIPfreeBlockMemoryArray(scip, &blocks[i], blocksperblocksize[i]);
1601 SCIPfreeBlockMemoryArray(scip, &blocksperblocksize, blockssize);
1602 SCIPfreeBlockMemoryArray(scip, &numblocksperblock, blockssize);
1603 SCIPfreeBlockMemoryArray(scip, &blocks, blockssize);
1604
1605 return SCIP_OKAY;
1606}
1607
1608
1609/** Process SCENARIOS section. */
1610static
1612 STOINPUT* stoi, /**< sto input structure */
1613 SCIP* scip, /**< SCIP data structure */
1614 SCIP_READERDATA* readerdata /**< the reader data */
1615 )
1616{
1617 STOSCENARIO* scenario;
1618 char SC[] = "SC";
1619 char wrongroot[] = "\'ROOT\'";
1620 char parentname[SCIP_MAXSTRLEN];
1621 char scennames[SCIP_MAXSTRLEN];
1622 char tmpname[SCIP_MAXSTRLEN];
1623 int numscenarios;
1624 SCIP_Bool addscenario;
1625
1626 SCIPdebugMsg(scip, "read SCENARIOS\n");
1627
1628 /* This has to be the Line with the name. */
1629 if( stoinputField1(stoi) == NULL )
1630 {
1631 stoinputSyntaxerror(stoi);
1632 return SCIP_OKAY;
1633 }
1634
1636
1637 /* initializing the scen names record */
1638 numscenarios = 0;
1639 (void) SCIPsnprintf(scennames, SCIP_MAXSTRLEN, "ROOT");
1640
1641 scenario = NULL;
1642 addscenario = FALSE;
1643
1644 /* initializing the root scenario in the reader data */
1645 SCIP_CALL( setScenarioNum(scip, readerdata->scenariotree, 0) );
1646 SCIP_CALL( setScenarioStageNum(scip, readerdata->scenariotree, 0) );
1647
1648 /* coverity[tainted_data] */
1649 while( stoinputReadLine(stoi) )
1650 {
1651 if( stoinputField0(stoi) != NULL )
1652 {
1653 /* if a scenario has been created that needs to be added to the scenario tree */
1654 if( addscenario )
1655 {
1656 SCIP_CALL( insertScenarioInReaderdata(scip, readerdata, scenario, parentname) );
1657
1658 /* freeing the scenario */
1659 SCIP_CALL( freeScenarioTree(scip, &scenario) );
1660 }
1661
1662 if( !strcmp(stoinputField0(stoi), "SCENARIOS") )
1663 {
1665 if( strcmp(stoinputField1(stoi), "DISCRETE") )
1666 {
1667 SCIPerrorMessage("Sorry, %s scenarios is not currently supported.\n", stoinputField1(stoi));
1668 SCIPerrorMessage("Only DISCRETE scenarios are supported.\n");
1669 goto TERMINATE;
1670 }
1671 }
1672 else if( !strcmp(stoinputField0(stoi), "ENDATA") )
1674 else
1675 stoinputSyntaxerror(stoi);
1676
1677 goto TERMINATE;
1678 }
1679
1680 if( strcmp(stoinputField1(stoi), SC) == 0 )
1681 {
1682 int stagenum;
1683
1684 /* if a scenario has been created that needs to be added to the scenario tree */
1685 if( addscenario )
1686 {
1687 SCIP_CALL( insertScenarioInReaderdata(scip, readerdata, scenario, parentname) );
1688
1689 /* freeing the scenario */
1690 SCIP_CALL( freeScenarioTree(scip, &scenario) );
1691 assert(scenario == NULL);
1692 }
1693
1694 if( strcmp(wrongroot, stoinputField3(stoi)) == 0 )
1695 (void) SCIPsnprintf(parentname, SCIP_MAXSTRLEN, "%s", "ROOT");
1696 else
1697 (void) SCIPsnprintf(parentname, SCIP_MAXSTRLEN, "%s", stoinputField3(stoi));
1698
1699 /* checking whether the stage has been added previously */
1700 if( strstr(scennames, stoinputField2(stoi)) == NULL )
1701 {
1702 /* recording the stage name as processed */
1703 (void) SCIPsnprintf(tmpname, SCIP_MAXSTRLEN, "%s_%s", scennames, stoinputField2(stoi));
1704 (void) SCIPsnprintf(scennames, SCIP_MAXSTRLEN, "%s", tmpname);
1705 }
1706
1707 /* checking whether the "common" scenario has been added yet */
1708 if( strstr(scennames, parentname) == NULL )
1709 {
1710 SCIPerrorMessage("Scenario <%s> needs to be read before scenario <%s>\n", parentname, stoinputField2(stoi));
1711 stoinputSyntaxerror(stoi);
1712 goto TERMINATE;
1713 }
1714
1715 /* the "common" scenario has been added before, so a child can be added to the scenario tree */
1716 SCIP_CALL( createScenarioData(scip, &scenario) );
1717
1718 SCIP_CALL( setScenarioName(scip, scenario, stoinputField2(stoi)) );
1720 SCIP_CALL( setScenarioNum(scip, scenario, numscenarios) );
1721
1722 stagenum = SCIPtimFindStage(scip, stoinputField5(stoi));
1723 if( stagenum < 0 )
1724 {
1725 stoinputSyntaxerror(stoi);
1726 goto TERMINATE;
1727 }
1728 SCIP_CALL( setScenarioStageNum(scip, scenario, stagenum) );
1729 SCIP_CALL( setScenarioProbability(scip, scenario, atof(stoinputField4(stoi))) );
1730 if( stoinputField6(stoi) != NULL )
1731 {
1732 SCIP_CALL( setScenarioLowerbound(scip, scenario, atof(stoinputField6(stoi))) );
1733 }
1734
1735 numscenarios++;
1736 addscenario = TRUE;
1737 }
1738 else if( addscenario )
1739 {
1741 atof(stoinputField3(stoi))) );
1742 }
1743 }
1744 stoinputSyntaxerror(stoi);
1745
1746TERMINATE:
1747
1748 return SCIP_OKAY;
1749}
1750
1751
1752/** Process INDEP section. */
1753static
1755 STOINPUT* stoi, /**< sto input structure */
1756 SCIP* scip, /**< SCIP data structure */
1757 SCIP_READERDATA* readerdata /**< the reader data */
1758 )
1759{
1760 STOSCENARIO*** blocks;
1761 int numblocks;
1762 int* numblocksperblock;
1763 int blockssize;
1764 int* blocksperblocksize;
1765 int blocknum;
1766 int blockindex;
1767 int i;
1768 int j;
1769 char stagenames[SCIP_MAXSTRLEN];
1770 int numstages;
1771 SCIP_Bool foundblock;
1772
1773 SCIP_Real probability;
1774 char currstagename[SCIP_MAXSTRLEN];
1775
1776 SCIPdebugMsg(scip, "read Indep\n");
1777
1778 /* This has to be the Line with the name. */
1779 if( stoinputField1(stoi) == NULL )
1780 {
1781 stoinputSyntaxerror(stoi);
1782 return SCIP_OKAY;
1783 }
1784
1786
1787 /* initializing the block data */
1788 numblocks = 0;
1789 blockssize = STO_DEFAULT_ARRAYSIZE;
1793
1794 /* initializing the stage names record */
1795 numstages = 0;
1796 (void) SCIPsnprintf(stagenames, SCIP_MAXSTRLEN, "");
1797
1798 while( stoinputReadLine(stoi) )
1799 {
1800 if( stoinputField0(stoi) != NULL )
1801 {
1802 if( !strcmp(stoinputField0(stoi), "INDEP") )
1803 {
1805 }
1806 else if( !strcmp(stoinputField0(stoi), "ENDATA") )
1807 {
1808 SCIP_CALL( createScenariosFromBlocks(scip, readerdata, blocks, numblocks, numblocksperblock, numstages) );
1810 }
1811 else
1812 stoinputSyntaxerror(stoi);
1813
1814 goto TERMINATE;
1815 }
1816
1817 /* if the 5th input is NULL, then the 4th input is the probability. Otherwise, the 4th input is the stage name and
1818 * the 5th input is the probability. The stage name is redundant information, but sometimes included for more
1819 * information.
1820 */
1821 if( stoinputField5(stoi) == NULL )
1822 {
1823 probability = atof(stoinputField4(stoi));
1824 (void) SCIPsnprintf(currstagename, SCIP_MAXSTRLEN, "%s", SCIPtimConsGetStageName(scip, stoinputField2(stoi)));
1825 }
1826 else
1827 {
1828 probability = atof(stoinputField5(stoi));
1829 (void) SCIPsnprintf(currstagename, SCIP_MAXSTRLEN, "%s", stoinputField4(stoi));
1830 }
1831
1832 /* checking whether the stage has been added previously */
1833 if( strstr(stagenames, currstagename) == NULL )
1834 {
1835 /* recording the stage name as processed */
1836 (void) SCIPsnprintf(stagenames, SCIP_MAXSTRLEN, "%s_%s", stagenames, currstagename);
1837
1838 numstages++;
1839 }
1840
1841 foundblock = FALSE;
1842
1843 /* determining whether a block name has previously been added */
1844 for( i = 0; i < numblocks; i++ )
1845 {
1846 if( strcmp(getScenarioName(blocks[i][0]), stoinputField2(stoi)) == 0 )
1847 {
1848 foundblock = TRUE;
1849 break;
1850 }
1851 }
1852 blocknum = i;
1853
1854 /* if the block is found, then the memory for the blocks array must be ensured */
1855 if( foundblock )
1856 {
1857 /* ensuring enough memory is available for the blocks */
1858 if( numblocksperblock[blocknum] + 1 > blocksperblocksize[blocknum] )
1859 {
1860 int newsize;
1861 newsize = SCIPcalcMemGrowSize(scip, numblocksperblock[blocknum] + 1);
1862 SCIP_CALL( SCIPreallocBlockMemoryArray(scip, &blocks[blocknum], blocksperblocksize[blocknum], newsize) ); /*lint !e866*/
1863 blocksperblocksize[blocknum] = newsize;
1864 }
1865 }
1866 else
1867 {
1868 /* ensuring enough memory is available for the blocks */
1869 if( numblocks + 1 > blockssize )
1870 {
1871 int newsize;
1872 newsize = SCIPcalcMemGrowSize(scip, numblocks + 1);
1873 SCIP_CALL( SCIPreallocBlockMemoryArray(scip, &blocks, blockssize, newsize) );
1874 SCIP_CALL( SCIPreallocBlockMemoryArray(scip, &numblocksperblock, blockssize, newsize) );
1875 SCIP_CALL( SCIPreallocBlockMemoryArray(scip, &blocksperblocksize, blockssize, newsize) );
1876 blockssize = newsize;
1877 }
1878
1879 blocksperblocksize[blocknum] = STO_DEFAULT_BLOCKARRAYSIZE;
1880 numblocksperblock[blocknum] = 0;
1881 SCIP_CALL( SCIPallocBlockMemoryArray(scip, &blocks[blocknum], blocksperblocksize[blocknum]) );
1882 }
1883
1884 blockindex = numblocksperblock[blocknum];
1885
1886 /* creating the scenario data structure */
1887 SCIP_CALL( createScenarioData(scip, &blocks[blocknum][blockindex]) );
1888
1889 SCIP_CALL( setScenarioName(scip, blocks[blocknum][blockindex], stoinputField2(stoi)) );
1890 SCIP_CALL( setScenarioStageName(scip, blocks[blocknum][blockindex], currstagename) );
1891 SCIP_CALL( setScenarioProbability(scip, blocks[blocknum][blockindex], probability) );
1892 numblocksperblock[blocknum]++;
1893
1894 if( !foundblock )
1895 numblocks++;
1896
1897 SCIP_CALL( addScenarioEntry(scip, blocks[blocknum][blockindex], stoinputField2(stoi), stoinputField1(stoi),
1898 atof(stoinputField3(stoi))) );
1899 }
1900 stoinputSyntaxerror(stoi);
1901
1902TERMINATE:
1903
1904 /* releasing the scenario data */
1905 for( i = numblocks - 1; i >= 0; i-- )
1906 {
1907 for( j = numblocksperblock[i] - 1; j >= 0; j-- )
1908 SCIP_CALL( freeScenarioTree(scip, &blocks[i][j]) );
1909 }
1910
1911 for( i = numblocks - 1; i >= 0; i-- )
1912 SCIPfreeBlockMemoryArray(scip, &blocks[i], blocksperblocksize[i]);
1913 SCIPfreeBlockMemoryArray(scip, &blocksperblocksize, blockssize);
1914 SCIPfreeBlockMemoryArray(scip, &numblocksperblock, blockssize);
1915 SCIPfreeBlockMemoryArray(scip, &blocks, blockssize);
1916
1917 return SCIP_OKAY;
1918}
1919
1920
1921/** computes the probability of a scenario */
1922static
1924 SCIP* scip, /**< the SCIP data structure */
1925 STOSCENARIO* scenario /**< the current scenario */
1926 )
1927{
1928 STOSCENARIO* checkscen;
1929 SCIP_Real probability;
1930
1931 assert(scip != NULL);
1932 assert(scenario != NULL);
1933
1934 /* computing the probability for the scenario */
1935 checkscen = scenario;
1936 probability = 1;
1937 while( checkscen != NULL )
1938 {
1939 probability *= getScenarioProbability(scip, checkscen);
1940 checkscen = getScenarioParent(checkscen);
1941 }
1942
1943 return probability;
1944}
1945
1946/** gets the variable name */
1947static
1949 char* name, /**< the name to be returned */
1950 const char* varname, /**< the root of the variable name */
1951 int stagenum, /**< the stage number */
1952 int scenarionum /**< the scenario number */
1953 )
1954{
1955 if( stagenum < 0 )
1956 (void) SCIPsnprintf(name, SCIP_MAXSTRLEN, "%s_00_%d", varname, scenarionum);
1957 else
1958 (void) SCIPsnprintf(name, SCIP_MAXSTRLEN, "%s_%d_%d", varname, stagenum, scenarionum);
1959}
1960
1961
1962/** add variables to the scenario */
1963static
1965 SCIP* scip, /**< the SCIP data structure */
1966 STOSCENARIO* scenario, /**< the current scenario */
1967 SCIP_HASHMAP* varmap, /**< the variable map from the original to the subproblem variables */
1968 SCIP_VAR** vars, /**< the variables of the core problem associated with this scenario */
1969 int nvars /**< the number of variables for this scenario */
1970 )
1971{
1972 SCIP_Real probability;
1973 int i;
1974 char name[SCIP_MAXSTRLEN];
1975
1976 assert(scip != NULL);
1977 assert(scenario != NULL);
1978 assert(vars != NULL);
1979
1980 /* computing the probability for the scenario */
1981 probability = computeScenarioProbability(scip, scenario);
1982
1983 for( i = 0; i < nvars; i++ )
1984 {
1985 SCIP_VAR* var;
1986 SCIP_Real obj;
1987 SCIP_VARTYPE vartype;
1988
1989 SCIPdebugMessage("Original problem variable <%s> is being duplicated for scenario %d\n", SCIPvarGetName(vars[i]),
1990 getScenarioNum(scip, scenario));
1991
1992 if( SCIPvarIsDeleted(vars[i]) )
1993 continue;
1994
1995 obj = SCIPvarGetObj(vars[i])*probability;
1996
1997 vartype = SCIPvarGetType(vars[i]);
1998
1999 /* creating a variable as a copy of the original variable. */
2000 getScenarioEntityName(name, SCIPvarGetName(vars[i]), getScenarioStageNum(scip, scenario), getScenarioNum(scip, scenario));
2001 SCIP_CALL( SCIPcreateVar(scip, &var, name, SCIPvarGetLbOriginal(vars[i]), SCIPvarGetUbOriginal(vars[i]),
2002 obj, vartype, SCIPvarIsInitial(vars[i]), SCIPvarIsRemovable(vars[i]), NULL, NULL, NULL,
2003 NULL, NULL) );
2004
2005 SCIPdebugMessage("Adding variable <%s>\n", name);
2006
2007 SCIP_CALL( SCIPaddVar(scip, var) );
2008
2009 /* inserting the scenario variable into the hashmap */
2010 SCIP_CALL( SCIPhashmapInsert(varmap, vars[i], var) );
2011
2012 SCIP_CALL( SCIPreleaseVar(scip, &var) );
2013 }
2014
2015 return SCIP_OKAY;
2016}
2017
2018
2019/** finds the scenario variable to add to a constraint */
2020static
2022 SCIP* scip, /**< the SCIP data structure */
2023 STOSCENARIO* scenario, /**< the current scenario */
2024 SCIP_VAR* consvar, /**< the variable in the constraint that is being searched for */
2025 SCIP_VAR** scenariovar /**< pointer to return the variable to be added to the constraint */
2026 )
2027{
2028 STOSCENARIO* checkscen;
2029 char varname[SCIP_MAXSTRLEN];
2030
2031 assert(scip != NULL);
2032 assert(scenario != NULL);
2033 assert(consvar != NULL);
2034 assert(scenariovar != NULL);
2035
2036 (*scenariovar) = NULL;
2037
2038 checkscen = scenario;
2039
2040 /* NOTE: if the variable does not exist, then we need to search the preceding scenarios. In the case of
2041 * decomposition, then we only check the preceding scenario. As such, a check count is used to limit the number
2042 * of scenario checks. */
2043 while( (*scenariovar) == NULL )
2044 {
2045 assert(checkscen != NULL);
2046 if( getScenarioStageNum(scip, checkscen) == 0 )
2047 (void) SCIPsnprintf(varname, SCIP_MAXSTRLEN, "%s", SCIPvarGetName(consvar));
2048 else
2049 getScenarioEntityName(varname, SCIPvarGetName(consvar), getScenarioStageNum(scip, checkscen),
2050 getScenarioNum(scip, checkscen));
2051
2052 (*scenariovar) = SCIPfindVar(scip, varname);
2053
2054 checkscen = getScenarioParent(checkscen);
2055 }
2056
2057 if( (*scenariovar) == NULL )
2058 {
2059 SCIPerrorMessage("There is no scenario variable could be found.\n");
2060 return SCIP_READERROR;
2061 }
2062
2063 return SCIP_OKAY;
2064}
2065
2066
2067/** create variable for the decomposed scenario */
2068static
2070 SCIP* scip, /**< the SCIP data structure */
2071 STOSCENARIO* scenario, /**< the current scenario */
2072 SCIP_VAR* consvar, /**< the variable in the constraint that is being searched for */
2073 SCIP_VAR** scenariovar, /**< pointer to return the variable to be added to the constraint */
2074 SCIP_Bool* varadded /**< pointer to indicate whether a variable has been added */
2075 )
2076{
2077 STOSCENARIO* checkscen;
2078 SCIP_VAR* searchvar;
2079 int checkcount;
2080 char varname[SCIP_MAXSTRLEN];
2081
2082 assert(scip != NULL);
2083 assert(scenario != NULL);
2084 assert(consvar != NULL);
2085
2086 (*varadded) = FALSE;
2087
2088 /* finding the scenario that the consvar belongs to */
2089 checkscen = scenario;
2090 searchvar = NULL;
2091 checkcount = 0;
2092 while( searchvar == NULL && checkcount < 2 )
2093 {
2094 assert(checkscen != NULL);
2095 if( getScenarioStageNum(scip, checkscen) == 0 )
2096 (void) SCIPsnprintf(varname, SCIP_MAXSTRLEN, "%s", SCIPvarGetName(consvar));
2097 else
2098 getScenarioEntityName(varname, SCIPvarGetName(consvar), getScenarioStageNum(scip, checkscen),
2099 getScenarioNum(scip, checkscen));
2100
2101 /* first checking whether the variable is included in the scenario */
2102 searchvar = SCIPfindVar(scip, varname);
2103 if( searchvar != NULL )
2104 {
2105 (*scenariovar) = searchvar;
2106 return SCIP_OKAY;
2107 }
2108
2109 searchvar = SCIPfindVar(getScenarioScip(checkscen), varname);
2110
2111 checkscen = getScenarioParent(checkscen);
2112 checkcount++;
2113 }
2114
2115 if( searchvar != NULL )
2116 {
2117 SCIP_VAR* var;
2118 /* creating a variable as a copy of the original variable. */
2119 SCIP_CALL( SCIPcreateVar(scip, &var, varname, SCIPvarGetLbOriginal(searchvar), SCIPvarGetUbOriginal(searchvar),
2120 0.0, SCIPvarGetType(searchvar), SCIPvarIsInitial(searchvar), SCIPvarIsRemovable(searchvar), NULL, NULL,
2121 NULL, NULL, NULL) );
2122
2123 SCIP_CALL( SCIPaddVar(scip, var) );
2124
2125 (*scenariovar) = var;
2126 (*varadded) = TRUE;
2127 }
2128
2129 return SCIP_OKAY;
2130}
2131
2132
2133/** adds the constraint to the scenario problem */
2134static
2136 SCIP* scip, /**< the SCIP data structure */
2137 SCIP* scenarioscip, /**< the scenario SCIP data structure */
2138 STOSCENARIO* scenario, /**< the current scenario */
2139 SCIP_HASHMAP* varmap, /**< the variable map from the original to the subproblem variables */
2140 SCIP_CONS** conss, /**< the constraints of the core problem associated with this scenario */
2141 int nconss, /**< the number of constraints for this scenario */
2142 SCIP_Bool decomp /**< is the problem being decomposed */
2143 )
2144{
2145 int i;
2146 int j;
2147 char name[SCIP_MAXSTRLEN];
2148 SCIP_Bool varadded;
2149
2150 assert(scip != NULL);
2151 assert(scenarioscip != NULL);
2152 assert(scenario != NULL);
2153 assert(conss != NULL);
2154
2155 /* Add constraints */
2156 /* NOTE: It is assumed that the problems only have linear constraints */
2157 for( i = 0; i < nconss; i++ )
2158 {
2159 SCIP_CONS* cons;
2160 SCIP_VAR** consvars = NULL;
2161 int nconsvars;
2162 SCIP_Bool success1 = TRUE;
2163 SCIP_Bool success2 = TRUE;
2164
2165 if( SCIPconsIsDeleted(conss[i]) )
2166 continue;
2167
2168 /* getting the number of variables in the constraints */
2169 SCIP_CALL( SCIPgetConsNVars(scip, conss[i], &nconsvars, &success1) );
2170
2171 if( success1 )
2172 {
2173 SCIP_CALL( SCIPallocBufferArray(scip, &consvars, nconsvars) );
2174 SCIP_CALL( SCIPgetConsVars(scip, conss[i], consvars, nconsvars, &success2) );
2175
2176 /* If the get variable callback is not implemented for the constraint, then the success flag will be returned
2177 * as FALSE. In this case, it is not possible to build the stochastic program, so an error will be returned.
2178 */
2179 if( !success2 )
2180 {
2181 SCIPfreeBufferArrayNull(scip, consvars);
2182 }
2183 }
2184
2185 if( !success1 || !success2 )
2186 {
2187 SCIPerrorMessage("It is not possible to copy constraint <%s>. The stochastic program can not be built.\n",
2188 SCIPconsGetName(conss[i]));
2189
2190 return SCIP_READERROR;
2191 }
2192
2193 assert(consvars != NULL);
2194 for( j = 0; j < nconsvars; j++ )
2195 {
2196 SCIP_VAR* scenariovar;
2197
2198 scenariovar = NULL;
2199
2200 varadded = FALSE;
2201
2202 if( decomp )
2203 SCIP_CALL( getScenarioDecompVar(scenarioscip, scenario, consvars[j], &scenariovar, &varadded) );
2204 else
2205 SCIP_CALL( findScenarioVar(scenarioscip, scenario, consvars[j], &scenariovar) );
2206
2207 if( scenariovar != NULL )
2208 {
2209 /* checking whether the variable is in the variable hashmap. If it doesn't exist, then it is added to the
2210 * variable hashmap
2211 */
2212 if( !SCIPhashmapExists(varmap, consvars[j]) )
2213 {
2214 SCIP_CALL( SCIPhashmapInsert(varmap, consvars[j], scenariovar) );
2215 }
2216 }
2217
2218 if( varadded )
2219 {
2220 SCIP_CALL( SCIPreleaseVar(scenarioscip, &scenariovar) );
2221 }
2222 }
2223
2224 /* creating a linear constraint as a copy of the original constraint. */
2225 getScenarioEntityName(name, SCIPconsGetName(conss[i]), getScenarioStageNum(scip, scenario), getScenarioNum(scip, scenario));
2226
2227 /* copying the constraint from the original SCIP to the stochastic program */
2228 SCIP_CALL( SCIPgetConsCopy(scip, scenarioscip, conss[i], &cons, SCIPconsGetHdlr(conss[i]), varmap, NULL, name,
2229 SCIPconsIsInitial(conss[i]), SCIPconsIsSeparated(conss[i]), SCIPconsIsEnforced(conss[i]),
2230 SCIPconsIsChecked(conss[i]), SCIPconsIsMarkedPropagate(conss[i]), SCIPconsIsLocal(conss[i]),
2231 SCIPconsIsModifiable(conss[i]), SCIPconsIsDynamic(conss[i]), SCIPconsIsRemovable(conss[i]),
2232 SCIPconsIsStickingAtNode(conss[i]), TRUE, &success1) );
2233
2234 /* freeing the cons vars buffer array */
2235 SCIPfreeBufferArray(scip, &consvars);
2236
2237 /* if the copy failed, then the scenarios can not be created. */
2238 if( !success1 )
2239 {
2240 SCIPerrorMessage("It is not possible to copy constraint <%s>. The stochastic program can not be built.\n",
2241 SCIPconsGetName(conss[i]));
2242 return SCIP_READERROR;
2243 }
2244
2245 SCIP_CALL( SCIPaddCons(scenarioscip, cons) );
2246 SCIP_CALL( SCIPreleaseCons(scenarioscip, &cons) );
2247 }
2248
2249 return SCIP_OKAY;
2250}
2251
2252/** add variables and constraint to problem */
2253static
2255 SCIP* scip, /**< the SCIP data structure of master problem */
2256 STOSCENARIO* scenario, /**< the current scenario */
2257 SCIP_Bool decomp /**< is the problem being decomposed */
2258 )
2259{
2260 SCIP* scenarioscip;
2261 SCIP_BENDERS* benders;
2262 SCIP_HASHMAP* varmap;
2263 SCIP_CONS** conss;
2264 SCIP_VAR** vars;
2265 SCIP_Real probability;
2266 int nconss;
2267 int nvars;
2268 int nmastervars;
2269 int nentries;
2270 int stagenum;
2271 int i;
2272 char name[SCIP_MAXSTRLEN];
2273
2274 assert(scip != NULL);
2275 assert(scenario != NULL);
2276
2277 stagenum = SCIPtimFindStage(scip, getScenarioStageName(scip, scenario));
2278 if( stagenum < 0 || stagenum >= SCIPtimGetNStages(scip) )
2279 {
2280 SCIPerrorMessage("Unable to build stochastic program - stage <%s> was not found\n",
2281 getScenarioStageName(scip, scenario));
2282 return SCIP_READERROR;
2283 }
2284
2285 SCIPdebugMessage("Creating scenario at stage <%d>. Scenario: %d Stage: %d\n", stagenum, getScenarioNum(scip, scenario),
2286 getScenarioStageNum(scip, scenario));
2287
2288 conss = SCIPtimGetStageConss(scip, stagenum);
2289 nconss = SCIPtimGetStageNConss(scip, stagenum);
2290 vars = SCIPtimGetStageVars(scip, stagenum);
2291 nvars = SCIPtimGetStageNVars(scip, stagenum);
2292
2293 nmastervars = SCIPgetNVars(scip);
2294
2295 /* this if 0 will be removed when the stochastic reader is merged with the Benders' branch */
2296 if( decomp )
2297 {
2298 SCIP_CALL( SCIPcreate(&scenarioscip) );
2299
2301
2302 /* creating the problem */
2303 SCIP_CALL( SCIPcreateProbBasic(scenarioscip, name) );
2304
2305 /* we explicitly enable the use of a debug solution for this main SCIP instance */
2306 SCIPenableDebugSol(scenarioscip);
2307
2308 /* include default SCIP plugins */
2309 SCIP_CALL( SCIPincludeDefaultPlugins(scenarioscip) );
2310
2311 /* activating the Benders' constraint handler for the scenario stages.
2312 * TODO: consider whether the two-phase method should be activated by default in the scenario stages.
2313 */
2314 SCIP_CALL( SCIPsetBoolParam(scenarioscip, "constraints/benders/active", TRUE) );
2315
2316 /* allocating memory for the subproblems */
2317 if( getScenarioNChildren(scenario) > 0 )
2319 }
2320 else
2321 scenarioscip = scip;
2322
2323 /* adding the scenarioscip to the scenario */
2324 setScenarioScip(scenario, scenarioscip);
2325
2326 /* creating the variable hashmap to copy the constraints */
2327 SCIP_CALL( SCIPhashmapCreate(&varmap, SCIPblkmem(scenarioscip), nmastervars) );
2328
2329 /* adding the variables to the scenario */
2330 SCIP_CALL( addScenarioVarsToProb(scenarioscip, scenario, varmap, vars, nvars) );
2331
2332 /* adding the constraints to the scenario */
2333 SCIP_CALL( addScenarioConsToProb(scip, scenarioscip, scenario, varmap, conss, nconss, decomp) );
2334
2335 /* destroying the hashmap */
2336 SCIPhashmapFree(&varmap);
2337
2338 /* add the variables and constraints of the child scenarios */
2339 for( i = 0; i < getScenarioNChildren(scenario); i++ )
2340 {
2341 /* the master SCIP is always passed to the recursive function. The scenario SCIP instances are generated in the
2342 * function call. */
2344 if( decomp )
2346 }
2347
2348 /* adding the Benders' decomposition */
2349 if( decomp && getScenarioNChildren(scenario) > 0 )
2350 {
2352
2353 /* getting the default Benders' decomposition */
2354 benders = SCIPfindBenders(scenarioscip, "default");
2355
2356 /* updating the lower bounds for the subproblems */
2357 for( i = 0; i < getScenarioNChildren(scenario); i++ )
2359 getScenarioLowerbound(scenarioscip, getScenarioChild(scenario, i)));
2360 }
2361
2362 /* computing the probability for the scenario */
2363 probability = computeScenarioProbability(scenarioscip, scenario);
2364
2365 /* change the constraints for the given scenario */
2366 nentries = getScenarioNEntries(scenario);
2367 for( i = 0; i < nentries; i++ )
2368 {
2369 SCIP_CONS* cons;
2370 SCIP_VAR* var;
2371 char RHS[] = "RHS";
2372 char rhs[] = "rhs";
2373 char RIGHT[] = "RIGHT";
2374 char MINI[] = "MINI";
2375 char obj[] = "obj";
2376 char OBJ[] = "OBJ";
2377
2378 /* finding the constraint associated with the row */
2379 getScenarioEntityName(name, getScenarioEntryRow(scenario, i), getScenarioStageNum(scenarioscip, scenario),
2380 getScenarioNum(scenarioscip, scenario));
2381 cons = SCIPfindCons(scenarioscip, name);
2382
2383 if( strncmp(getScenarioEntryCol(scenario, i), RHS, 3) == 0 ||
2384 strncmp(getScenarioEntryCol(scenario, i), rhs, 3) == 0 ||
2385 strcmp(getScenarioEntryCol(scenario, i), RIGHT) == 0 )
2386 {
2387 /* if the constraint is NULL, then it is not possible to make any changes to the scenario */
2388 if( cons == NULL )
2389 {
2390 SCIPerrorMessage("There is no constraint <%s> in the current scenario.\n", name);
2391 return SCIP_READERROR;
2392 }
2393
2394 /* if the constraint is an equality constraint, then the LHS must also be changed */
2395 if( SCIPgetLhsLinear(scenarioscip, cons) >= SCIPgetRhsLinear(scenarioscip, cons) )
2396 {
2397 SCIP_CALL( SCIPchgLhsLinear(scenarioscip, cons, getScenarioEntryValue(scenario, i)) );
2398 SCIP_CALL( SCIPchgRhsLinear(scenarioscip, cons, getScenarioEntryValue(scenario, i)) );
2399 }
2400 else if( SCIPisLT(scenarioscip, SCIPgetRhsLinear(scenarioscip, cons), SCIPinfinity(scenarioscip)) )
2401 SCIP_CALL( SCIPchgRhsLinear(scenarioscip, cons, getScenarioEntryValue(scenario, i)) );
2402 else if( SCIPisLT(scenarioscip, SCIPgetLhsLinear(scenarioscip, cons), SCIPinfinity(scenarioscip)) )
2403 SCIP_CALL( SCIPchgLhsLinear(scenarioscip, cons, getScenarioEntryValue(scenario, i)) );
2404 }
2405 else if( strstr(getScenarioEntryRow(scenario, i), MINI) != NULL ||
2406 strstr(getScenarioEntryRow(scenario, i), obj) != NULL ||
2407 strstr(getScenarioEntryRow(scenario, i), OBJ) != NULL )
2408 {
2409 /* finding the variable associated with the column */
2410 getScenarioEntityName(name, getScenarioEntryCol(scenario, i), getScenarioStageNum(scenarioscip, scenario),
2411 getScenarioNum(scenarioscip, scenario));
2412 var = SCIPfindVar(scenarioscip, name);
2413
2414 /* changing the coefficient for the variable */
2415 if( var == NULL )
2416 {
2417 SCIPerrorMessage("There is no variable <%s> in the current scenario.\n", name);
2418 return SCIP_READERROR;
2419 }
2420 else
2421 {
2422 SCIP_CALL( SCIPchgVarObj(scenarioscip, var, getScenarioEntryValue(scenario, i)*probability) );
2423 }
2424 }
2425 else
2426 {
2427 /* if the constraint is NULL, then it is not possible to make any changes to the scenario */
2428 if( cons == NULL )
2429 {
2430 SCIPerrorMessage("There is no constraint <%s> in the current scenario.\n", name);
2431 return SCIP_READERROR;
2432 }
2433
2434 /* finding the variable associated with the column */
2435 getScenarioEntityName(name, getScenarioEntryCol(scenario, i), getScenarioStageNum(scenarioscip, scenario),
2436 getScenarioNum(scenarioscip, scenario));
2437 var = SCIPfindVar(scenarioscip, name);
2438
2439 if( var == NULL )
2440 {
2441 (void) SCIPsnprintf(name, SCIP_MAXSTRLEN, "%s", getScenarioEntryCol(scenario, i));
2442 var = SCIPfindVar(scenarioscip, name);
2443 }
2444
2445 /* changing the coefficient for the variable */
2446 if( var == NULL )
2447 {
2448 SCIPerrorMessage("There is no variable <%s> in the current scenario.\n", name);
2449 return SCIP_READERROR;
2450 }
2451 else
2452 {
2453 SCIP_CALL( SCIPchgCoefLinear(scenarioscip, cons, var, getScenarioEntryValue(scenario, i)) );
2454 }
2455 }
2456 }
2457
2458 return SCIP_OKAY;
2459}
2460
2461/** removes the core variables and constriants for stage 2 and lower */
2462static
2464 SCIP* scip /**< the SCIP data structure */
2465 )
2466{
2467 SCIP_CONS** conss;
2468 SCIP_VAR** vars;
2469 int nconss;
2470 int nvars;
2471 int numstages;
2472 int i;
2473 int j;
2474 SCIP_Bool deleted;
2475
2476 assert(scip != NULL);
2477
2478 numstages = SCIPtimGetNStages(scip);
2479
2480 /* looping through all stages to remove the variables and constraints. The first stage is not removed as these are
2481 * part of the complete problem */
2482 for( i = 1; i < numstages; i++ )
2483 {
2484 conss = SCIPtimGetStageConss(scip, i);
2485 vars = SCIPtimGetStageVars(scip, i);
2486 nconss = SCIPtimGetStageNConss(scip, i);
2487 nvars = SCIPtimGetStageNVars(scip, i);
2488
2489 /* removing constriants */
2490 for( j = 0; j < nconss; j++ )
2491 {
2492 if( !SCIPconsIsDeleted(conss[j]) )
2493 SCIP_CALL( SCIPdelCons(scip, conss[j]) );
2494 }
2495
2496 /* removing variables */
2497 for( j = 0; j < nvars; j++ )
2498 {
2499 if( !SCIPvarIsDeleted(vars[j]) )
2500 {
2501 SCIP_CALL( SCIPdelVar(scip, vars[j], &deleted) );
2502 assert(deleted);
2503 }
2504 }
2505 }
2506
2507 return SCIP_OKAY;
2508}
2509
2510
2511/* build the stochastic program completely as a MIP, i.e. no decomposition */
2512static
2514 SCIP* scip, /**< the SCIP data structure */
2515 SCIP_READERDATA* readerdata /**< the reader data */
2516 )
2517{
2518 int i;
2519
2520 assert(scip != NULL);
2521 assert(readerdata != NULL);
2522
2523 /* adding all variables and constraints for stages below the first stage.
2524 * The first stage is covered by the original problem. */
2525 for( i = 0; i < getScenarioNChildren(readerdata->scenariotree); i++ )
2526 SCIP_CALL( addScenarioVarsAndConsToProb(scip, getScenarioChild(readerdata->scenariotree, i), FALSE) );
2527
2528 /* removing the variable and constraints that were included as part of the core file */
2530
2531 return SCIP_OKAY;
2532}
2533
2534
2535/** builds the stochastic program using Benders' decomposition */
2536static
2538 SCIP* scip, /**< the SCIP data structure */
2539 SCIP_READERDATA* readerdata /**< the reader data */
2540 )
2541{
2542 SCIP_BENDERS* benders;
2543 int i;
2544
2545 assert(scip != NULL);
2546 assert(readerdata != NULL);
2547
2548 SCIP_CALL( createScenarioSubproblemArray(scip, readerdata->scenariotree) );
2549
2550 /* activating the Benders' constraint handler. The two-phase method is activated by default. If the user desires not
2551 * to use the two-phase method, then the setting in cons_benderslp must be explicitly changed.
2552 */
2553 SCIP_CALL( SCIPsetBoolParam(scip, "constraints/benders/active", TRUE) );
2554
2555 setScenarioScip(readerdata->scenariotree, scip);
2556
2557 /* adding all variables and constraints for stages below the first stage.
2558 * The first stage is covered by the original problem. */
2559 for( i = 0; i < getScenarioNChildren(readerdata->scenariotree); i++ )
2560 {
2561 SCIP_CALL( addScenarioVarsAndConsToProb(scip, getScenarioChild(readerdata->scenariotree, i), TRUE) );
2562 addScenarioSubproblem(readerdata->scenariotree, getScenarioScip(getScenarioChild(readerdata->scenariotree, i)));
2563 }
2564
2565 /* creating the Benders' decomposition */
2567 getScenarioNChildren(readerdata->scenariotree)) );
2568
2569 /* getting the default Benders' decomposition */
2570 benders = SCIPfindBenders(scip, "default");
2571
2572 /* updating the lower bounds for the subproblems */
2573 for( i = 0; i < getScenarioNChildren(readerdata->scenariotree); i++ )
2574 {
2576 getScenarioLowerbound(scip, getScenarioChild(readerdata->scenariotree, i)));
2577 }
2578
2579 /* removing the variable and constraints that were included as part of the core file */
2581
2582 /* changing settings that are required for Benders' decomposition */
2584 SCIP_CALL( SCIPsetIntParam(scip, "propagating/maxrounds", 0) );
2585 SCIP_CALL( SCIPsetIntParam(scip, "propagating/maxroundsroot", 0) );
2586 SCIP_CALL( SCIPsetIntParam(scip, "heuristics/trysol/freq", 1) );
2587
2588 /* disabling aggregation since it can affect the mapping between the master and subproblem variables */
2589 SCIP_CALL( SCIPsetBoolParam(scip, "presolving/donotaggr", TRUE) );
2590 SCIP_CALL( SCIPsetBoolParam(scip, "presolving/donotmultaggr", TRUE) );
2591
2592 return SCIP_OKAY;
2593}
2594
2595/** Read the stochastic information of an SMPS file instance in "STO File Format". */
2596static
2598 SCIP* scip, /**< SCIP data structure */
2599 const char* filename, /**< name of the input file */
2600 SCIP_READERDATA* readerdata /**< the reader data */
2601 )
2602{
2603 SCIP_FILE* fp;
2604 STOINPUT* stoi;
2605 SCIP_RETCODE retcode;
2606 SCIP_Bool error = TRUE;
2607 SCIP_Bool unsupported = FALSE;
2608
2609 assert(scip != NULL);
2610 assert(filename != NULL);
2611
2612 fp = SCIPfopen(filename, "r");
2613 if( fp == NULL )
2614 {
2615 SCIPerrorMessage("cannot open file <%s> for reading\n", filename);
2616 SCIPprintSysError(filename);
2617 return SCIP_NOFILE;
2618 }
2619
2621 SCIP_CALL_TERMINATE( retcode, createReaderdata(scip, readerdata), TERMINATE );
2622
2623 SCIP_CALL_TERMINATE( retcode, readStoch(scip, stoi), TERMINATE );
2624
2625 /* checking for supported stochastic information types */
2627 {
2628 SCIPinfoMessage(scip, NULL, "\nSorry, currently only STO files with the stochastic information as DISCRETE are supported.\n\n");
2629 SCIPinfoMessage(scip, NULL, "NOTE: The problem provided by the COR file is loaded without stochastic information.\n\n");
2630 unsupported = TRUE;
2631 }
2632 else
2633 {
2634 if( stoinputSection(stoi) == STO_BLOCKS )
2635 {
2636 /* coverity[tainted_data] */
2637 SCIP_CALL_TERMINATE( retcode, readBlocks(stoi, scip, readerdata), TERMINATE );
2638 }
2639
2640 if( stoinputSection(stoi) == STO_SCENARIOS )
2641 {
2642 /* if there are more than two stages, then the sto file is not read. */
2643 if( SCIPtimGetNStages(scip) > 2 )
2644 {
2645 SCIPinfoMessage(scip, NULL, "\nThe scenarios for the stochastic programs are defined in <%s> as SCENARIOS\n", filename);
2646 SCIPinfoMessage(scip, NULL, "Sorry, currently only two-stage stochastic programs are supported when scenarios are defined as SCENARIOS.\n\n");
2647 SCIPinfoMessage(scip, NULL, "NOTE: The problem provided by the COR file is loaded without stochastic information.\n\n");
2648 unsupported = TRUE;
2649 }
2650 else
2651 {
2652 SCIP_CALL_TERMINATE( retcode, readScenarios(stoi, scip, readerdata), TERMINATE );
2653 }
2654 }
2655
2656 if( stoinputSection(stoi) == STO_INDEP )
2657 {
2658 SCIP_CALL_TERMINATE( retcode, readIndep(stoi, scip, readerdata), TERMINATE );
2659 }
2660 }
2661
2662 if( !unsupported && stoinputSection(stoi) != STO_ENDATA )
2663 stoinputSyntaxerror(stoi);
2664
2665 error = stoinputHasError(stoi);
2666
2667 if( !error && !unsupported )
2668 {
2669 if( readerdata->usebenders )
2670 {
2671 SCIP_CALL_TERMINATE( retcode, buildDecompProblem(scip, readerdata), TERMINATE );
2672 }
2673 else
2674 {
2675 SCIP_CALL_TERMINATE( retcode, buildFullProblem(scip, readerdata), TERMINATE );
2676 }
2677 }
2678
2679/* cppcheck-suppress unusedLabel */
2680TERMINATE:
2681 stoinputFree(scip, &stoi);
2682 SCIPfclose(fp);
2683
2684 if( error || retcode != SCIP_OKAY )
2685 return SCIP_READERROR;
2686 else
2687 return SCIP_OKAY;
2688}
2689
2690
2691/*
2692 * Callback methods of reader
2693 */
2694
2695/** copy method for reader plugins (called when SCIP copies plugins) */
2696static
2698{ /*lint --e{715}*/
2699 assert(scip != NULL);
2700 assert(reader != NULL);
2701 assert(strcmp(SCIPreaderGetName(reader), READER_NAME) == 0);
2702
2703 /* call inclusion method of reader */
2705
2706 return SCIP_OKAY;
2707}
2708
2709/** destructor of reader to free user data (called when SCIP is exiting) */
2710static
2712{
2713 SCIP_READERDATA* readerdata;
2714
2715 assert(strcmp(SCIPreaderGetName(reader), READER_NAME) == 0);
2716 readerdata = SCIPreaderGetData(reader);
2717 assert(readerdata != NULL);
2718
2719 SCIP_CALL( freeReaderdata(scip, readerdata) );
2720
2721 return SCIP_OKAY;
2722}
2723
2724/** problem reading method of reader */
2725static
2727{ /*lint --e{715}*/
2728 SCIP_READER* correader;
2729 SCIP_READER* timreader;
2730
2731 assert(reader != NULL);
2732 assert(strcmp(SCIPreaderGetName(reader), READER_NAME) == 0);
2733
2734 correader = SCIPfindReader(scip, "correader");
2735 timreader = SCIPfindReader(scip, "timreader");
2736
2737 if( correader == NULL )
2738 {
2739 SCIPwarningMessage(scip, "It is necessary to include the \"cor\" reader\n");
2740 (*result) = SCIP_DIDNOTRUN;
2741 return SCIP_OKAY;
2742 }
2743
2744 if( timreader == NULL )
2745 {
2746 SCIPwarningMessage(scip, "It is necessary to include the \"tim\" reader\n");
2747 (*result) = SCIP_DIDNOTRUN;
2748 return SCIP_OKAY;
2749 }
2750
2751 /* checking whether the cor file has been read */
2752 if( !SCIPcorHasRead(correader) )
2753 {
2754 SCIPwarningMessage(scip, "The core file must be read before the time and stochastic files.\n");
2755 (*result) = SCIP_DIDNOTRUN;
2756 return SCIP_OKAY;
2757 }
2758
2759 /* checking whether the tim file has been read */
2760 if( !SCIPtimHasRead(timreader) )
2761 {
2762 SCIPwarningMessage(scip, "The time file must be read before the stochastic files.\n");
2763 (*result) = SCIP_DIDNOTRUN;
2764 return SCIP_OKAY;
2765 }
2766
2767 SCIP_CALL( SCIPreadSto(scip, filename, result) );
2768
2769 return SCIP_OKAY;
2770}
2771
2772/*
2773 * sto file reader specific interface methods
2774 */
2775
2776/** includes the sto file reader in SCIP */
2778 SCIP* scip /**< SCIP data structure */
2779 )
2780{
2781 SCIP_READERDATA* readerdata;
2782 SCIP_READER* reader;
2783
2784 /* create reader data */
2785 SCIP_CALL( SCIPallocBlockMemory(scip, &readerdata) );
2786 readerdata->scenariotree = NULL;
2787 readerdata->numscenarios = 0;
2788
2789 /* include reader */
2791
2792 /* set non fundamental callbacks via setter functions */
2793 SCIP_CALL( SCIPsetReaderCopy(scip, reader, readerCopySto) );
2794 SCIP_CALL( SCIPsetReaderFree(scip, reader, readerFreeSto) );
2795 SCIP_CALL( SCIPsetReaderRead(scip, reader, readerReadSto) );
2796
2797 /* add decomposition parameters */
2799 "reading/" READER_NAME "/usebenders",
2800 "should Benders' decomposition be used?",
2801 &readerdata->usebenders, FALSE, DEFAULT_USEBENDERS, NULL, NULL) );
2802
2803 return SCIP_OKAY;
2804}
2805
2806
2807/** reads the stochastic information for a stochastic program that is in SMPS format */
2809 SCIP* scip, /**< SCIP data structure */
2810 const char* filename, /**< full path and name of file to read, or NULL if stdin should be used */
2811 SCIP_RESULT* result /**< pointer to store the result of the file reading call */
2812 )
2813{
2814 SCIP_READER* reader;
2815 SCIP_READERDATA* readerdata;
2816 SCIP_RETCODE retcode;
2817
2818 assert(scip != NULL);
2819 assert(result != NULL);
2820
2821 reader = SCIPfindReader(scip, READER_NAME);
2822 assert(reader != NULL);
2823 readerdata = SCIPreaderGetData(reader);
2824
2825 retcode = readSto(scip, filename, readerdata);
2826
2827 if( retcode == SCIP_PLUGINNOTFOUND )
2828 retcode = SCIP_READERROR;
2829
2830 if( retcode == SCIP_NOFILE || retcode == SCIP_READERROR )
2831 return retcode;
2832
2833 SCIP_CALL( retcode );
2834
2835 *result = SCIP_SUCCESS;
2836
2837 return SCIP_OKAY;
2838}
2839
2840/** returns the total number of scenarios added to the problem */
2842 SCIP* scip /**< SCIP data structure */
2843 )
2844{
2845 SCIP_READER* reader;
2846 SCIP_READERDATA* readerdata;
2847
2848 reader = SCIPfindReader(scip, READER_NAME);
2849
2850 assert(reader != NULL);
2851 assert(strcmp(SCIPreaderGetName(reader), READER_NAME) == 0);
2852
2853 readerdata = SCIPreaderGetData(reader);
2854 assert(readerdata != NULL);
2855
2856 return readerdata->numscenarios;
2857}
default Benders' decomposition plugin
Constraint handler for linear constraints in their most general form, .
#define NULL
Definition: def.h:266
#define SCIP_MAXSTRLEN
Definition: def.h:287
#define SCIP_Bool
Definition: def.h:91
#define SCIP_Real
Definition: def.h:172
#define TRUE
Definition: def.h:93
#define FALSE
Definition: def.h:94
#define SCIP_CALL_TERMINATE(retcode, x, TERM)
Definition: def.h:394
#define SCIP_CALL(x)
Definition: def.h:373
#define SCIP_CALL_FINALLY(x, y)
Definition: def.h:415
SCIP_FILE * SCIPfopen(const char *path, const char *mode)
Definition: fileio.c:153
int SCIPfclose(SCIP_FILE *fp)
Definition: fileio.c:232
char * SCIPfgets(char *s, int size, SCIP_FILE *stream)
Definition: fileio.c:200
SCIP_RETCODE SCIPcreateBendersDefault(SCIP *scip, SCIP **subproblems, int nsubproblems)
SCIP_Real SCIPgetRhsLinear(SCIP *scip, SCIP_CONS *cons)
SCIP_RETCODE SCIPchgRhsLinear(SCIP *scip, SCIP_CONS *cons, SCIP_Real rhs)
SCIP_Real SCIPgetLhsLinear(SCIP *scip, SCIP_CONS *cons)
SCIP_RETCODE SCIPchgLhsLinear(SCIP *scip, SCIP_CONS *cons, SCIP_Real lhs)
SCIP_RETCODE SCIPchgCoefLinear(SCIP *scip, SCIP_CONS *cons, SCIP_VAR *var, SCIP_Real val)
SCIP_RETCODE SCIPgetConsCopy(SCIP *sourcescip, SCIP *targetscip, SCIP_CONS *sourcecons, SCIP_CONS **targetcons, SCIP_CONSHDLR *sourceconshdlr, SCIP_HASHMAP *varmap, SCIP_HASHMAP *consmap, const char *name, 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: scip_copy.c:1591
void SCIPenableDebugSol(SCIP *scip)
Definition: scip_debug.c:57
int SCIPstoGetNScenarios(SCIP *scip)
Definition: reader_sto.c:2841
SCIP_Bool SCIPcorHasRead(SCIP_READER *reader)
Definition: reader_cor.c:217
SCIP_RETCODE SCIPreadSto(SCIP *scip, const char *filename, SCIP_RESULT *result)
Definition: reader_sto.c:2808
SCIP_RETCODE SCIPincludeReaderSto(SCIP *scip)
Definition: reader_sto.c:2777
SCIP_RETCODE SCIPfree(SCIP **scip)
Definition: scip_general.c:349
SCIP_RETCODE SCIPcreate(SCIP **scip)
Definition: scip_general.c:317
SCIP_RETCODE SCIPaddVar(SCIP *scip, SCIP_VAR *var)
Definition: scip_prob.c:1668
const char * SCIPgetProbName(SCIP *scip)
Definition: scip_prob.c:1067
int SCIPgetNVars(SCIP *scip)
Definition: scip_prob.c:1992
SCIP_RETCODE SCIPaddCons(SCIP *scip, SCIP_CONS *cons)
Definition: scip_prob.c:2770
SCIP_RETCODE SCIPdelCons(SCIP *scip, SCIP_CONS *cons)
Definition: scip_prob.c:2843
SCIP_RETCODE SCIPdelVar(SCIP *scip, SCIP_VAR *var, SCIP_Bool *deleted)
Definition: scip_prob.c:1790
SCIP_RETCODE SCIPcreateProbBasic(SCIP *scip, const char *name)
Definition: scip_prob.c:180
SCIP_VAR * SCIPfindVar(SCIP *scip, const char *name)
Definition: scip_prob.c:2685
SCIP_CONS * SCIPfindCons(SCIP *scip, const char *name)
Definition: scip_prob.c:2948
void SCIPhashmapFree(SCIP_HASHMAP **hashmap)
Definition: misc.c:3111
SCIP_RETCODE SCIPhashmapInsert(SCIP_HASHMAP *hashmap, void *origin, void *image)
Definition: misc.c:3159
SCIP_RETCODE SCIPhashmapCreate(SCIP_HASHMAP **hashmap, BMS_BLKMEM *blkmem, int mapsize)
Definition: misc.c:3077
SCIP_Bool SCIPhashmapExists(SCIP_HASHMAP *hashmap, void *origin)
Definition: misc.c:3426
void SCIPinfoMessage(SCIP *scip, FILE *file, const char *formatstr,...)
Definition: scip_message.c:208
#define SCIPdebugMsg
Definition: scip_message.h:78
void SCIPwarningMessage(SCIP *scip, const char *formatstr,...)
Definition: scip_message.c:120
SCIP_RETCODE SCIPsetIntParam(SCIP *scip, const char *name, int value)
Definition: scip_param.c:487
SCIP_RETCODE SCIPsetPresolving(SCIP *scip, SCIP_PARAMSETTING paramsetting, SCIP_Bool quiet)
Definition: scip_param.c:953
SCIP_RETCODE SCIPaddBoolParam(SCIP *scip, const char *name, const char *desc, SCIP_Bool *valueptr, SCIP_Bool isadvanced, SCIP_Bool defaultvalue, SCIP_DECL_PARAMCHGD((*paramchgd)), SCIP_PARAMDATA *paramdata)
Definition: scip_param.c:57
SCIP_RETCODE SCIPsetBoolParam(SCIP *scip, const char *name, SCIP_Bool value)
Definition: scip_param.c:429
SCIP_BENDERS * SCIPfindBenders(SCIP *scip, const char *name)
Definition: scip_benders.c:493
void SCIPbendersUpdateSubproblemLowerbound(SCIP_BENDERS *benders, int probnumber, SCIP_Real lowerbound)
Definition: benders.c:6769
SCIP_RETCODE SCIPgetConsNVars(SCIP *scip, SCIP_CONS *cons, int *nvars, SCIP_Bool *success)
Definition: scip_cons.c:2622
SCIP_Bool SCIPconsIsDynamic(SCIP_CONS *cons)
Definition: cons.c:8473
SCIP_CONSHDLR * SCIPconsGetHdlr(SCIP_CONS *cons)
Definition: cons.c:8234
SCIP_Bool SCIPconsIsInitial(SCIP_CONS *cons)
Definition: cons.c:8383
SCIP_Bool SCIPconsIsMarkedPropagate(SCIP_CONS *cons)
Definition: cons.c:8423
SCIP_Bool SCIPconsIsChecked(SCIP_CONS *cons)
Definition: cons.c:8413
SCIP_Bool SCIPconsIsDeleted(SCIP_CONS *cons)
Definition: cons.c:8343
SCIP_RETCODE SCIPgetConsVars(SCIP *scip, SCIP_CONS *cons, SCIP_VAR **vars, int varssize, SCIP_Bool *success)
Definition: scip_cons.c:2578
SCIP_Bool SCIPconsIsEnforced(SCIP_CONS *cons)
Definition: cons.c:8403
SCIP_Bool SCIPconsIsLocal(SCIP_CONS *cons)
Definition: cons.c:8453
const char * SCIPconsGetName(SCIP_CONS *cons)
Definition: cons.c:8214
SCIP_Bool SCIPconsIsModifiable(SCIP_CONS *cons)
Definition: cons.c:8463
SCIP_Bool SCIPconsIsStickingAtNode(SCIP_CONS *cons)
Definition: cons.c:8493
SCIP_RETCODE SCIPreleaseCons(SCIP *scip, SCIP_CONS **cons)
Definition: scip_cons.c:1174
SCIP_Bool SCIPconsIsSeparated(SCIP_CONS *cons)
Definition: cons.c:8393
SCIP_Bool SCIPconsIsRemovable(SCIP_CONS *cons)
Definition: cons.c:8483
#define SCIPfreeBlockMemoryArray(scip, ptr, num)
Definition: scip_mem.h:110
#define SCIPensureBlockMemoryArray(scip, ptr, arraysizeptr, minsize)
Definition: scip_mem.h:107
int SCIPcalcMemGrowSize(SCIP *scip, int num)
Definition: scip_mem.c:139
#define SCIPallocBufferArray(scip, ptr, num)
Definition: scip_mem.h:124
#define SCIPfreeBufferArray(scip, ptr)
Definition: scip_mem.h:136
#define SCIPallocBlockMemoryArray(scip, ptr, num)
Definition: scip_mem.h:93
#define SCIPreallocBlockMemoryArray(scip, ptr, oldnum, newnum)
Definition: scip_mem.h:99
#define SCIPfreeBlockMemory(scip, ptr)
Definition: scip_mem.h:108
#define SCIPfreeBufferArrayNull(scip, ptr)
Definition: scip_mem.h:137
#define SCIPallocBlockMemory(scip, ptr)
Definition: scip_mem.h:89
#define SCIPduplicateBlockMemoryArray(scip, ptr, source, num)
Definition: scip_mem.h:105
SCIP_RETCODE SCIPincludeReaderBasic(SCIP *scip, SCIP_READER **readerptr, const char *name, const char *desc, const char *extension, SCIP_READERDATA *readerdata)
Definition: scip_reader.c:109
SCIP_RETCODE SCIPsetReaderCopy(SCIP *scip, SCIP_READER *reader, SCIP_DECL_READERCOPY((*readercopy)))
Definition: scip_reader.c:147
SCIP_READERDATA * SCIPreaderGetData(SCIP_READER *reader)
Definition: reader.c:492
SCIP_READER * SCIPfindReader(SCIP *scip, const char *name)
Definition: scip_reader.c:235
SCIP_RETCODE SCIPsetReaderFree(SCIP *scip, SCIP_READER *reader, SCIP_DECL_READERFREE((*readerfree)))
Definition: scip_reader.c:171
const char * SCIPreaderGetName(SCIP_READER *reader)
Definition: reader.c:557
SCIP_RETCODE SCIPsetReaderRead(SCIP *scip, SCIP_READER *reader, SCIP_DECL_READERREAD((*readerread)))
Definition: scip_reader.c:195
SCIP_Real SCIPinfinity(SCIP *scip)
SCIP_Bool SCIPisLT(SCIP *scip, SCIP_Real val1, SCIP_Real val2)
SCIP_Bool SCIPvarIsInitial(SCIP_VAR *var)
Definition: var.c:17619
SCIP_Bool SCIPvarIsDeleted(SCIP_VAR *var)
Definition: var.c:17639
SCIP_Real SCIPvarGetLbOriginal(SCIP_VAR *var)
Definition: var.c:18023
SCIP_Real SCIPvarGetObj(SCIP_VAR *var)
Definition: var.c:17925
SCIP_VARTYPE SCIPvarGetType(SCIP_VAR *var)
Definition: var.c:17583
const char * SCIPvarGetName(SCIP_VAR *var)
Definition: var.c:17418
SCIP_Real SCIPvarGetUbOriginal(SCIP_VAR *var)
Definition: var.c:18043
SCIP_RETCODE SCIPreleaseVar(SCIP *scip, SCIP_VAR **var)
Definition: scip_var.c:1248
SCIP_Bool SCIPvarIsRemovable(SCIP_VAR *var)
Definition: var.c:17629
SCIP_RETCODE SCIPcreateVar(SCIP *scip, SCIP_VAR **var, const char *name, SCIP_Real lb, SCIP_Real ub, SCIP_Real obj, SCIP_VARTYPE vartype, SCIP_Bool initial, SCIP_Bool removable, SCIP_DECL_VARDELORIG((*vardelorig)), SCIP_DECL_VARTRANS((*vartrans)), SCIP_DECL_VARDELTRANS((*vardeltrans)), SCIP_DECL_VARCOPY((*varcopy)), SCIP_VARDATA *vardata)
Definition: scip_var.c:114
SCIP_RETCODE SCIPchgVarObj(SCIP *scip, SCIP_VAR *var, SCIP_Real newobj)
Definition: scip_var.c:4636
int SCIPsnprintf(char *t, int len, const char *s,...)
Definition: misc.c:10880
void SCIPprintSysError(const char *message)
Definition: misc.c:10772
char * SCIPstrtok(char *s, const char *delim, char **ptrptr)
Definition: misc.c:10821
int SCIPmemccpy(char *dest, const char *src, char stop, unsigned int cnt)
Definition: misc.c:10747
memory allocation routines
BMS_BLKMEM * SCIPblkmem(SCIP *scip)
Definition: scip_mem.c:57
public methods for managing constraints
wrapper functions to map file i/o to standard or zlib file i/o
struct SCIP_File SCIP_FILE
Definition: pub_fileio.h:43
public methods for message output
#define SCIPerrorMessage
Definition: pub_message.h:64
#define SCIPdebugMessage
Definition: pub_message.h:96
public data structures and miscellaneous methods
public methods for input file readers
public methods for problem variables
#define RIGHT
Definition: rbtree.c:43
COR file reader (MPS format of the core problem for stochastic programs)
#define DEFAULT_USEBENDERS
Definition: reader_sto.c:64
static SCIP_RETCODE readStoch(SCIP *scip, STOINPUT *stoi)
Definition: reader_sto.c:1384
static SCIP_RETCODE readScenarios(STOINPUT *stoi, SCIP *scip, SCIP_READERDATA *readerdata)
Definition: reader_sto.c:1611
static SCIP_RETCODE createScenarioData(SCIP *scip, STOSCENARIO **scenariodata)
Definition: reader_sto.c:162
static SCIP_RETCODE setScenarioProbability(SCIP *scip, STOSCENARIO *scenario, SCIP_Real probability)
Definition: reader_sto.c:466
static SCIP_Real getScenarioProbability(SCIP *scip, STOSCENARIO *scenario)
Definition: reader_sto.c:482
static void stoinputFree(SCIP *scip, STOINPUT **stoi)
Definition: reader_sto.c:1077
static void stoinputSyntaxerror(STOINPUT *stoi)
Definition: reader_sto.c:1248
StoSection
Definition: reader_sto.c:118
@ STO_INDEP
Definition: reader_sto.c:122
@ STO_SCENARIOS
Definition: reader_sto.c:120
@ STO_BLOCKS
Definition: reader_sto.c:121
@ STO_ENDATA
Definition: reader_sto.c:123
@ STO_STOCH
Definition: reader_sto.c:119
static SCIP_Bool stoinputHasError(const STOINPUT *stoi)
Definition: reader_sto.c:1186
static const char * getScenarioName(STOSCENARIO *scenario)
Definition: reader_sto.c:426
static SCIP_RETCODE removeCoreVariablesAndConstraints(SCIP *scip)
Definition: reader_sto.c:2463
static void getScenarioEntityName(char *name, const char *varname, int stagenum, int scenarionum)
Definition: reader_sto.c:1948
static SCIP_RETCODE readSto(SCIP *scip, const char *filename, SCIP_READERDATA *readerdata)
Definition: reader_sto.c:2597
static void clearFrom(char *buf, unsigned int pos)
Definition: reader_sto.c:1261
static void stoinputSetSection(STOINPUT *stoi, STOSECTION section)
Definition: reader_sto.c:1197
static STOSTOCHINFO stoinputStochInfoType(const STOINPUT *stoi)
Definition: reader_sto.c:1098
static SCIP ** getScenarioSubproblemArray(STOSCENARIO *scenario)
Definition: reader_sto.c:306
#define STO_DEFAULT_CHILDRENSIZE
Definition: reader_sto.c:76
static int getScenarioNChildren(STOSCENARIO *scenario)
Definition: reader_sto.c:317
static SCIP_RETCODE insertScenarioInReaderdata(SCIP *scip, SCIP_READERDATA *readerdata, STOSCENARIO *scenario, char *parentname)
Definition: reader_sto.c:806
static SCIP_RETCODE readBlocks(STOINPUT *stoi, SCIP *scip, SCIP_READERDATA *readerdata)
Definition: reader_sto.c:1446
static SCIP_RETCODE createReaderdata(SCIP *scip, SCIP_READERDATA *readerdata)
Definition: reader_sto.c:1006
static const char * stoinputField5(const STOINPUT *stoi)
Definition: reader_sto.c:1164
static SCIP_RETCODE addScenarioConsToProb(SCIP *scip, SCIP *scenarioscip, STOSCENARIO *scenario, SCIP_HASHMAP *varmap, SCIP_CONS **conss, int nconss, SCIP_Bool decomp)
Definition: reader_sto.c:2135
static SCIP_DECL_READERREAD(readerReadSto)
Definition: reader_sto.c:2726
static SCIP_Real getScenarioEntryValue(STOSCENARIO *scenario, int entry)
Definition: reader_sto.c:593
static SCIP_RETCODE buildScenariosFromBlocks(SCIP *scip, STOSCENARIO ***blocks, STOSCENARIO ***scenarios, STOSCENARIO ***blocksforscen, int *numblocksforscen, int numblocks, int *numblocksperblock, int *numscenarios, int *scenariossize, const char *stage, int stagenum, int blocknum)
Definition: reader_sto.c:833
static int getScenarioStageNum(SCIP *scip, STOSCENARIO *scenario)
Definition: reader_sto.c:397
#define BLANK
Definition: reader_sto.c:78
enum StoSection STOSECTION
Definition: reader_sto.c:125
static SCIP_RETCODE createScenarioSubproblemArray(SCIP *scip, STOSCENARIO *scenario)
Definition: reader_sto.c:275
enum StoStochInfo STOSTOCHINFO
Definition: reader_sto.c:137
static void setScenarioScip(STOSCENARIO *scenario, SCIP *scip)
Definition: reader_sto.c:251
static int getScenarioNum(SCIP *scip, STOSCENARIO *scenario)
Definition: reader_sto.c:453
#define READER_DESC
Definition: reader_sto.c:61
#define STO_MAX_LINELEN
Definition: reader_sto.c:70
static SCIP_RETCODE setScenarioStageName(SCIP *scip, STOSCENARIO *scenario, const char *stagename)
Definition: reader_sto.c:352
#define STO_DEFAULT_ARRAYSIZE
Definition: reader_sto.c:73
static SCIP_Bool stoinputReadLine(STOINPUT *stoi)
Definition: reader_sto.c:1275
static const char * getScenarioEntryCol(STOSCENARIO *scenario, int entry)
Definition: reader_sto.c:580
static SCIP_RETCODE addScenarioVarsToProb(SCIP *scip, STOSCENARIO *scenario, SCIP_HASHMAP *varmap, SCIP_VAR **vars, int nvars)
Definition: reader_sto.c:1964
static SCIP_RETCODE addScenarioEntry(SCIP *scip, STOSCENARIO *scenario, const char *rowname, const char *colname, SCIP_Real value)
Definition: reader_sto.c:524
#define STO_DEFAULT_ENTRIESSIZE
Definition: reader_sto.c:74
#define READER_EXTENSION
Definition: reader_sto.c:62
#define STO_DEFAULT_BLOCKARRAYSIZE
Definition: reader_sto.c:75
static const char * stoinputField4(const STOINPUT *stoi)
Definition: reader_sto.c:1153
static void stoinputSetStochtype(STOINPUT *stoi, const char *stochtype)
Definition: reader_sto.c:1235
static SCIP_RETCODE setScenarioLowerbound(SCIP *scip, STOSCENARIO *scenario, SCIP_Real lowerbound)
Definition: reader_sto.c:495
static SCIP_RETCODE stoinputCreate(SCIP *scip, STOINPUT **stoi, SCIP_FILE *fp)
Definition: reader_sto.c:1045
static SCIP_RETCODE scenarioAddChild(SCIP *scip, STOSCENARIO **parent, STOSCENARIO *child)
Definition: reader_sto.c:678
static void addScenarioSubproblem(STOSCENARIO *scenario, SCIP *subproblem)
Definition: reader_sto.c:290
static const char * stoinputField2(const STOINPUT *stoi)
Definition: reader_sto.c:1131
static SCIP_RETCODE createScenariosFromBlocks(SCIP *scip, SCIP_READERDATA *readerdata, STOSCENARIO ***blocks, int numblocks, int *numblocksperblock, int numstages)
Definition: reader_sto.c:930
static SCIP_RETCODE buildScenarioTree(SCIP *scip, STOSCENARIO **scenariotree, STOSCENARIO ***scenarios, int *numscenarios, int numstages, int stage)
Definition: reader_sto.c:706
static STOSECTION stoinputSection(const STOINPUT *stoi)
Definition: reader_sto.c:1087
static void stoinputSetStochInfoType(STOINPUT *stoi, STOSTOCHINFO stochinfotype)
Definition: reader_sto.c:1209
static SCIP_RETCODE buildDecompProblem(SCIP *scip, SCIP_READERDATA *readerdata)
Definition: reader_sto.c:2537
static const char * stoinputField6(const STOINPUT *stoi)
Definition: reader_sto.c:1175
static SCIP_RETCODE getScenarioDecompVar(SCIP *scip, STOSCENARIO *scenario, SCIP_VAR *consvar, SCIP_VAR **scenariovar, SCIP_Bool *varadded)
Definition: reader_sto.c:2069
static SCIP_RETCODE addScenarioVarsAndConsToProb(SCIP *scip, STOSCENARIO *scenario, SCIP_Bool decomp)
Definition: reader_sto.c:2254
StoStochInfo
Definition: reader_sto.c:129
@ STO_STOCHINFO_NORMAL
Definition: reader_sto.c:133
@ STO_STOCHINFO_NONE
Definition: reader_sto.c:130
@ STO_STOCHINFO_UNIFORM
Definition: reader_sto.c:132
@ STO_STOCHINFO_DISCRETE
Definition: reader_sto.c:131
@ STO_STOCHINFO_LINTR
Definition: reader_sto.c:135
@ STO_STOCHINFO_SUB
Definition: reader_sto.c:134
static STOSCENARIO * findScenarioInTree(STOSCENARIO *scenariotree, const char *scenname)
Definition: reader_sto.c:779
static SCIP_RETCODE copyScenario(SCIP *scip, STOSCENARIO *sourcescenario, STOSCENARIO **targetscenario, SCIP_Bool copyname)
Definition: reader_sto.c:608
#define READER_NAME
Definition: reader_sto.c:60
static SCIP_RETCODE freeReaderdata(SCIP *scip, SCIP_READERDATA *readerdata)
Definition: reader_sto.c:1026
static const char * stoinputField0(const STOINPUT *stoi)
Definition: reader_sto.c:1109
static SCIP_RETCODE setScenarioName(SCIP *scip, STOSCENARIO *scenario, const char *name)
Definition: reader_sto.c:410
static SCIP_RETCODE freeScenarioTree(SCIP *scip, STOSCENARIO **scenariotree)
Definition: reader_sto.c:198
static SCIP_RETCODE readIndep(STOINPUT *stoi, SCIP *scip, SCIP_READERDATA *readerdata)
Definition: reader_sto.c:1754
#define STO_MAX_NAMELEN
Definition: reader_sto.c:71
static SCIP_DECL_READERFREE(readerFreeSto)
Definition: reader_sto.c:2711
static void stoinputSetProbname(STOINPUT *stoi, const char *probname)
Definition: reader_sto.c:1221
static SCIP_Real computeScenarioProbability(SCIP *scip, STOSCENARIO *scenario)
Definition: reader_sto.c:1923
static SCIP_RETCODE setScenarioStageNum(SCIP *scip, STOSCENARIO *scenario, int stagenum)
Definition: reader_sto.c:381
static SCIP * getScenarioScip(STOSCENARIO *scenario)
Definition: reader_sto.c:264
static int getScenarioNEntries(STOSCENARIO *scenario)
Definition: reader_sto.c:556
static SCIP_Real getScenarioLowerbound(SCIP *scip, STOSCENARIO *scenario)
Definition: reader_sto.c:511
static SCIP_RETCODE findScenarioVar(SCIP *scip, STOSCENARIO *scenario, SCIP_VAR *consvar, SCIP_VAR **scenariovar)
Definition: reader_sto.c:2021
static STOSCENARIO * getScenarioChild(STOSCENARIO *scenario, int childnum)
Definition: reader_sto.c:328
static const char * getScenarioStageName(SCIP *scip, STOSCENARIO *scenario)
Definition: reader_sto.c:368
static SCIP_RETCODE mergeScenarios(SCIP *scip, STOSCENARIO *scenario1, STOSCENARIO **mergedscenario)
Definition: reader_sto.c:651
static SCIP_RETCODE buildFullProblem(SCIP *scip, SCIP_READERDATA *readerdata)
Definition: reader_sto.c:2513
static SCIP_RETCODE addScenariosToReaderdata(SCIP *scip, SCIP_READERDATA *readerdata, STOSCENARIO ***scenarios, int *numscenarios, int numscenariostages)
Definition: reader_sto.c:752
static const char * stoinputField1(const STOINPUT *stoi)
Definition: reader_sto.c:1120
static SCIP_RETCODE setScenarioNum(SCIP *scip, STOSCENARIO *scenario, int scenarionum)
Definition: reader_sto.c:437
static SCIP_DECL_READERCOPY(readerCopySto)
Definition: reader_sto.c:2697
static const char * getScenarioEntryRow(STOSCENARIO *scenario, int entry)
Definition: reader_sto.c:567
static STOSCENARIO * getScenarioParent(STOSCENARIO *scenario)
Definition: reader_sto.c:341
static const char * stoinputField3(const STOINPUT *stoi)
Definition: reader_sto.c:1142
STO file reader - the stochastic information of an instance in SMPS format.
int SCIPtimFindStage(SCIP *scip, const char *stage)
Definition: reader_tim.c:1019
int SCIPtimGetStageNVars(SCIP *scip, int stagenum)
Definition: reader_tim.c:1099
SCIP_VAR ** SCIPtimGetStageVars(SCIP *scip, int stagenum)
Definition: reader_tim.c:1057
SCIP_Bool SCIPtimHasRead(SCIP_READER *reader)
Definition: reader_tim.c:921
int SCIPtimGetNStages(SCIP *scip)
Definition: reader_tim.c:938
const char * SCIPtimGetStageName(SCIP *scip, int stagenum)
Definition: reader_tim.c:957
SCIP_CONS ** SCIPtimGetStageConss(SCIP *scip, int stagenum)
Definition: reader_tim.c:1078
int SCIPtimGetStageNConss(SCIP *scip, int stagenum)
Definition: reader_tim.c:1120
const char * SCIPtimConsGetStageName(SCIP *scip, const char *consname)
Definition: reader_tim.c:978
TIM file reader - the stage information for a stochastic programming instance in SMPS format.
public methods for constraint handler plugins and constraints
public methods for debugging
general public methods
public methods for memory management
public methods for message handling
public methods for numerical tolerances
public methods for SCIP parameter handling
public methods for global and local (sub)problems
public methods for reader plugins
public methods for SCIP variables
SCIP_RETCODE SCIPincludeDefaultPlugins(SCIP *scip)
default SCIP plugins
@ RHS
char buf[STO_MAX_LINELEN]
Definition: reader_sto.c:147
const char * f4
Definition: reader_sto.c:152
const char * f1
Definition: reader_sto.c:149
char probname[STO_MAX_NAMELEN]
Definition: reader_sto.c:155
STOSTOCHINFO stochinfotype
Definition: reader_sto.c:143
const char * f5
Definition: reader_sto.c:153
int lineno
Definition: reader_sto.c:145
const char * f2
Definition: reader_sto.c:150
SCIP_Bool haserror
Definition: reader_sto.c:146
STOSECTION section
Definition: reader_sto.c:142
SCIP_FILE * fp
Definition: reader_sto.c:144
const char * f0
Definition: reader_sto.c:148
char stochtype[STO_MAX_NAMELEN]
Definition: reader_sto.c:156
const char * f3
Definition: reader_sto.c:151
const char * f6
Definition: reader_sto.c:154
SCIP_Real lowerbound
Definition: reader_sto.c:105
SCIP_Real * values
Definition: reader_sto.c:109
const char ** colnames
Definition: reader_sto.c:108
int nchildren
Definition: reader_sto.c:97
const char * name
Definition: reader_sto.c:103
int childrensize
Definition: reader_sto.c:98
SCIP ** subproblems
Definition: reader_sto.c:94
int entriessize
Definition: reader_sto.c:111
const char * stagename
Definition: reader_sto.c:102
int nsubproblems
Definition: reader_sto.c:99
SCIP * scip
Definition: reader_sto.c:93
STOSCENARIO ** children
Definition: reader_sto.c:96
int scenarionum
Definition: reader_sto.c:101
STOSCENARIO * parent
Definition: reader_sto.c:95
const char ** rownames
Definition: reader_sto.c:107
SCIP_Real probability
Definition: reader_sto.c:104
@ SCIP_PARAMSETTING_OFF
Definition: type_paramset.h:63
struct SCIP_ReaderData SCIP_READERDATA
Definition: type_reader.h:53
@ SCIP_DIDNOTRUN
Definition: type_result.h:42
@ SCIP_SUCCESS
Definition: type_result.h:58
enum SCIP_Result SCIP_RESULT
Definition: type_result.h:61
@ SCIP_NOFILE
Definition: type_retcode.h:47
@ SCIP_READERROR
Definition: type_retcode.h:45
@ SCIP_PLUGINNOTFOUND
Definition: type_retcode.h:54
@ SCIP_OKAY
Definition: type_retcode.h:42
enum SCIP_Retcode SCIP_RETCODE
Definition: type_retcode.h:63
enum SCIP_Vartype SCIP_VARTYPE
Definition: type_var.h:73