glpk-cmake: src/glpnpp01.c@c445c931472f (annotated)

alpar@1	1	/* glpnpp01.c */
alpar@1	2
alpar@1	3	/***********************************************************************
alpar@1	4	* This code is part of GLPK (GNU Linear Programming Kit).
alpar@1	5	*
alpar@1	6	* Copyright (C) 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008,
alpar@1	7	* 2009, 2010 Andrew Makhorin, Department for Applied Informatics,
alpar@1	8	* Moscow Aviation Institute, Moscow, Russia. All rights reserved.
alpar@1	9	* E-mail: <mao@gnu.org>.
alpar@1	10	*
alpar@1	11	* GLPK is free software: you can redistribute it and/or modify it
alpar@1	12	* under the terms of the GNU General Public License as published by
alpar@1	13	* the Free Software Foundation, either version 3 of the License, or
alpar@1	14	* (at your option) any later version.
alpar@1	15	*
alpar@1	16	* GLPK is distributed in the hope that it will be useful, but WITHOUT
alpar@1	17	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
alpar@1	18	* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
alpar@1	19	* License for more details.
alpar@1	20	*
alpar@1	21	* You should have received a copy of the GNU General Public License
alpar@1	22	* along with GLPK. If not, see <http://www.gnu.org/licenses/>.
alpar@1	23	***********************************************************************/
alpar@1	24
alpar@1	25	#include "glpnpp.h"
alpar@1	26
alpar@1	27	NPP *npp_create_wksp(void)
alpar@1	28	{ /* create LP/MIP preprocessor workspace */
alpar@1	29	NPP *npp;
alpar@1	30	npp = xmalloc(sizeof(NPP));
alpar@1	31	npp->orig_dir = 0;
alpar@1	32	npp->orig_m = npp->orig_n = npp->orig_nnz = 0;
alpar@1	33	npp->pool = dmp_create_pool();
alpar@1	34	npp->name = npp->obj = NULL;
alpar@1	35	npp->c0 = 0.0;
alpar@1	36	npp->nrows = npp->ncols = 0;
alpar@1	37	npp->r_head = npp->r_tail = NULL;
alpar@1	38	npp->c_head = npp->c_tail = NULL;
alpar@1	39	npp->stack = dmp_create_pool();
alpar@1	40	npp->top = NULL;
alpar@1	41	#if 0 /* 16/XII-2009 */
alpar@1	42	memset(&npp->count, 0, sizeof(npp->count));
alpar@1	43	#endif
alpar@1	44	npp->m = npp->n = npp->nnz = 0;
alpar@1	45	npp->row_ref = npp->col_ref = NULL;
alpar@1	46	npp->sol = npp->scaling = 0;
alpar@1	47	npp->p_stat = npp->d_stat = npp->t_stat = npp->i_stat = 0;
alpar@1	48	npp->r_stat = NULL;
alpar@1	49	/npp->r_prim =/ npp->r_pi = NULL;
alpar@1	50	npp->c_stat = NULL;
alpar@1	51	npp->c_value = /npp->c_dual =/ NULL;
alpar@1	52	return npp;
alpar@1	53	}
alpar@1	54
alpar@1	55	void npp_insert_row(NPP npp, NPPROW row, int where)
alpar@1	56	{ /* insert row to the row list */
alpar@1	57	if (where == 0)
alpar@1	58	{ /* insert row to the beginning of the row list */
alpar@1	59	row->prev = NULL;
alpar@1	60	row->next = npp->r_head;
alpar@1	61	if (row->next == NULL)
alpar@1	62	npp->r_tail = row;
alpar@1	63	else
alpar@1	64	row->next->prev = row;
alpar@1	65	npp->r_head = row;
alpar@1	66	}
alpar@1	67	else
alpar@1	68	{ /* insert row to the end of the row list */
alpar@1	69	row->prev = npp->r_tail;
alpar@1	70	row->next = NULL;
alpar@1	71	if (row->prev == NULL)
alpar@1	72	npp->r_head = row;
alpar@1	73	else
alpar@1	74	row->prev->next = row;
alpar@1	75	npp->r_tail = row;
alpar@1	76	}
alpar@1	77	return;
alpar@1	78	}
alpar@1	79
alpar@1	80	void npp_remove_row(NPP npp, NPPROW row)
alpar@1	81	{ /* remove row from the row list */
alpar@1	82	if (row->prev == NULL)
alpar@1	83	npp->r_head = row->next;
alpar@1	84	else
alpar@1	85	row->prev->next = row->next;
alpar@1	86	if (row->next == NULL)
alpar@1	87	npp->r_tail = row->prev;
alpar@1	88	else
alpar@1	89	row->next->prev = row->prev;
alpar@1	90	return;
alpar@1	91	}
alpar@1	92
alpar@1	93	void npp_activate_row(NPP npp, NPPROW row)
alpar@1	94	{ /* make row active */
alpar@1	95	if (!row->temp)
alpar@1	96	{ row->temp = 1;
alpar@1	97	/* move the row to the beginning of the row list */
alpar@1	98	npp_remove_row(npp, row);
alpar@1	99	npp_insert_row(npp, row, 0);
alpar@1	100	}
alpar@1	101	return;
alpar@1	102	}
alpar@1	103
alpar@1	104	void npp_deactivate_row(NPP npp, NPPROW row)
alpar@1	105	{ /* make row inactive */
alpar@1	106	if (row->temp)
alpar@1	107	{ row->temp = 0;
alpar@1	108	/* move the row to the end of the row list */
alpar@1	109	npp_remove_row(npp, row);
alpar@1	110	npp_insert_row(npp, row, 1);
alpar@1	111	}
alpar@1	112	return;
alpar@1	113	}
alpar@1	114
alpar@1	115	void npp_insert_col(NPP npp, NPPCOL col, int where)
alpar@1	116	{ /* insert column to the column list */
alpar@1	117	if (where == 0)
alpar@1	118	{ /* insert column to the beginning of the column list */
alpar@1	119	col->prev = NULL;
alpar@1	120	col->next = npp->c_head;
alpar@1	121	if (col->next == NULL)
alpar@1	122	npp->c_tail = col;
alpar@1	123	else
alpar@1	124	col->next->prev = col;
alpar@1	125	npp->c_head = col;
alpar@1	126	}
alpar@1	127	else
alpar@1	128	{ /* insert column to the end of the column list */
alpar@1	129	col->prev = npp->c_tail;
alpar@1	130	col->next = NULL;
alpar@1	131	if (col->prev == NULL)
alpar@1	132	npp->c_head = col;
alpar@1	133	else
alpar@1	134	col->prev->next = col;
alpar@1	135	npp->c_tail = col;
alpar@1	136	}
alpar@1	137	return;
alpar@1	138	}
alpar@1	139
alpar@1	140	void npp_remove_col(NPP npp, NPPCOL col)
alpar@1	141	{ /* remove column from the column list */
alpar@1	142	if (col->prev == NULL)
alpar@1	143	npp->c_head = col->next;
alpar@1	144	else
alpar@1	145	col->prev->next = col->next;
alpar@1	146	if (col->next == NULL)
alpar@1	147	npp->c_tail = col->prev;
alpar@1	148	else
alpar@1	149	col->next->prev = col->prev;
alpar@1	150	return;
alpar@1	151	}
alpar@1	152
alpar@1	153	void npp_activate_col(NPP npp, NPPCOL col)
alpar@1	154	{ /* make column active */
alpar@1	155	if (!col->temp)
alpar@1	156	{ col->temp = 1;
alpar@1	157	/* move the column to the beginning of the column list */
alpar@1	158	npp_remove_col(npp, col);
alpar@1	159	npp_insert_col(npp, col, 0);
alpar@1	160	}
alpar@1	161	return;
alpar@1	162	}
alpar@1	163
alpar@1	164	void npp_deactivate_col(NPP npp, NPPCOL col)
alpar@1	165	{ /* make column inactive */
alpar@1	166	if (col->temp)
alpar@1	167	{ col->temp = 0;
alpar@1	168	/* move the column to the end of the column list */
alpar@1	169	npp_remove_col(npp, col);
alpar@1	170	npp_insert_col(npp, col, 1);
alpar@1	171	}
alpar@1	172	return;
alpar@1	173	}
alpar@1	174
alpar@1	175	NPPROW npp_add_row(NPP npp)
alpar@1	176	{ /* add new row to the current problem */
alpar@1	177	NPPROW *row;
alpar@1	178	row = dmp_get_atom(npp->pool, sizeof(NPPROW));
alpar@1	179	row->i = ++(npp->nrows);
alpar@1	180	row->name = NULL;
alpar@1	181	row->lb = -DBL_MAX, row->ub = +DBL_MAX;
alpar@1	182	row->ptr = NULL;
alpar@1	183	row->temp = 0;
alpar@1	184	npp_insert_row(npp, row, 1);
alpar@1	185	return row;
alpar@1	186	}
alpar@1	187
alpar@1	188	NPPCOL npp_add_col(NPP npp)
alpar@1	189	{ /* add new column to the current problem */
alpar@1	190	NPPCOL *col;
alpar@1	191	col = dmp_get_atom(npp->pool, sizeof(NPPCOL));
alpar@1	192	col->j = ++(npp->ncols);
alpar@1	193	col->name = NULL;
alpar@1	194	#if 0
alpar@1	195	col->kind = GLP_CV;
alpar@1	196	#else
alpar@1	197	col->is_int = 0;
alpar@1	198	#endif
alpar@1	199	col->lb = col->ub = col->coef = 0.0;
alpar@1	200	col->ptr = NULL;
alpar@1	201	col->temp = 0;
alpar@1	202	npp_insert_col(npp, col, 1);
alpar@1	203	return col;
alpar@1	204	}
alpar@1	205
alpar@1	206	NPPAIJ npp_add_aij(NPP npp, NPPROW row, NPPCOL col, double val)
alpar@1	207	{ /* add new element to the constraint matrix */
alpar@1	208	NPPAIJ *aij;
alpar@1	209	aij = dmp_get_atom(npp->pool, sizeof(NPPAIJ));
alpar@1	210	aij->row = row;
alpar@1	211	aij->col = col;
alpar@1	212	aij->val = val;
alpar@1	213	aij->r_prev = NULL;
alpar@1	214	aij->r_next = row->ptr;
alpar@1	215	aij->c_prev = NULL;
alpar@1	216	aij->c_next = col->ptr;
alpar@1	217	if (aij->r_next != NULL)
alpar@1	218	aij->r_next->r_prev = aij;
alpar@1	219	if (aij->c_next != NULL)
alpar@1	220	aij->c_next->c_prev = aij;
alpar@1	221	row->ptr = col->ptr = aij;
alpar@1	222	return aij;
alpar@1	223	}
alpar@1	224
alpar@1	225	int npp_row_nnz(NPP npp, NPPROW row)
alpar@1	226	{ /* count number of non-zero coefficients in row */
alpar@1	227	NPPAIJ *aij;
alpar@1	228	int nnz;
alpar@1	229	xassert(npp == npp);
alpar@1	230	nnz = 0;
alpar@1	231	for (aij = row->ptr; aij != NULL; aij = aij->r_next)
alpar@1	232	nnz++;
alpar@1	233	return nnz;
alpar@1	234	}
alpar@1	235
alpar@1	236	int npp_col_nnz(NPP npp, NPPCOL col)
alpar@1	237	{ /* count number of non-zero coefficients in column */
alpar@1	238	NPPAIJ *aij;
alpar@1	239	int nnz;
alpar@1	240	xassert(npp == npp);
alpar@1	241	nnz = 0;
alpar@1	242	for (aij = col->ptr; aij != NULL; aij = aij->c_next)
alpar@1	243	nnz++;
alpar@1	244	return nnz;
alpar@1	245	}
alpar@1	246
alpar@1	247	void npp_push_tse(NPP npp, int (func)(NPP npp, void *info),
alpar@1	248	int size)
alpar@1	249	{ /* push new entry to the transformation stack */
alpar@1	250	NPPTSE *tse;
alpar@1	251	tse = dmp_get_atom(npp->stack, sizeof(NPPTSE));
alpar@1	252	tse->func = func;
alpar@1	253	tse->info = dmp_get_atom(npp->stack, size);
alpar@1	254	tse->link = npp->top;
alpar@1	255	npp->top = tse;
alpar@1	256	return tse->info;
alpar@1	257	}
alpar@1	258
alpar@1	259	#if 1 /* 23/XII-2009 */
alpar@1	260	void npp_erase_row(NPP npp, NPPROW row)
alpar@1	261	{ /* erase row content to make it empty */
alpar@1	262	NPPAIJ *aij;
alpar@1	263	while (row->ptr != NULL)
alpar@1	264	{ aij = row->ptr;
alpar@1	265	row->ptr = aij->r_next;
alpar@1	266	if (aij->c_prev == NULL)
alpar@1	267	aij->col->ptr = aij->c_next;
alpar@1	268	else
alpar@1	269	aij->c_prev->c_next = aij->c_next;
alpar@1	270	if (aij->c_next == NULL)
alpar@1	271	;
alpar@1	272	else
alpar@1	273	aij->c_next->c_prev = aij->c_prev;
alpar@1	274	dmp_free_atom(npp->pool, aij, sizeof(NPPAIJ));
alpar@1	275	}
alpar@1	276	return;
alpar@1	277	}
alpar@1	278	#endif
alpar@1	279
alpar@1	280	void npp_del_row(NPP npp, NPPROW row)
alpar@1	281	{ /* remove row from the current problem */
alpar@1	282	#if 0 /* 23/XII-2009 */
alpar@1	283	NPPAIJ *aij;
alpar@1	284	#endif
alpar@1	285	if (row->name != NULL)
alpar@1	286	dmp_free_atom(npp->pool, row->name, strlen(row->name)+1);
alpar@1	287	#if 0 /* 23/XII-2009 */
alpar@1	288	while (row->ptr != NULL)
alpar@1	289	{ aij = row->ptr;
alpar@1	290	row->ptr = aij->r_next;
alpar@1	291	if (aij->c_prev == NULL)
alpar@1	292	aij->col->ptr = aij->c_next;
alpar@1	293	else
alpar@1	294	aij->c_prev->c_next = aij->c_next;
alpar@1	295	if (aij->c_next == NULL)
alpar@1	296	;
alpar@1	297	else
alpar@1	298	aij->c_next->c_prev = aij->c_prev;
alpar@1	299	dmp_free_atom(npp->pool, aij, sizeof(NPPAIJ));
alpar@1	300	}
alpar@1	301	#else
alpar@1	302	npp_erase_row(npp, row);
alpar@1	303	#endif
alpar@1	304	npp_remove_row(npp, row);
alpar@1	305	dmp_free_atom(npp->pool, row, sizeof(NPPROW));
alpar@1	306	return;
alpar@1	307	}
alpar@1	308
alpar@1	309	void npp_del_col(NPP npp, NPPCOL col)
alpar@1	310	{ /* remove column from the current problem */
alpar@1	311	NPPAIJ *aij;
alpar@1	312	if (col->name != NULL)
alpar@1	313	dmp_free_atom(npp->pool, col->name, strlen(col->name)+1);
alpar@1	314	while (col->ptr != NULL)
alpar@1	315	{ aij = col->ptr;
alpar@1	316	col->ptr = aij->c_next;
alpar@1	317	if (aij->r_prev == NULL)
alpar@1	318	aij->row->ptr = aij->r_next;
alpar@1	319	else
alpar@1	320	aij->r_prev->r_next = aij->r_next;
alpar@1	321	if (aij->r_next == NULL)
alpar@1	322	;
alpar@1	323	else
alpar@1	324	aij->r_next->r_prev = aij->r_prev;
alpar@1	325	dmp_free_atom(npp->pool, aij, sizeof(NPPAIJ));
alpar@1	326	}
alpar@1	327	npp_remove_col(npp, col);
alpar@1	328	dmp_free_atom(npp->pool, col, sizeof(NPPCOL));
alpar@1	329	return;
alpar@1	330	}
alpar@1	331
alpar@1	332	void npp_del_aij(NPP npp, NPPAIJ aij)
alpar@1	333	{ /* remove element from the constraint matrix */
alpar@1	334	if (aij->r_prev == NULL)
alpar@1	335	aij->row->ptr = aij->r_next;
alpar@1	336	else
alpar@1	337	aij->r_prev->r_next = aij->r_next;
alpar@1	338	if (aij->r_next == NULL)
alpar@1	339	;
alpar@1	340	else
alpar@1	341	aij->r_next->r_prev = aij->r_prev;
alpar@1	342	if (aij->c_prev == NULL)
alpar@1	343	aij->col->ptr = aij->c_next;
alpar@1	344	else
alpar@1	345	aij->c_prev->c_next = aij->c_next;
alpar@1	346	if (aij->c_next == NULL)
alpar@1	347	;
alpar@1	348	else
alpar@1	349	aij->c_next->c_prev = aij->c_prev;
alpar@1	350	dmp_free_atom(npp->pool, aij, sizeof(NPPAIJ));
alpar@1	351	return;
alpar@1	352	}
alpar@1	353
alpar@1	354	void npp_load_prob(NPP npp, glp_prob orig, int names, int sol,
alpar@1	355	int scaling)
alpar@1	356	{ /* load original problem into the preprocessor workspace */
alpar@1	357	int m = orig->m;
alpar@1	358	int n = orig->n;
alpar@1	359	NPPROW **link;
alpar@1	360	int i, j;
alpar@1	361	double dir;
alpar@1	362	xassert(names == GLP_OFF \|\| names == GLP_ON);
alpar@1	363	xassert(sol == GLP_SOL \|\| sol == GLP_IPT \|\| sol == GLP_MIP);
alpar@1	364	xassert(scaling == GLP_OFF \|\| scaling == GLP_ON);
alpar@1	365	if (sol == GLP_MIP) xassert(!scaling);
alpar@1	366	npp->orig_dir = orig->dir;
alpar@1	367	if (npp->orig_dir == GLP_MIN)
alpar@1	368	dir = +1.0;
alpar@1	369	else if (npp->orig_dir == GLP_MAX)
alpar@1	370	dir = -1.0;
alpar@1	371	else
alpar@1	372	xassert(npp != npp);
alpar@1	373	npp->orig_m = m;
alpar@1	374	npp->orig_n = n;
alpar@1	375	npp->orig_nnz = orig->nnz;
alpar@1	376	if (names && orig->name != NULL)
alpar@1	377	{ npp->name = dmp_get_atom(npp->pool, strlen(orig->name)+1);
alpar@1	378	strcpy(npp->name, orig->name);
alpar@1	379	}
alpar@1	380	if (names && orig->obj != NULL)
alpar@1	381	{ npp->obj = dmp_get_atom(npp->pool, strlen(orig->obj)+1);
alpar@1	382	strcpy(npp->obj, orig->obj);
alpar@1	383	}
alpar@1	384	npp->c0 = dir * orig->c0;
alpar@1	385	/* load rows */
alpar@1	386	link = xcalloc(1+m, sizeof(NPPROW *));
alpar@1	387	for (i = 1; i <= m; i++)
alpar@1	388	{ GLPROW *rrr = orig->row[i];
alpar@1	389	NPPROW *row;
alpar@1	390	link[i] = row = npp_add_row(npp);
alpar@1	391	xassert(row->i == i);
alpar@1	392	if (names && rrr->name != NULL)
alpar@1	393	{ row->name = dmp_get_atom(npp->pool, strlen(rrr->name)+1);
alpar@1	394	strcpy(row->name, rrr->name);
alpar@1	395	}
alpar@1	396	if (!scaling)
alpar@1	397	{ if (rrr->type == GLP_FR)
alpar@1	398	row->lb = -DBL_MAX, row->ub = +DBL_MAX;
alpar@1	399	else if (rrr->type == GLP_LO)
alpar@1	400	row->lb = rrr->lb, row->ub = +DBL_MAX;
alpar@1	401	else if (rrr->type == GLP_UP)
alpar@1	402	row->lb = -DBL_MAX, row->ub = rrr->ub;
alpar@1	403	else if (rrr->type == GLP_DB)
alpar@1	404	row->lb = rrr->lb, row->ub = rrr->ub;
alpar@1	405	else if (rrr->type == GLP_FX)
alpar@1	406	row->lb = row->ub = rrr->lb;
alpar@1	407	else
alpar@1	408	xassert(rrr != rrr);
alpar@1	409	}
alpar@1	410	else
alpar@1	411	{ double rii = rrr->rii;
alpar@1	412	if (rrr->type == GLP_FR)
alpar@1	413	row->lb = -DBL_MAX, row->ub = +DBL_MAX;
alpar@1	414	else if (rrr->type == GLP_LO)
alpar@1	415	row->lb = rrr->lb * rii, row->ub = +DBL_MAX;
alpar@1	416	else if (rrr->type == GLP_UP)
alpar@1	417	row->lb = -DBL_MAX, row->ub = rrr->ub * rii;
alpar@1	418	else if (rrr->type == GLP_DB)
alpar@1	419	row->lb = rrr->lb * rii, row->ub = rrr->ub * rii;
alpar@1	420	else if (rrr->type == GLP_FX)
alpar@1	421	row->lb = row->ub = rrr->lb * rii;
alpar@1	422	else
alpar@1	423	xassert(rrr != rrr);
alpar@1	424	}
alpar@1	425	}
alpar@1	426	/* load columns and constraint coefficients */
alpar@1	427	for (j = 1; j <= n; j++)
alpar@1	428	{ GLPCOL *ccc = orig->col[j];
alpar@1	429	GLPAIJ *aaa;
alpar@1	430	NPPCOL *col;
alpar@1	431	col = npp_add_col(npp);
alpar@1	432	xassert(col->j == j);
alpar@1	433	if (names && ccc->name != NULL)
alpar@1	434	{ col->name = dmp_get_atom(npp->pool, strlen(ccc->name)+1);
alpar@1	435	strcpy(col->name, ccc->name);
alpar@1	436	}
alpar@1	437	if (sol == GLP_MIP)
alpar@1	438	#if 0
alpar@1	439	col->kind = ccc->kind;
alpar@1	440	#else
alpar@1	441	col->is_int = (char)(ccc->kind == GLP_IV);
alpar@1	442	#endif
alpar@1	443	if (!scaling)
alpar@1	444	{ if (ccc->type == GLP_FR)
alpar@1	445	col->lb = -DBL_MAX, col->ub = +DBL_MAX;
alpar@1	446	else if (ccc->type == GLP_LO)
alpar@1	447	col->lb = ccc->lb, col->ub = +DBL_MAX;
alpar@1	448	else if (ccc->type == GLP_UP)
alpar@1	449	col->lb = -DBL_MAX, col->ub = ccc->ub;
alpar@1	450	else if (ccc->type == GLP_DB)
alpar@1	451	col->lb = ccc->lb, col->ub = ccc->ub;
alpar@1	452	else if (ccc->type == GLP_FX)
alpar@1	453	col->lb = col->ub = ccc->lb;
alpar@1	454	else
alpar@1	455	xassert(ccc != ccc);
alpar@1	456	col->coef = dir * ccc->coef;
alpar@1	457	for (aaa = ccc->ptr; aaa != NULL; aaa = aaa->c_next)
alpar@1	458	npp_add_aij(npp, link[aaa->row->i], col, aaa->val);
alpar@1	459	}
alpar@1	460	else
alpar@1	461	{ double sjj = ccc->sjj;
alpar@1	462	if (ccc->type == GLP_FR)
alpar@1	463	col->lb = -DBL_MAX, col->ub = +DBL_MAX;
alpar@1	464	else if (ccc->type == GLP_LO)
alpar@1	465	col->lb = ccc->lb / sjj, col->ub = +DBL_MAX;
alpar@1	466	else if (ccc->type == GLP_UP)
alpar@1	467	col->lb = -DBL_MAX, col->ub = ccc->ub / sjj;
alpar@1	468	else if (ccc->type == GLP_DB)
alpar@1	469	col->lb = ccc->lb / sjj, col->ub = ccc->ub / sjj;
alpar@1	470	else if (ccc->type == GLP_FX)
alpar@1	471	col->lb = col->ub = ccc->lb / sjj;
alpar@1	472	else
alpar@1	473	xassert(ccc != ccc);
alpar@1	474	col->coef = dir * ccc->coef * sjj;
alpar@1	475	for (aaa = ccc->ptr; aaa != NULL; aaa = aaa->c_next)
alpar@1	476	npp_add_aij(npp, link[aaa->row->i], col,
alpar@1	477	aaa->row->rii * aaa->val * sjj);
alpar@1	478	}
alpar@1	479	}
alpar@1	480	xfree(link);
alpar@1	481	/* keep solution indicator and scaling option */
alpar@1	482	npp->sol = sol;
alpar@1	483	npp->scaling = scaling;
alpar@1	484	return;
alpar@1	485	}
alpar@1	486
alpar@1	487	void npp_build_prob(NPP npp, glp_prob prob)
alpar@1	488	{ /* build resultant (preprocessed) problem */
alpar@1	489	NPPROW *row;
alpar@1	490	NPPCOL *col;
alpar@1	491	NPPAIJ *aij;
alpar@1	492	int i, j, type, len, *ind;
alpar@1	493	double dir, *val;
alpar@1	494	glp_erase_prob(prob);
alpar@1	495	glp_set_prob_name(prob, npp->name);
alpar@1	496	glp_set_obj_name(prob, npp->obj);
alpar@1	497	glp_set_obj_dir(prob, npp->orig_dir);
alpar@1	498	if (npp->orig_dir == GLP_MIN)
alpar@1	499	dir = +1.0;
alpar@1	500	else if (npp->orig_dir == GLP_MAX)
alpar@1	501	dir = -1.0;
alpar@1	502	else
alpar@1	503	xassert(npp != npp);
alpar@1	504	glp_set_obj_coef(prob, 0, dir * npp->c0);
alpar@1	505	/* build rows */
alpar@1	506	for (row = npp->r_head; row != NULL; row = row->next)
alpar@1	507	{ row->temp = i = glp_add_rows(prob, 1);
alpar@1	508	glp_set_row_name(prob, i, row->name);
alpar@1	509	if (row->lb == -DBL_MAX && row->ub == +DBL_MAX)
alpar@1	510	type = GLP_FR;
alpar@1	511	else if (row->ub == +DBL_MAX)
alpar@1	512	type = GLP_LO;
alpar@1	513	else if (row->lb == -DBL_MAX)
alpar@1	514	type = GLP_UP;
alpar@1	515	else if (row->lb != row->ub)
alpar@1	516	type = GLP_DB;
alpar@1	517	else
alpar@1	518	type = GLP_FX;
alpar@1	519	glp_set_row_bnds(prob, i, type, row->lb, row->ub);
alpar@1	520	}
alpar@1	521	/* build columns and the constraint matrix */
alpar@1	522	ind = xcalloc(1+prob->m, sizeof(int));
alpar@1	523	val = xcalloc(1+prob->m, sizeof(double));
alpar@1	524	for (col = npp->c_head; col != NULL; col = col->next)
alpar@1	525	{ j = glp_add_cols(prob, 1);
alpar@1	526	glp_set_col_name(prob, j, col->name);
alpar@1	527	#if 0
alpar@1	528	glp_set_col_kind(prob, j, col->kind);
alpar@1	529	#else
alpar@1	530	glp_set_col_kind(prob, j, col->is_int ? GLP_IV : GLP_CV);
alpar@1	531	#endif
alpar@1	532	if (col->lb == -DBL_MAX && col->ub == +DBL_MAX)
alpar@1	533	type = GLP_FR;
alpar@1	534	else if (col->ub == +DBL_MAX)
alpar@1	535	type = GLP_LO;
alpar@1	536	else if (col->lb == -DBL_MAX)
alpar@1	537	type = GLP_UP;
alpar@1	538	else if (col->lb != col->ub)
alpar@1	539	type = GLP_DB;
alpar@1	540	else
alpar@1	541	type = GLP_FX;
alpar@1	542	glp_set_col_bnds(prob, j, type, col->lb, col->ub);
alpar@1	543	glp_set_obj_coef(prob, j, dir * col->coef);
alpar@1	544	len = 0;
alpar@1	545	for (aij = col->ptr; aij != NULL; aij = aij->c_next)
alpar@1	546	{ len++;
alpar@1	547	ind[len] = aij->row->temp;
alpar@1	548	val[len] = aij->val;
alpar@1	549	}
alpar@1	550	glp_set_mat_col(prob, j, len, ind, val);
alpar@1	551	}
alpar@1	552	xfree(ind);
alpar@1	553	xfree(val);
alpar@1	554	/* resultant problem has been built */
alpar@1	555	npp->m = prob->m;
alpar@1	556	npp->n = prob->n;
alpar@1	557	npp->nnz = prob->nnz;
alpar@1	558	npp->row_ref = xcalloc(1+npp->m, sizeof(int));
alpar@1	559	npp->col_ref = xcalloc(1+npp->n, sizeof(int));
alpar@1	560	for (row = npp->r_head, i = 0; row != NULL; row = row->next)
alpar@1	561	npp->row_ref[++i] = row->i;
alpar@1	562	for (col = npp->c_head, j = 0; col != NULL; col = col->next)
alpar@1	563	npp->col_ref[++j] = col->j;
alpar@1	564	/* transformed problem segment is no longer needed */
alpar@1	565	dmp_delete_pool(npp->pool), npp->pool = NULL;
alpar@1	566	npp->name = npp->obj = NULL;
alpar@1	567	npp->c0 = 0.0;
alpar@1	568	npp->r_head = npp->r_tail = NULL;
alpar@1	569	npp->c_head = npp->c_tail = NULL;
alpar@1	570	return;
alpar@1	571	}
alpar@1	572
alpar@1	573	void npp_postprocess(NPP npp, glp_prob prob)
alpar@1	574	{ /* postprocess solution from the resultant problem */
alpar@1	575	GLPROW *row;
alpar@1	576	GLPCOL *col;
alpar@1	577	NPPTSE *tse;
alpar@1	578	int i, j, k;
alpar@1	579	double dir;
alpar@1	580	xassert(npp->orig_dir == prob->dir);
alpar@1	581	if (npp->orig_dir == GLP_MIN)
alpar@1	582	dir = +1.0;
alpar@1	583	else if (npp->orig_dir == GLP_MAX)
alpar@1	584	dir = -1.0;
alpar@1	585	else
alpar@1	586	xassert(npp != npp);
alpar@1	587	xassert(npp->m == prob->m);
alpar@1	588	xassert(npp->n == prob->n);
alpar@1	589	xassert(npp->nnz == prob->nnz);
alpar@1	590	/* copy solution status */
alpar@1	591	if (npp->sol == GLP_SOL)
alpar@1	592	{ npp->p_stat = prob->pbs_stat;
alpar@1	593	npp->d_stat = prob->dbs_stat;
alpar@1	594	}
alpar@1	595	else if (npp->sol == GLP_IPT)
alpar@1	596	npp->t_stat = prob->ipt_stat;
alpar@1	597	else if (npp->sol == GLP_MIP)
alpar@1	598	npp->i_stat = prob->mip_stat;
alpar@1	599	else
alpar@1	600	xassert(npp != npp);
alpar@1	601	/* allocate solution arrays */
alpar@1	602	if (npp->sol == GLP_SOL)
alpar@1	603	{ if (npp->r_stat == NULL)
alpar@1	604	npp->r_stat = xcalloc(1+npp->nrows, sizeof(char));
alpar@1	605	for (i = 1; i <= npp->nrows; i++)
alpar@1	606	npp->r_stat[i] = 0;
alpar@1	607	if (npp->c_stat == NULL)
alpar@1	608	npp->c_stat = xcalloc(1+npp->ncols, sizeof(char));
alpar@1	609	for (j = 1; j <= npp->ncols; j++)
alpar@1	610	npp->c_stat[j] = 0;
alpar@1	611	}
alpar@1	612	#if 0
alpar@1	613	if (npp->r_prim == NULL)
alpar@1	614	npp->r_prim = xcalloc(1+npp->nrows, sizeof(double));
alpar@1	615	for (i = 1; i <= npp->nrows; i++)
alpar@1	616	npp->r_prim[i] = DBL_MAX;
alpar@1	617	#endif
alpar@1	618	if (npp->c_value == NULL)
alpar@1	619	npp->c_value = xcalloc(1+npp->ncols, sizeof(double));
alpar@1	620	for (j = 1; j <= npp->ncols; j++)
alpar@1	621	npp->c_value[j] = DBL_MAX;
alpar@1	622	if (npp->sol != GLP_MIP)
alpar@1	623	{ if (npp->r_pi == NULL)
alpar@1	624	npp->r_pi = xcalloc(1+npp->nrows, sizeof(double));
alpar@1	625	for (i = 1; i <= npp->nrows; i++)
alpar@1	626	npp->r_pi[i] = DBL_MAX;
alpar@1	627	#if 0
alpar@1	628	if (npp->c_dual == NULL)
alpar@1	629	npp->c_dual = xcalloc(1+npp->ncols, sizeof(double));
alpar@1	630	for (j = 1; j <= npp->ncols; j++)
alpar@1	631	npp->c_dual[j] = DBL_MAX;
alpar@1	632	#endif
alpar@1	633	}
alpar@1	634	/* copy solution components from the resultant problem */
alpar@1	635	if (npp->sol == GLP_SOL)
alpar@1	636	{ for (i = 1; i <= npp->m; i++)
alpar@1	637	{ row = prob->row[i];
alpar@1	638	k = npp->row_ref[i];
alpar@1	639	npp->r_stat[k] = (char)row->stat;
alpar@1	640	/npp->r_prim[k] = row->prim;/
alpar@1	641	npp->r_pi[k] = dir * row->dual;
alpar@1	642	}
alpar@1	643	for (j = 1; j <= npp->n; j++)
alpar@1	644	{ col = prob->col[j];
alpar@1	645	k = npp->col_ref[j];
alpar@1	646	npp->c_stat[k] = (char)col->stat;
alpar@1	647	npp->c_value[k] = col->prim;
alpar@1	648	/npp->c_dual[k] = dir col->dual;*/
alpar@1	649	}
alpar@1	650	}
alpar@1	651	else if (npp->sol == GLP_IPT)
alpar@1	652	{ for (i = 1; i <= npp->m; i++)
alpar@1	653	{ row = prob->row[i];
alpar@1	654	k = npp->row_ref[i];
alpar@1	655	/npp->r_prim[k] = row->pval;/
alpar@1	656	npp->r_pi[k] = dir * row->dval;
alpar@1	657	}
alpar@1	658	for (j = 1; j <= npp->n; j++)
alpar@1	659	{ col = prob->col[j];
alpar@1	660	k = npp->col_ref[j];
alpar@1	661	npp->c_value[k] = col->pval;
alpar@1	662	/npp->c_dual[k] = dir col->dval;*/
alpar@1	663	}
alpar@1	664	}
alpar@1	665	else if (npp->sol == GLP_MIP)
alpar@1	666	{
alpar@1	667	#if 0
alpar@1	668	for (i = 1; i <= npp->m; i++)
alpar@1	669	{ row = prob->row[i];
alpar@1	670	k = npp->row_ref[i];
alpar@1	671	/npp->r_prim[k] = row->mipx;/
alpar@1	672	}
alpar@1	673	#endif
alpar@1	674	for (j = 1; j <= npp->n; j++)
alpar@1	675	{ col = prob->col[j];
alpar@1	676	k = npp->col_ref[j];
alpar@1	677	npp->c_value[k] = col->mipx;
alpar@1	678	}
alpar@1	679	}
alpar@1	680	else
alpar@1	681	xassert(npp != npp);
alpar@1	682	/* perform postprocessing to construct solution to the original
alpar@1	683	problem */
alpar@1	684	for (tse = npp->top; tse != NULL; tse = tse->link)
alpar@1	685	{ xassert(tse->func != NULL);
alpar@1	686	xassert(tse->func(npp, tse->info) == 0);
alpar@1	687	}
alpar@1	688	return;
alpar@1	689	}
alpar@1	690
alpar@1	691	void npp_unload_sol(NPP npp, glp_prob orig)
alpar@1	692	{ /* store solution to the original problem */
alpar@1	693	GLPROW *row;
alpar@1	694	GLPCOL *col;
alpar@1	695	int i, j;
alpar@1	696	double dir;
alpar@1	697	xassert(npp->orig_dir == orig->dir);
alpar@1	698	if (npp->orig_dir == GLP_MIN)
alpar@1	699	dir = +1.0;
alpar@1	700	else if (npp->orig_dir == GLP_MAX)
alpar@1	701	dir = -1.0;
alpar@1	702	else
alpar@1	703	xassert(npp != npp);
alpar@1	704	xassert(npp->orig_m == orig->m);
alpar@1	705	xassert(npp->orig_n == orig->n);
alpar@1	706	xassert(npp->orig_nnz == orig->nnz);
alpar@1	707	if (npp->sol == GLP_SOL)
alpar@1	708	{ /* store basic solution */
alpar@1	709	orig->valid = 0;
alpar@1	710	orig->pbs_stat = npp->p_stat;
alpar@1	711	orig->dbs_stat = npp->d_stat;
alpar@1	712	orig->obj_val = orig->c0;
alpar@1	713	orig->some = 0;
alpar@1	714	for (i = 1; i <= orig->m; i++)
alpar@1	715	{ row = orig->row[i];
alpar@1	716	row->stat = npp->r_stat[i];
alpar@1	717	if (!npp->scaling)
alpar@1	718	{ /row->prim = npp->r_prim[i];/
alpar@1	719	row->dual = dir * npp->r_pi[i];
alpar@1	720	}
alpar@1	721	else
alpar@1	722	{ /row->prim = npp->r_prim[i] / row->rii;/
alpar@1	723	row->dual = dir * npp->r_pi[i] * row->rii;
alpar@1	724	}
alpar@1	725	if (row->stat == GLP_BS)
alpar@1	726	row->dual = 0.0;
alpar@1	727	else if (row->stat == GLP_NL)
alpar@1	728	{ xassert(row->type == GLP_LO \|\| row->type == GLP_DB);
alpar@1	729	row->prim = row->lb;
alpar@1	730	}
alpar@1	731	else if (row->stat == GLP_NU)
alpar@1	732	{ xassert(row->type == GLP_UP \|\| row->type == GLP_DB);
alpar@1	733	row->prim = row->ub;
alpar@1	734	}
alpar@1	735	else if (row->stat == GLP_NF)
alpar@1	736	{ xassert(row->type == GLP_FR);
alpar@1	737	row->prim = 0.0;
alpar@1	738	}
alpar@1	739	else if (row->stat == GLP_NS)
alpar@1	740	{ xassert(row->type == GLP_FX);
alpar@1	741	row->prim = row->lb;
alpar@1	742	}
alpar@1	743	else
alpar@1	744	xassert(row != row);
alpar@1	745	}
alpar@1	746	for (j = 1; j <= orig->n; j++)
alpar@1	747	{ col = orig->col[j];
alpar@1	748	col->stat = npp->c_stat[j];
alpar@1	749	if (!npp->scaling)
alpar@1	750	{ col->prim = npp->c_value[j];
alpar@1	751	/col->dual = dir npp->c_dual[j];*/
alpar@1	752	}
alpar@1	753	else
alpar@1	754	{ col->prim = npp->c_value[j] * col->sjj;
alpar@1	755	/col->dual = dir npp->c_dual[j] / col->sjj;*/
alpar@1	756	}
alpar@1	757	if (col->stat == GLP_BS)
alpar@1	758	col->dual = 0.0;
alpar@1	759	#if 1
alpar@1	760	else if (col->stat == GLP_NL)
alpar@1	761	{ xassert(col->type == GLP_LO \|\| col->type == GLP_DB);
alpar@1	762	col->prim = col->lb;
alpar@1	763	}
alpar@1	764	else if (col->stat == GLP_NU)
alpar@1	765	{ xassert(col->type == GLP_UP \|\| col->type == GLP_DB);
alpar@1	766	col->prim = col->ub;
alpar@1	767	}
alpar@1	768	else if (col->stat == GLP_NF)
alpar@1	769	{ xassert(col->type == GLP_FR);
alpar@1	770	col->prim = 0.0;
alpar@1	771	}
alpar@1	772	else if (col->stat == GLP_NS)
alpar@1	773	{ xassert(col->type == GLP_FX);
alpar@1	774	col->prim = col->lb;
alpar@1	775	}
alpar@1	776	else
alpar@1	777	xassert(col != col);
alpar@1	778	#endif
alpar@1	779	orig->obj_val += col->coef * col->prim;
alpar@1	780	}
alpar@1	781	#if 1
alpar@1	782	/* compute primal values of inactive rows */
alpar@1	783	for (i = 1; i <= orig->m; i++)
alpar@1	784	{ row = orig->row[i];
alpar@1	785	if (row->stat == GLP_BS)
alpar@1	786	{ GLPAIJ *aij;
alpar@1	787	double temp;
alpar@1	788	temp = 0.0;
alpar@1	789	for (aij = row->ptr; aij != NULL; aij = aij->r_next)
alpar@1	790	temp += aij->val * aij->col->prim;
alpar@1	791	row->prim = temp;
alpar@1	792	}
alpar@1	793	}
alpar@1	794	/* compute reduced costs of active columns */
alpar@1	795	for (j = 1; j <= orig->n; j++)
alpar@1	796	{ col = orig->col[j];
alpar@1	797	if (col->stat != GLP_BS)
alpar@1	798	{ GLPAIJ *aij;
alpar@1	799	double temp;
alpar@1	800	temp = col->coef;
alpar@1	801	for (aij = col->ptr; aij != NULL; aij = aij->c_next)
alpar@1	802	temp -= aij->val * aij->row->dual;
alpar@1	803	col->dual = temp;
alpar@1	804	}
alpar@1	805	}
alpar@1	806	#endif
alpar@1	807	}
alpar@1	808	else if (npp->sol == GLP_IPT)
alpar@1	809	{ /* store interior-point solution */
alpar@1	810	orig->ipt_stat = npp->t_stat;
alpar@1	811	orig->ipt_obj = orig->c0;
alpar@1	812	for (i = 1; i <= orig->m; i++)
alpar@1	813	{ row = orig->row[i];
alpar@1	814	if (!npp->scaling)
alpar@1	815	{ /row->pval = npp->r_prim[i];/
alpar@1	816	row->dval = dir * npp->r_pi[i];
alpar@1	817	}
alpar@1	818	else
alpar@1	819	{ /row->pval = npp->r_prim[i] / row->rii;/
alpar@1	820	row->dval = dir * npp->r_pi[i] * row->rii;
alpar@1	821	}
alpar@1	822	}
alpar@1	823	for (j = 1; j <= orig->n; j++)
alpar@1	824	{ col = orig->col[j];
alpar@1	825	if (!npp->scaling)
alpar@1	826	{ col->pval = npp->c_value[j];
alpar@1	827	/col->dval = dir npp->c_dual[j];*/
alpar@1	828	}
alpar@1	829	else
alpar@1	830	{ col->pval = npp->c_value[j] * col->sjj;
alpar@1	831	/col->dval = dir npp->c_dual[j] / col->sjj;*/
alpar@1	832	}
alpar@1	833	orig->ipt_obj += col->coef * col->pval;
alpar@1	834	}
alpar@1	835	#if 1
alpar@1	836	/* compute row primal values */
alpar@1	837	for (i = 1; i <= orig->m; i++)
alpar@1	838	{ row = orig->row[i];
alpar@1	839	{ GLPAIJ *aij;
alpar@1	840	double temp;
alpar@1	841	temp = 0.0;
alpar@1	842	for (aij = row->ptr; aij != NULL; aij = aij->r_next)
alpar@1	843	temp += aij->val * aij->col->pval;
alpar@1	844	row->pval = temp;
alpar@1	845	}
alpar@1	846	}
alpar@1	847	/* compute column dual values */
alpar@1	848	for (j = 1; j <= orig->n; j++)
alpar@1	849	{ col = orig->col[j];
alpar@1	850	{ GLPAIJ *aij;
alpar@1	851	double temp;
alpar@1	852	temp = col->coef;
alpar@1	853	for (aij = col->ptr; aij != NULL; aij = aij->c_next)
alpar@1	854	temp -= aij->val * aij->row->dval;
alpar@1	855	col->dval = temp;
alpar@1	856	}
alpar@1	857	}
alpar@1	858	#endif
alpar@1	859	}
alpar@1	860	else if (npp->sol == GLP_MIP)
alpar@1	861	{ /* store MIP solution */
alpar@1	862	xassert(!npp->scaling);
alpar@1	863	orig->mip_stat = npp->i_stat;
alpar@1	864	orig->mip_obj = orig->c0;
alpar@1	865	#if 0
alpar@1	866	for (i = 1; i <= orig->m; i++)
alpar@1	867	{ row = orig->row[i];
alpar@1	868	/row->mipx = npp->r_prim[i];/
alpar@1	869	}
alpar@1	870	#endif
alpar@1	871	for (j = 1; j <= orig->n; j++)
alpar@1	872	{ col = orig->col[j];
alpar@1	873	col->mipx = npp->c_value[j];
alpar@1	874	if (col->kind == GLP_IV)
alpar@1	875	xassert(col->mipx == floor(col->mipx));
alpar@1	876	orig->mip_obj += col->coef * col->mipx;
alpar@1	877	}
alpar@1	878	#if 1
alpar@1	879	/* compute row primal values */
alpar@1	880	for (i = 1; i <= orig->m; i++)
alpar@1	881	{ row = orig->row[i];
alpar@1	882	{ GLPAIJ *aij;
alpar@1	883	double temp;
alpar@1	884	temp = 0.0;
alpar@1	885	for (aij = row->ptr; aij != NULL; aij = aij->r_next)
alpar@1	886	temp += aij->val * aij->col->mipx;
alpar@1	887	row->mipx = temp;
alpar@1	888	}
alpar@1	889	}
alpar@1	890	#endif
alpar@1	891	}
alpar@1	892	else
alpar@1	893	xassert(npp != npp);
alpar@1	894	return;
alpar@1	895	}
alpar@1	896
alpar@1	897	void npp_delete_wksp(NPP *npp)
alpar@1	898	{ /* delete LP/MIP preprocessor workspace */
alpar@1	899	if (npp->pool != NULL)
alpar@1	900	dmp_delete_pool(npp->pool);
alpar@1	901	if (npp->stack != NULL)
alpar@1	902	dmp_delete_pool(npp->stack);
alpar@1	903	if (npp->row_ref != NULL)
alpar@1	904	xfree(npp->row_ref);
alpar@1	905	if (npp->col_ref != NULL)
alpar@1	906	xfree(npp->col_ref);
alpar@1	907	if (npp->r_stat != NULL)
alpar@1	908	xfree(npp->r_stat);
alpar@1	909	#if 0
alpar@1	910	if (npp->r_prim != NULL)
alpar@1	911	xfree(npp->r_prim);
alpar@1	912	#endif
alpar@1	913	if (npp->r_pi != NULL)
alpar@1	914	xfree(npp->r_pi);
alpar@1	915	if (npp->c_stat != NULL)
alpar@1	916	xfree(npp->c_stat);
alpar@1	917	if (npp->c_value != NULL)
alpar@1	918	xfree(npp->c_value);
alpar@1	919	#if 0
alpar@1	920	if (npp->c_dual != NULL)
alpar@1	921	xfree(npp->c_dual);
alpar@1	922	#endif
alpar@1	923	xfree(npp);
alpar@1	924	return;
alpar@1	925	}
alpar@1	926
alpar@1	927	/* eof */

author	Alpar Juttner <alpar@cs.elte.hu>
	Mon, 06 Dec 2010 13:09:21 +0100
changeset 1	c445c931472f
permissions	-rw-r--r--