2 * Copyright (c) 2007, Novell Inc.
4 * This program is licensed under the BSD license, read LICENSE.BSD
5 * for further information
11 * The pool contains information about solvables
12 * stored optimized for memory consumption and fast retrieval.
24 #include "poolid_private.h"
30 #define SOLVABLE_BLOCK 255
32 #define KNOWNID_INITIALIZE
34 #undef KNOWNID_INITIALIZE
43 pool = (Pool *)sat_calloc(1, sizeof(*pool));
45 stringpool_init (&pool->ss, initpool_data);
47 /* alloc space for RelDep 0 */
48 pool->rels = sat_extend_resize(0, 1, sizeof(Reldep), REL_BLOCK);
50 memset(pool->rels, 0, sizeof(Reldep));
52 /* alloc space for Solvable 0 and system solvable */
53 pool->solvables = sat_extend_resize(0, 2, sizeof(Solvable), SOLVABLE_BLOCK);
55 memset(pool->solvables, 0, 2 * sizeof(Solvable));
56 s = pool->solvables + SYSTEMSOLVABLE;
57 s->name = SYSTEM_SYSTEM;
58 s->arch = ARCH_NOARCH;
61 queue_init(&pool->vendormap);
63 pool->debugmask = SAT_DEBUG_RESULT; /* FIXME */
68 /* free all the resources of our pool */
74 pool_freewhatprovides(pool);
75 pool_freeidhashes(pool);
76 repo_freeallrepos(pool, 1);
77 sat_free(pool->id2arch);
78 sat_free(pool->solvables);
79 sat_free(pool->ss.stringspace);
80 sat_free(pool->ss.strings);
82 queue_free(&pool->vendormap);
83 for (i = 0; i < POOL_TMPSPACEBUF; i++)
84 sat_free(pool->tmpspacebuf[i]);
85 for (i = 0; i < pool->nlanguages; i++)
86 free((char *)pool->languages[i]);
87 sat_free(pool->languages);
88 sat_free(pool->languagecache);
93 pool_add_solvable(Pool *pool)
95 pool->solvables = sat_extend(pool->solvables, pool->nsolvables, 1, sizeof(Solvable), SOLVABLE_BLOCK);
96 memset(pool->solvables + pool->nsolvables, 0, sizeof(Solvable));
97 return pool->nsolvables++;
101 pool_add_solvable_block(Pool *pool, int count)
103 Id nsolvables = pool->nsolvables;
106 pool->solvables = sat_extend(pool->solvables, pool->nsolvables, count, sizeof(Solvable), SOLVABLE_BLOCK);
107 memset(pool->solvables + nsolvables, 0, sizeof(Solvable) * count);
108 pool->nsolvables += count;
113 pool_free_solvable_block(Pool *pool, Id start, int count, int reuseids)
117 if (reuseids && start + count == pool->nsolvables)
119 /* might want to shrink solvable array */
120 pool->nsolvables = start;
123 memset(pool->solvables + start, 0, sizeof(Solvable) * count);
127 static Pool *pool_shrink_whatprovides_sortcmp_data;
130 pool_shrink_whatprovides_sortcmp(const void *ap, const void *bp)
133 Pool *pool = pool_shrink_whatprovides_sortcmp_data;
135 oa = pool->whatprovides[*(Id *)ap];
136 ob = pool->whatprovides[*(Id *)bp];
138 return *(Id *)ap - *(Id *)bp;
143 da = pool->whatprovidesdata + oa;
144 db = pool->whatprovidesdata + ob;
146 if ((r = (*da++ - *db++)) != 0)
150 return *(Id *)ap - *(Id *)bp;
154 * pool_shrink_whatprovides - unify whatprovides data
156 * whatprovides_rel must be empty for this to work!
160 pool_shrink_whatprovides(Pool *pool)
164 Id lastid, *last, *dp, *lp;
168 if (pool->ss.nstrings < 3)
170 sorted = sat_malloc2(pool->ss.nstrings, sizeof(Id));
171 for (id = 0; id < pool->ss.nstrings; id++)
173 pool_shrink_whatprovides_sortcmp_data = pool;
174 qsort(sorted + 1, pool->ss.nstrings - 1, sizeof(Id), pool_shrink_whatprovides_sortcmp);
177 for (i = 1; i < pool->ss.nstrings; i++)
180 o = pool->whatprovides[id];
181 if (o == 0 || o == 1)
183 dp = pool->whatprovidesdata + o;
197 pool->whatprovides[id] = -lastid;
201 last = pool->whatprovidesdata + o;
205 dp = pool->whatprovidesdata + 2;
206 for (id = 1; id < pool->ss.nstrings; id++)
208 o = pool->whatprovides[id];
209 if (o == 0 || o == 1)
216 pool->whatprovides[id] = pool->whatprovides[i];
219 lp = pool->whatprovidesdata + o;
222 pool->whatprovides[id] = dp - pool->whatprovidesdata;
223 while ((*dp++ = *lp++) != 0)
226 o = dp - pool->whatprovidesdata;
227 POOL_DEBUG(SAT_DEBUG_STATS, "shrunk whatprovidesdata from %d to %d\n", pool->whatprovidesdataoff, o);
228 if (pool->whatprovidesdataoff == o)
230 r = pool->whatprovidesdataoff - o;
231 pool->whatprovidesdataoff = o;
232 pool->whatprovidesdata = sat_realloc(pool->whatprovidesdata, (o + pool->whatprovidesdataleft) * sizeof(Id));
233 if (r > pool->whatprovidesdataleft)
234 r = pool->whatprovidesdataleft;
235 memset(pool->whatprovidesdata + o, 0, r * sizeof(Id));
240 * pool_createwhatprovides()
242 * create hashes over pool of solvables to ease provide lookups
246 pool_createwhatprovides(Pool *pool)
248 int i, num, np, extra;
253 Offset *whatprovides;
254 Id *whatprovidesdata, *d;
256 POOL_DEBUG(SAT_DEBUG_STATS, "number of solvables: %d\n", pool->nsolvables);
257 POOL_DEBUG(SAT_DEBUG_STATS, "number of ids: %d + %d\n", pool->ss.nstrings, pool->nrels);
259 pool_freeidhashes(pool); /* XXX: should not be here! */
260 pool_freewhatprovides(pool);
261 num = pool->ss.nstrings;
262 pool->whatprovides = whatprovides = sat_calloc_block(num, sizeof(Offset), WHATPROVIDES_BLOCK);
263 pool->whatprovides_rel = sat_calloc_block(pool->nrels, sizeof(Offset), WHATPROVIDES_BLOCK);
265 /* count providers for each name */
266 for (i = 1; i < pool->nsolvables; i++)
269 s = pool->solvables + i;
272 if (!pool_installable(pool, s))
274 pp = s->repo->idarraydata + s->provides;
275 while ((id = *pp++) != ID_NULL)
279 Reldep *rd = GETRELDEP(pool, id);
282 whatprovides[id]++; /* inc count of providers */
286 off = 2; /* first entry is undef, second is empty list */
288 np = 0; /* number of names provided */
289 for (i = 0; i < num; i++, idp++)
292 if (!n) /* no providers */
294 *idp = off; /* move from counts to offsets into whatprovidesdata */
295 off += n + 1; /* make space for all providers + terminating ID_NULL */
296 np++; /* inc # of provider 'slots' */
299 POOL_DEBUG(SAT_DEBUG_STATS, "provide ids: %d\n", np);
301 /* reserve some space for relation data */
302 extra = 2 * pool->nrels;
306 POOL_DEBUG(SAT_DEBUG_STATS, "provide space needed: %d + %d\n", off, extra);
308 /* alloc space for all providers + extra */
309 whatprovidesdata = sat_calloc(off + extra, sizeof(Id));
311 /* now fill data for all provides */
312 for (i = 1; i < pool->nsolvables; i++)
315 s = pool->solvables + i;
318 if (!pool_installable(pool, s))
321 /* for all provides of this solvable */
322 pp = s->repo->idarraydata + s->provides;
323 while ((id = *pp++) != 0)
327 Reldep *rd = GETRELDEP(pool, id);
330 d = whatprovidesdata + whatprovides[id]; /* offset into whatprovidesdata */
334 while (*d) /* find free slot */
339 *d = i; /* put solvable Id into data */
342 pool->whatprovidesdata = whatprovidesdata;
343 pool->whatprovidesdataoff = off;
344 pool->whatprovidesdataleft = extra;
345 pool_shrink_whatprovides(pool);
349 * free all of our whatprovides data
350 * be careful, everything internalized with pool_queuetowhatprovides is gone, too
353 pool_freewhatprovides(Pool *pool)
355 pool->whatprovides = sat_free(pool->whatprovides);
356 pool->whatprovides_rel = sat_free(pool->whatprovides_rel);
357 pool->whatprovidesdata = sat_free(pool->whatprovidesdata);
358 pool->whatprovidesdataoff = 0;
359 pool->whatprovidesdataleft = 0;
363 /******************************************************************************/
366 * pool_queuetowhatprovides - add queue contents to whatprovidesdata
368 * on-demand filling of provider information
369 * move queue data into whatprovidesdata
371 * returns: Offset into whatprovides
375 pool_queuetowhatprovides(Pool *pool, Queue *q)
378 int count = q->count;
380 if (count == 0) /* queue empty -> ID_EMPTY */
383 /* extend whatprovidesdata if needed, +1 for ID_NULL-termination */
384 if (pool->whatprovidesdataleft < count + 1)
386 POOL_DEBUG(SAT_DEBUG_STATS, "growing provides hash data...\n");
387 pool->whatprovidesdata = sat_realloc(pool->whatprovidesdata, (pool->whatprovidesdataoff + count + 4096) * sizeof(Id));
388 pool->whatprovidesdataleft = count + 4096;
391 /* copy queue to next free slot */
392 off = pool->whatprovidesdataoff;
393 memcpy(pool->whatprovidesdata + pool->whatprovidesdataoff, q->elements, count * sizeof(Id));
395 /* adapt count and ID_NULL-terminate */
396 pool->whatprovidesdataoff += count;
397 pool->whatprovidesdata[pool->whatprovidesdataoff++] = ID_NULL;
398 pool->whatprovidesdataleft -= count + 1;
404 /*************************************************************************/
409 * add packages fulfilling the relation to whatprovides array
410 * no exact providers, do range match
415 pool_addrelproviders(Pool *pool, Id d)
417 Reldep *rd = GETRELDEP(pool, d);
423 int flags = rd->flags;
425 Id p, *pp, *pp2, *pp3;
428 queue_init_buffer(&plist, buf, sizeof(buf)/sizeof(*buf));
433 pp = pool_whatprovides(pool, name);
434 pp2 = pool_whatprovides(pool, evr);
435 while ((p = *pp++) != 0)
437 for (pp3 = pp2; *pp3;)
440 queue_push(&plist, p);
446 pp = pool_whatprovides(pool, name);
447 while ((p = *pp++) != 0)
448 queue_push(&plist, p);
449 pp = pool_whatprovides(pool, evr);
450 while ((p = *pp++) != 0)
451 queue_pushunique(&plist, p);
454 if (pool->nscallback)
456 p = pool->nscallback(pool, pool->nscallbackdata, name, evr);
460 pool->whatprovides_rel[d] = p;
461 return pool->whatprovidesdata + p;
464 queue_push(&plist, SYSTEMSOLVABLE);
471 /* convert to whatprovides id */
473 POOL_DEBUG(SAT_DEBUG_STATS, "addrelproviders: what provides %s?\n", dep2str(pool, name));
475 if (flags && flags < 8)
477 FOR_PROVIDES(p, pp, name)
480 POOL_DEBUG(DEBUG_1, "addrelproviders: checking package %s\n", id2str(pool, pool->p[p].name));
482 /* solvable p provides name in some rels */
483 pidp = pool->solvables[p].repo->idarraydata + pool->solvables[p].provides;
484 while ((pid = *pidp++) != 0)
491 #ifdef DEBIAN_SEMANTICS
492 continue; /* unversioned provides can
493 * never match versioned deps */
495 break; /* yes, provides all versions */
499 continue; /* wrong provides name */
500 prd = GETRELDEP(pool, pid);
501 if (prd->name != name)
502 continue; /* wrong provides name */
503 /* right package, both deps are rels */
507 if (flags == 7 || pflags == 7)
508 break; /* included */
509 if ((pflags & flags & 5) != 0)
510 break; /* same direction, match */
514 if ((pflags & flags & 2) != 0)
515 break; /* both have =, match */
519 int f = flags == 5 ? 5 : flags == 2 ? pflags : (flags ^ 5) & (pflags | 5);
520 if ((f & (1 << (1 + evrcmp(pool, pevr, evr, EVRCMP_MATCH_RELEASE)))) != 0)
525 continue; /* no rel match */
526 queue_push(&plist, p);
528 /* make our system solvable provide all unknown rpmlib() stuff */
529 if (plist.count == 0 && !strncmp(id2str(pool, name), "rpmlib(", 7))
530 queue_push(&plist, SYSTEMSOLVABLE);
532 /* add providers to whatprovides */
534 POOL_DEBUG(SAT_DEBUG_STATS, "addrelproviders: adding %d packages to %d\n", plist.count, d);
536 pool->whatprovides_rel[d] = pool_queuetowhatprovides(pool, &plist);
539 return pool->whatprovidesdata + pool->whatprovides_rel[d];
542 /*************************************************************************/
545 pool_debug(Pool *pool, int type, const char *format, ...)
550 if ((type & (SAT_FATAL|SAT_ERROR)) == 0)
552 if ((pool->debugmask & type) == 0)
555 va_start(args, format);
556 if (!pool->debugcallback)
558 if ((type & (SAT_FATAL|SAT_ERROR)) == 0)
559 vprintf(format, args);
561 vfprintf(stderr, format, args);
564 vsnprintf(buf, sizeof(buf), format, args);
565 pool->debugcallback(pool, pool->debugcallbackdata, type, buf);
569 pool_setdebuglevel(Pool *pool, int level)
571 int mask = SAT_DEBUG_RESULT;
573 mask |= SAT_DEBUG_STATS|SAT_DEBUG_ANALYZE|SAT_DEBUG_UNSOLVABLE;
575 mask |= SAT_DEBUG_JOB|SAT_DEBUG_SOLUTIONS|SAT_DEBUG_POLICY;
577 mask |= SAT_DEBUG_PROPAGATE;
579 mask |= SAT_DEBUG_RULE_CREATION;
581 mask |= SAT_DEBUG_SCHUBI;
582 pool->debugmask = mask;
585 /*************************************************************************/
595 #define SEARCHFILES_BLOCK 127
598 pool_addfileprovides_dep(Pool *pool, Id *ida, struct searchfiles *sf, struct searchfiles *isf)
603 while ((dep = *ida++) != 0)
605 while (ISRELDEP(dep))
608 sid = pool->ss.nstrings + GETRELID(dep);
609 if (MAPTST(&sf->seen, sid))
614 MAPSET(&sf->seen, sid);
615 rd = GETRELDEP(pool, dep);
618 else if (rd->flags == REL_NAMESPACE)
620 if (isf && (rd->name == NAMESPACE_INSTALLED || rd->name == NAMESPACE_SPLITPROVIDES))
624 if (MAPTST(&sf->seen, sid))
629 MAPSET(&sf->seen, sid);
638 pool_addfileprovides_dep(pool, ids, sf, isf);
644 if (MAPTST(&sf->seen, dep))
646 MAPSET(&sf->seen, dep);
647 s = id2str(pool, dep);
650 sf->ids = sat_extend(sf->ids, sf->nfiles, 1, sizeof(Id), SEARCHFILES_BLOCK);
651 sf->dirs = sat_extend(sf->dirs, sf->nfiles, 1, sizeof(const char *), SEARCHFILES_BLOCK);
652 sf->names = sat_extend(sf->names, sf->nfiles, 1, sizeof(const char *), SEARCHFILES_BLOCK);
653 sf->ids[sf->nfiles] = dep;
654 sr = strrchr(s, '/');
655 sf->names[sf->nfiles] = strdup(sr + 1);
656 sf->dirs[sf->nfiles] = sat_malloc(sr - s + 1);
658 strncpy(sf->dirs[sf->nfiles], s, sr - s);
659 sf->dirs[sf->nfiles][sr - s] = 0;
664 struct addfileprovides_cbdata {
676 addfileprovides_cb(void *cbdata, Solvable *s, Repodata *data, Repokey *key, KeyValue *value)
678 struct addfileprovides_cbdata *cbd = cbdata;
681 if (data != cbd->olddata)
683 map_free(&cbd->useddirs);
684 map_init(&cbd->useddirs, data->dirpool.ndirs);
685 for (i = 0; i < cbd->nfiles; i++)
687 Id did = repodata_str2dir(data, cbd->dirs[i], 0);
690 MAPSET(&cbd->useddirs, did);
694 if (!MAPTST(&cbd->useddirs, value->id))
696 for (i = 0; i < cbd->nfiles; i++)
698 if (cbd->dids[i] != value->id)
700 if (!strcmp(cbd->names[i], value->str))
703 if (i == cbd->nfiles)
705 s->provides = repo_addid_dep(s->repo, s->provides, cbd->ids[i], SOLVABLE_FILEMARKER);
711 pool_addfileprovides_search(Pool *pool, struct addfileprovides_cbdata *cbd, struct searchfiles *sf, Repo *repoonly)
713 Id p, start, end, *idp;
715 Repodata *data = 0, *nextdata;
717 int dataincludes = 0;
721 cbd->nfiles = sf->nfiles;
723 cbd->dirs = sf->dirs;
724 cbd->names = sf->names;
726 cbd->dids = sat_realloc2(cbd->dids, sf->nfiles, sizeof(Id));
729 start = repoonly->start;
734 start = 2; /* skip system solvable */
735 end = pool->nsolvables;
737 for (p = start, s = pool->solvables + p; p < end; p++, s++)
739 if (!s->repo || (repoonly && s->repo != repoonly))
741 if (s->repo != oldrepo || (data && p >= data->end))
749 for (i = 0, data = s->repo->repodata; i < s->repo->nrepodata; i++, data++)
751 if (!data->addedfileprovides || p >= data->end)
753 if (!nextdata || nextdata->start > data->start)
755 if (p >= data->start)
758 if (i == s->repo->nrepodata)
762 map_init(&providedids, pool->ss.nstrings);
763 for (idp = data->addedfileprovides; *idp; idp++)
764 MAPSET(&providedids, *idp);
765 for (i = 0; i < cbd->nfiles; i++)
766 if (!MAPTST(&providedids, cbd->ids[i]))
770 map_free(&providedids);
771 dataincludes = i == cbd->nfiles;
775 if (data && p >= data->start && dataincludes)
777 repo_search(s->repo, p, SOLVABLE_FILELIST, 0, 0, addfileprovides_cb, cbd);
782 pool_addfileprovides_ids(Pool *pool, Repo *installed, Id **idp)
786 struct searchfiles sf, isf;
787 struct addfileprovides_cbdata cbd;
790 memset(&sf, 0, sizeof(sf));
791 map_init(&sf.seen, pool->ss.nstrings + pool->nrels);
792 memset(&isf, 0, sizeof(isf));
793 map_init(&isf.seen, pool->ss.nstrings + pool->nrels);
795 for (i = 1, s = pool->solvables + i; i < pool->nsolvables; i++, s++)
801 pool_addfileprovides_dep(pool, repo->idarraydata + s->obsoletes, &sf, &isf);
803 pool_addfileprovides_dep(pool, repo->idarraydata + s->conflicts, &sf, &isf);
805 pool_addfileprovides_dep(pool, repo->idarraydata + s->requires, &sf, &isf);
807 pool_addfileprovides_dep(pool, repo->idarraydata + s->recommends, &sf, &isf);
809 pool_addfileprovides_dep(pool, repo->idarraydata + s->suggests, &sf, &isf);
811 pool_addfileprovides_dep(pool, repo->idarraydata + s->supplements, &sf, &isf);
813 pool_addfileprovides_dep(pool, repo->idarraydata + s->enhances, &sf, &isf);
815 pool_addfileprovides_dep(pool, repo->idarraydata + s->freshens, &sf, &isf);
819 POOL_DEBUG(SAT_DEBUG_STATS, "found %d file dependencies\n", sf.nfiles);
820 POOL_DEBUG(SAT_DEBUG_STATS, "found %d installed file dependencies\n", isf.nfiles);
822 map_init(&cbd.useddirs, 1);
828 for (i = 0; i < sf.nfiles; i++)
829 POOL_DEBUG(SAT_DEBUG_STATS, "looking up %s in filelist\n", id2str(pool, sf.ids[i]));
831 pool_addfileprovides_search(pool, &cbd, &sf, 0);
834 sf.ids = sat_extend(sf.ids, sf.nfiles, 1, sizeof(Id), SEARCHFILES_BLOCK);
835 sf.ids[sf.nfiles] = 0;
840 for (i = 0; i < sf.nfiles; i++)
842 sat_free(sf.dirs[i]);
843 sat_free(sf.names[i]);
848 if (isf.nfiles && installed)
851 for (i = 0; i < isf.nfiles; i++)
852 POOL_DEBUG(SAT_DEBUG_STATS, "looking up %s in installed filelist\n", id2str(pool, isf.ids[i]));
854 pool_addfileprovides_search(pool, &cbd, &isf, installed);
856 for (i = 0; i < isf.nfiles; i++)
858 sat_free(isf.dirs[i]);
859 sat_free(isf.names[i]);
864 map_free(&cbd.useddirs);
866 pool_freewhatprovides(pool); /* as we have added provides */
870 pool_addfileprovides(Pool *pool, Repo *installed)
872 pool_addfileprovides_ids(pool, installed, 0);
876 pool_search(Pool *pool, Id p, Id key, const char *match, int flags, int (*callback)(void *cbdata, Solvable *s, struct _Repodata *data, struct _Repokey *key, struct _KeyValue *kv), void *cbdata)
880 if (pool->solvables[p].repo)
881 repo_search(pool->solvables[p].repo, p, key, match, flags, callback, cbdata);
884 /* FIXME: obey callback return value! */
885 for (p = 1; p < pool->nsolvables; p++)
886 if (pool->solvables[p].repo)
887 repo_search(pool->solvables[p].repo, p, key, match, flags, callback, cbdata);
892 pool_set_languages(Pool *pool, const char **languages, int nlanguages)
896 pool->languagecache = sat_free(pool->languagecache);
897 pool->languagecacheother = 0;
898 if (pool->nlanguages)
900 for (i = 0; i < pool->nlanguages; i++)
901 free((char *)pool->languages[i]);
902 free(pool->languages);
904 pool->nlanguages = nlanguages;
907 pool->languages = sat_calloc(nlanguages, sizeof(const char **));
908 for (i = 0; i < pool->nlanguages; i++)
909 pool->languages[i] = strdup(languages[i]);
913 pool_alloctmpspace(Pool *pool, int len)
915 int n = pool->tmpspacen;
918 if (len > pool->tmpspacelen[n])
920 pool->tmpspacebuf[n] = sat_realloc(pool->tmpspacebuf[n], len + 32);
921 pool->tmpspacelen[n] = len + 32;
923 pool->tmpspacen = (n + 1) % POOL_TMPSPACEBUF;
924 return pool->tmpspacebuf[n];
927 /*******************************************************************/
939 struct mptree *mptree;
949 solver_fill_DU_cb(void *cbdata, Solvable *s, Repodata *data, Repokey *key, KeyValue *value)
951 struct ducbdata *cbd = cbdata;
954 if (data != cbd->olddata)
956 Id dn, mp, comp, *dirmap, *dirs;
959 struct mptree *mptree;
961 /* create map from dir to mptree */
962 cbd->dirmap = sat_free(cbd->dirmap);
964 dirmap = sat_calloc(data->dirpool.ndirs, sizeof(Id));
965 mptree = cbd->mptree;
967 for (dn = 2, dirs = data->dirpool.dirs + dn; dn < data->dirpool.ndirs; dn++)
981 if (!mptree[mp].child)
987 compstr = stringpool_id2str(&data->spool, comp);
989 compstr = id2str(data->repo->pool, comp);
990 compl = strlen(compstr);
991 for (i = mptree[mp].child; i; i = mptree[i].sibling)
992 if (mptree[i].compl == compl && !strncmp(mptree[i].comp, compstr, compl))
994 dirmap[dn] = i ? i : -mp;
996 /* change dirmap to point to mountpoint instead of mptree */
997 for (dn = 0; dn < data->dirpool.ndirs; dn++)
1000 dirmap[dn] = mptree[mp > 0 ? mp : -mp].mountpoint;
1002 cbd->dirmap = dirmap;
1003 cbd->nmap = data->dirpool.ndirs;
1004 cbd->olddata = data;
1006 if (value->id < 0 || value->id >= cbd->nmap)
1008 mp = cbd->dirmap[value->id];
1011 if (cbd->addsub > 0)
1013 cbd->mps[mp].kbytes += value->num;
1014 cbd->mps[mp].files += value->num2;
1018 cbd->mps[mp].kbytes -= value->num;
1019 cbd->mps[mp].files -= value->num2;
1025 propagate_mountpoints(struct mptree *mptree, int pos, Id mountpoint)
1028 if (mptree[pos].mountpoint == -1)
1029 mptree[pos].mountpoint = mountpoint;
1031 mountpoint = mptree[pos].mountpoint;
1032 for (i = mptree[pos].child; i; i = mptree[i].sibling)
1033 propagate_mountpoints(mptree, i, mountpoint);
1036 #define MPTREE_BLOCK 15
1039 pool_calc_duchanges(Pool *pool, Queue *pkgs, DUChanges *mps, int nmps)
1042 const char *path, *compstr;
1043 struct mptree *mptree;
1047 struct ducbdata cbd;
1055 mptree = sat_extend_resize(0, 1, sizeof(struct mptree), MPTREE_BLOCK);
1058 mptree[0].sibling = 0;
1059 mptree[0].child = 0;
1061 mptree[0].compl = 0;
1062 mptree[0].mountpoint = -1;
1065 /* create component tree */
1066 for (mp = 0; mp < nmps; mp++)
1071 path = mps[mp].path;
1076 if ((p = strchr(path, '/')) == 0)
1079 compl = strlen(compstr);
1090 for (i = mptree[pos].child; i; i = mptree[i].sibling)
1091 if (mptree[i].compl == compl && !strncmp(mptree[i].comp, compstr, compl))
1095 /* create new node */
1096 mptree = sat_extend(mptree, nmptree, 1, sizeof(struct mptree), MPTREE_BLOCK);
1098 mptree[i].sibling = mptree[pos].child;
1099 mptree[i].child = 0;
1100 mptree[i].comp = compstr;
1101 mptree[i].compl = compl;
1102 mptree[i].mountpoint = -1;
1103 mptree[pos].child = i;
1107 mptree[pos].mountpoint = mp;
1110 propagate_mountpoints(mptree, 0, mptree[0].mountpoint);
1113 for (i = 0; i < nmptree; i++)
1115 printf("#%d sibling: %d\n", i, mptree[i].sibling);
1116 printf("#%d child: %d\n", i, mptree[i].child);
1117 printf("#%d comp: %s\n", i, mptree[i].comp);
1118 printf("#%d compl: %d\n", i, mptree[i].compl);
1119 printf("#%d mountpont: %d\n", i, mptree[i].mountpoint);
1123 cbd.mptree = mptree;
1125 for (i = 0; i < pkgs->count; i++)
1127 Id sp = pkgs->elements[i];
1129 repo_search(pool->solvables[sp].repo, sp, SOLVABLE_DISKUSAGE, 0, 0, solver_fill_DU_cb, &cbd);
1132 for (i = 0; i < pkgs->count; i++)
1134 Id sp = pkgs->elements[i];
1136 repo_search(pool->solvables[-sp].repo, -sp, SOLVABLE_DISKUSAGE, 0, 0, solver_fill_DU_cb, &cbd);
1138 sat_free(cbd.dirmap);
1143 pool_calc_installsizechange(Pool *pool, Queue *pkgs)
1148 for (i = 0; i < pkgs->count; i++)
1150 Id sp = pkgs->elements[i];
1152 change += repo_lookup_num(pool->solvables + sp, SOLVABLE_INSTALLSIZE);
1154 change -= repo_lookup_num(pool->solvables - sp, SOLVABLE_INSTALLSIZE);