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- [valgrind] the userinstalled map only contains the installed packages. mea culpa...
[platform/upstream/libsolv.git] / src / rules.c
1 /*
2  * Copyright (c) 2007-2009, Novell Inc.
3  *
4  * This program is licensed under the BSD license, read LICENSE.BSD
5  * for further information
6  */
7
8 /*
9  * rules.c
10  *
11  * SAT based dependency solver
12  */
13
14 #include <stdio.h>
15 #include <stdlib.h>
16 #include <unistd.h>
17 #include <string.h>
18 #include <assert.h>
19
20 #include "solver.h"
21 #include "solver_private.h"
22 #include "bitmap.h"
23 #include "pool.h"
24 #include "poolarch.h"
25 #include "util.h"
26 #include "evr.h"
27 #include "policy.h"
28 #include "solverdebug.h"
29
30 #define RULES_BLOCK 63
31
32 static void addrpmruleinfo(Solver *solv, Id p, Id d, int type, Id dep);
33 static void solver_createcleandepsmap(Solver *solv, Map *cleandepsmap, int unneeded);
34
35 /*-------------------------------------------------------------------
36  * Check if dependency is possible
37  * 
38  * mirrors solver_dep_fulfilled but uses map m instead of the decisionmap
39  * used in solver_addrpmrulesforweak and solver_createcleandepsmap
40  */
41
42 static inline int
43 dep_possible(Solver *solv, Id dep, Map *m)
44 {
45   Pool *pool = solv->pool;
46   Id p, pp;
47
48   if (ISRELDEP(dep))
49     {
50       Reldep *rd = GETRELDEP(pool, dep);
51       if (rd->flags >= 8)
52         {
53           if (rd->flags == REL_AND)
54             {
55               if (!dep_possible(solv, rd->name, m))
56                 return 0;
57               return dep_possible(solv, rd->evr, m);
58             }
59           if (rd->flags == REL_NAMESPACE && rd->name == NAMESPACE_SPLITPROVIDES)
60             return solver_splitprovides(solv, rd->evr);
61           if (rd->flags == REL_NAMESPACE && rd->name == NAMESPACE_INSTALLED)
62             return solver_dep_installed(solv, rd->evr);
63         }
64     }
65   FOR_PROVIDES(p, pp, dep)
66     {
67       if (MAPTST(m, p))
68         return 1;
69     }
70   return 0;
71 }
72
73 /********************************************************************
74  *
75  * Rule handling
76  *
77  * - unify rules, remove duplicates
78  */
79
80 /*-------------------------------------------------------------------
81  *
82  * compare rules for unification sort
83  *
84  */
85
86 static int
87 unifyrules_sortcmp(const void *ap, const void *bp, void *dp)
88 {
89   Pool *pool = dp;
90   Rule *a = (Rule *)ap;
91   Rule *b = (Rule *)bp;
92   Id *ad, *bd;
93   int x;
94
95   x = a->p - b->p;
96   if (x)
97     return x;                          /* p differs */
98
99   /* identical p */
100   if (a->d == 0 && b->d == 0)
101     return a->w2 - b->w2;              /* assertion: return w2 diff */
102
103   if (a->d == 0)                       /* a is assertion, b not */
104     {
105       x = a->w2 - pool->whatprovidesdata[b->d];
106       return x ? x : -1;
107     }
108
109   if (b->d == 0)                       /* b is assertion, a not */
110     {
111       x = pool->whatprovidesdata[a->d] - b->w2;
112       return x ? x : 1;
113     }
114
115   /* compare whatprovidesdata */
116   ad = pool->whatprovidesdata + a->d;
117   bd = pool->whatprovidesdata + b->d;
118   while (*bd)
119     if ((x = *ad++ - *bd++) != 0)
120       return x;
121   return *ad;
122 }
123
124 int
125 solver_samerule(Solver *solv, Rule *r1, Rule *r2)
126 {
127   return unifyrules_sortcmp(r1, r2, solv->pool);
128 }
129
130
131 /*-------------------------------------------------------------------
132  *
133  * unify rules
134  * go over all rules and remove duplicates
135  */
136
137 void
138 solver_unifyrules(Solver *solv)
139 {
140   Pool *pool = solv->pool;
141   int i, j;
142   Rule *ir, *jr;
143
144   if (solv->nrules <= 2)               /* nothing to unify */
145     return;
146
147   /* sort rules first */
148   solv_sort(solv->rules + 1, solv->nrules - 1, sizeof(Rule), unifyrules_sortcmp, solv->pool);
149
150   /* prune rules
151    * i = unpruned
152    * j = pruned
153    */
154   jr = 0;
155   for (i = j = 1, ir = solv->rules + i; i < solv->nrules; i++, ir++)
156     {
157       if (jr && !unifyrules_sortcmp(ir, jr, pool))
158         continue;                      /* prune! */
159       jr = solv->rules + j++;          /* keep! */
160       if (ir != jr)
161         *jr = *ir;
162     }
163
164   /* reduced count from nrules to j rules */
165   POOL_DEBUG(SOLV_DEBUG_STATS, "pruned rules from %d to %d\n", solv->nrules, j);
166
167   /* adapt rule buffer */
168   solv->nrules = j;
169   solv->rules = solv_extend_resize(solv->rules, solv->nrules, sizeof(Rule), RULES_BLOCK);
170
171   /*
172    * debug: log rule statistics
173    */
174   IF_POOLDEBUG (SOLV_DEBUG_STATS)
175     {
176       int binr = 0;
177       int lits = 0;
178       Id *dp;
179       Rule *r;
180
181       for (i = 1; i < solv->nrules; i++)
182         {
183           r = solv->rules + i;
184           if (r->d == 0)
185             binr++;
186           else
187             {
188               dp = solv->pool->whatprovidesdata + r->d;
189               while (*dp++)
190                 lits++;
191             }
192         }
193       POOL_DEBUG(SOLV_DEBUG_STATS, "  binary: %d\n", binr);
194       POOL_DEBUG(SOLV_DEBUG_STATS, "  normal: %d, %d literals\n", solv->nrules - 1 - binr, lits);
195     }
196 }
197
198 #if 0
199
200 /*
201  * hash rule
202  */
203
204 static Hashval
205 hashrule(Solver *solv, Id p, Id d, int n)
206 {
207   unsigned int x = (unsigned int)p;
208   int *dp;
209
210   if (n <= 1)
211     return (x * 37) ^ (unsigned int)d;
212   dp = solv->pool->whatprovidesdata + d;
213   while (*dp)
214     x = (x * 37) ^ (unsigned int)*dp++;
215   return x;
216 }
217 #endif
218
219
220 /*-------------------------------------------------------------------
221  * 
222  */
223
224 /*
225  * add rule
226  *  p = direct literal; always < 0 for installed rpm rules
227  *  d, if < 0 direct literal, if > 0 offset into whatprovides, if == 0 rule is assertion (look at p only)
228  *
229  *
230  * A requires b, b provided by B1,B2,B3 => (-A|B1|B2|B3)
231  *
232  * p < 0 : pkg id of A
233  * d > 0 : Offset in whatprovidesdata (list of providers of b)
234  *
235  * A conflicts b, b provided by B1,B2,B3 => (-A|-B1), (-A|-B2), (-A|-B3)
236  * p < 0 : pkg id of A
237  * d < 0 : Id of solvable (e.g. B1)
238  *
239  * d == 0: unary rule, assertion => (A) or (-A)
240  *
241  *   Install:    p > 0, d = 0   (A)             user requested install
242  *   Remove:     p < 0, d = 0   (-A)            user requested remove (also: uninstallable)
243  *   Requires:   p < 0, d > 0   (-A|B1|B2|...)  d: <list of providers for requirement of p>
244  *   Updates:    p > 0, d > 0   (A|B1|B2|...)   d: <list of updates for solvable p>
245  *   Conflicts:  p < 0, d < 0   (-A|-B)         either p (conflict issuer) or d (conflict provider) (binary rule)
246  *                                              also used for obsoletes
247  *   ?:          p > 0, d < 0   (A|-B)          
248  *   No-op ?:    p = 0, d = 0   (null)          (used as policy rule placeholder)
249  *
250  *   resulting watches:
251  *   ------------------
252  *   Direct assertion (no watch needed) --> d = 0, w1 = p, w2 = 0
253  *   Binary rule: p = first literal, d = 0, w2 = second literal, w1 = p
254  *   every other : w1 = p, w2 = whatprovidesdata[d];
255  *   Disabled rule: w1 = 0
256  *
257  *   always returns a rule for non-rpm rules
258  */
259
260 Rule *
261 solver_addrule(Solver *solv, Id p, Id d)
262 {
263   Pool *pool = solv->pool;
264   Rule *r = 0;
265   Id *dp = 0;
266
267   int n = 0;                           /* number of literals in rule - 1
268                                           0 = direct assertion (single literal)
269                                           1 = binary rule
270                                           >1 = 
271                                         */
272
273   /* it often happenes that requires lead to adding the same rpm rule
274    * multiple times, so we prune those duplicates right away to make
275    * the work for unifyrules a bit easier */
276
277   if (!solv->rpmrules_end)              /* we add rpm rules */
278     {
279       r = solv->rules + solv->nrules - 1;       /* get the last added rule */
280       if (r->p == p && r->d == d && (d != 0 || !r->w2))
281         return r;
282     }
283
284     /*
285      * compute number of literals (n) in rule
286      */
287     
288   if (d < 0)
289     {
290       /* always a binary rule */
291       if (p == d)
292         return 0;                      /* ignore self conflict */
293       n = 1;
294     }
295   else if (d > 0)
296     {
297       for (dp = pool->whatprovidesdata + d; *dp; dp++, n++)
298         if (*dp == -p)
299           return 0;                     /* rule is self-fulfilling */
300         
301       if (n == 1)                       /* convert to binary rule */
302         d = dp[-1];
303     }
304
305   if (n == 1 && p > d && !solv->rpmrules_end)
306     {
307       /* smallest literal first so we can find dups */
308       n = p; p = d; d = n;             /* p <-> d */
309       n = 1;                           /* re-set n, was used as temp var */
310     }
311
312   /*
313    * check for duplicate
314    */
315     
316   /* check if the last added rule (r) is exactly the same as what we're looking for. */
317   if (r && n == 1 && !r->d && r->p == p && r->w2 == d)
318     return r;  /* binary rule */
319
320     /* have n-ary rule with same first literal, check other literals */
321   if (r && n > 1 && r->d && r->p == p)
322     {
323       /* Rule where d is an offset in whatprovidesdata */
324       Id *dp2;
325       if (d == r->d)
326         return r;
327       dp2 = pool->whatprovidesdata + r->d;
328       for (dp = pool->whatprovidesdata + d; *dp; dp++, dp2++)
329         if (*dp != *dp2)
330           break;
331       if (*dp == *dp2)
332         return r;
333    }
334
335   /*
336    * allocate new rule
337    */
338
339   /* extend rule buffer */
340   solv->rules = solv_extend(solv->rules, solv->nrules, 1, sizeof(Rule), RULES_BLOCK);
341   r = solv->rules + solv->nrules++;    /* point to rule space */
342
343     /*
344      * r = new rule
345      */
346     
347   r->p = p;
348   if (n == 0)
349     {
350       /* direct assertion, no watch needed */
351       r->d = 0;
352       r->w1 = p;
353       r->w2 = 0;
354     }
355   else if (n == 1)
356     {
357       /* binary rule */
358       r->d = 0;
359       r->w1 = p;
360       r->w2 = d;
361     }
362   else
363     {
364       r->d = d;
365       r->w1 = p;
366       r->w2 = pool->whatprovidesdata[d];
367     }
368   r->n1 = 0;
369   r->n2 = 0;
370
371   IF_POOLDEBUG (SOLV_DEBUG_RULE_CREATION)
372     {
373       POOL_DEBUG(SOLV_DEBUG_RULE_CREATION, "  Add rule: ");
374       solver_printrule(solv, SOLV_DEBUG_RULE_CREATION, r);
375     }
376
377   return r;
378 }
379
380
381 /******************************************************************************
382  ***
383  *** rpm rule part: create rules representing the package dependencies
384  ***
385  ***/
386
387 /*
388  *  special multiversion patch conflict handling:
389  *  a patch conflict is also satisfied if some other
390  *  version with the same name/arch that doesn't conflict
391  *  gets installed. The generated rule is thus:
392  *  -patch|-cpack|opack1|opack2|...
393  */
394 static Id
395 makemultiversionconflict(Solver *solv, Id n, Id con)
396 {
397   Pool *pool = solv->pool;
398   Solvable *s, *sn;
399   Queue q;
400   Id p, pp, qbuf[64];
401
402   sn = pool->solvables + n;
403   queue_init_buffer(&q, qbuf, sizeof(qbuf)/sizeof(*qbuf));
404   queue_push(&q, -n);
405   FOR_PROVIDES(p, pp, sn->name)
406     {
407       s = pool->solvables + p;
408       if (s->name != sn->name || s->arch != sn->arch)
409         continue;
410       if (!MAPTST(&solv->noobsoletes, p))
411         continue;
412       if (pool_match_nevr(pool, pool->solvables + p, con))
413         continue;
414       /* here we have a multiversion solvable that doesn't conflict */
415       /* thus we're not in conflict if it is installed */
416       queue_push(&q, p);
417     }
418   if (q.count == 1)
419     return -n;  /* no other package found, generate normal conflict */
420   return pool_queuetowhatprovides(pool, &q);
421 }
422
423 static inline void
424 addrpmrule(Solver *solv, Id p, Id d, int type, Id dep)
425 {
426   if (!solv->ruleinfoq)
427     solver_addrule(solv, p, d);
428   else
429     addrpmruleinfo(solv, p, d, type, dep);
430 }
431
432 /*-------------------------------------------------------------------
433  * 
434  * add (install) rules for solvable
435  * 
436  * s: Solvable for which to add rules
437  * m: m[s] = 1 for solvables which have rules, prevent rule duplication
438  * 
439  * Algorithm: 'visit all nodes of a graph'. The graph nodes are
440  *  solvables, the edges their dependencies.
441  *  Starting from an installed solvable, this will create all rules
442  *  representing the graph created by the solvables dependencies.
443  * 
444  * for unfulfilled requirements, conflicts, obsoletes,....
445  * add a negative assertion for solvables that are not installable
446  * 
447  * It will also create rules for all solvables referenced by 's'
448  *  i.e. descend to all providers of requirements of 's'
449  *
450  */
451
452 void
453 solver_addrpmrulesforsolvable(Solver *solv, Solvable *s, Map *m)
454 {
455   Pool *pool = solv->pool;
456   Repo *installed = solv->installed;
457
458   /* 'work' queue. keeps Ids of solvables we still have to work on.
459      And buffer for it. */
460   Queue workq;
461   Id workqbuf[64];
462     
463   int i;
464     /* if to add rules for broken deps ('rpm -V' functionality)
465      * 0 = yes, 1 = no
466      */
467   int dontfix;
468     /* Id var and pointer for each dependency
469      * (not used in parallel)
470      */
471   Id req, *reqp;
472   Id con, *conp;
473   Id obs, *obsp;
474   Id rec, *recp;
475   Id sug, *sugp;
476   Id p, pp;             /* whatprovides loops */
477   Id *dp;               /* ptr to 'whatprovides' */
478   Id n;                 /* Id for current solvable 's' */
479
480   queue_init_buffer(&workq, workqbuf, sizeof(workqbuf)/sizeof(*workqbuf));
481   queue_push(&workq, s - pool->solvables);      /* push solvable Id to work queue */
482
483   /* loop until there's no more work left */
484   while (workq.count)
485     {
486       /*
487        * n: Id of solvable
488        * s: Pointer to solvable
489        */
490
491       n = queue_shift(&workq);          /* 'pop' next solvable to work on from queue */
492       if (m)
493         {
494           if (MAPTST(m, n))             /* continue if already visited */
495             continue;
496           MAPSET(m, n);                 /* mark as visited */
497         }
498
499       s = pool->solvables + n;          /* s = Solvable in question */
500
501       dontfix = 0;
502       if (installed                     /* Installed system available */
503           && s->repo == installed       /* solvable is installed */
504           && !solv->fixmap_all          /* NOT repair errors in rpm dependency graph */
505           && !(solv->fixmap.size && MAPTST(&solv->fixmap, n - installed->start)))
506         {
507           dontfix = 1;                  /* dont care about broken rpm deps */
508         }
509
510       if (!dontfix
511           && s->arch != ARCH_SRC
512           && s->arch != ARCH_NOSRC
513           && !pool_installable(pool, s))
514         {
515           POOL_DEBUG(SOLV_DEBUG_RULE_CREATION, "package %s [%d] is not installable\n", pool_solvable2str(pool, s), (Id)(s - pool->solvables));
516           addrpmrule(solv, -n, 0, SOLVER_RULE_RPM_NOT_INSTALLABLE, 0);
517         }
518
519       /* yet another SUSE hack, sigh */
520       if (pool->nscallback && !strncmp("product:", pool_id2str(pool, s->name), 8))
521         {
522           Id buddy = pool->nscallback(pool, pool->nscallbackdata, NAMESPACE_PRODUCTBUDDY, n);
523           if (buddy > 0 && buddy != SYSTEMSOLVABLE && buddy != n && buddy < pool->nsolvables)
524             {
525               addrpmrule(solv, n, -buddy, SOLVER_RULE_RPM_PACKAGE_REQUIRES, solvable_selfprovidedep(pool->solvables + n));
526               addrpmrule(solv, buddy, -n, SOLVER_RULE_RPM_PACKAGE_REQUIRES, solvable_selfprovidedep(pool->solvables + buddy)); 
527               if (m && !MAPTST(m, buddy))
528                 queue_push(&workq, buddy);
529             }
530         }
531
532       /*-----------------------------------------
533        * check requires of s
534        */
535
536       if (s->requires)
537         {
538           reqp = s->repo->idarraydata + s->requires;
539           while ((req = *reqp++) != 0)            /* go through all requires */
540             {
541               if (req == SOLVABLE_PREREQMARKER)   /* skip the marker */
542                 continue;
543
544               /* find list of solvables providing 'req' */
545               dp = pool_whatprovides_ptr(pool, req);
546
547               if (*dp == SYSTEMSOLVABLE)          /* always installed */
548                 continue;
549
550               if (dontfix)
551                 {
552                   /* the strategy here is to not insist on dependencies
553                    * that are already broken. so if we find one provider
554                    * that was already installed, we know that the
555                    * dependency was not broken before so we enforce it */
556                  
557                   /* check if any of the providers for 'req' is installed */
558                   for (i = 0; (p = dp[i]) != 0; i++)
559                     {
560                       if (pool->solvables[p].repo == installed)
561                         break;          /* provider was installed */
562                     }
563                   /* didn't find an installed provider: previously broken dependency */
564                   if (!p)
565                     {
566                       POOL_DEBUG(SOLV_DEBUG_RULE_CREATION, "ignoring broken requires %s of installed package %s\n", pool_dep2str(pool, req), pool_solvable2str(pool, s));
567                       continue;
568                     }
569                 }
570
571               if (!*dp)
572                 {
573                   /* nothing provides req! */
574                   POOL_DEBUG(SOLV_DEBUG_RULE_CREATION, "package %s [%d] is not installable (%s)\n", pool_solvable2str(pool, s), (Id)(s - pool->solvables), pool_dep2str(pool, req));
575                   addrpmrule(solv, -n, 0, SOLVER_RULE_RPM_NOTHING_PROVIDES_DEP, req);
576                   continue;
577                 }
578
579               IF_POOLDEBUG (SOLV_DEBUG_RULE_CREATION)
580                 {
581                   POOL_DEBUG(SOLV_DEBUG_RULE_CREATION,"  %s requires %s\n", pool_solvable2str(pool, s), pool_dep2str(pool, req));
582                   for (i = 0; dp[i]; i++)
583                     POOL_DEBUG(SOLV_DEBUG_RULE_CREATION, "   provided by %s\n", pool_solvid2str(pool, dp[i]));
584                 }
585
586               /* add 'requires' dependency */
587               /* rule: (-requestor|provider1|provider2|...|providerN) */
588               addrpmrule(solv, -n, dp - pool->whatprovidesdata, SOLVER_RULE_RPM_PACKAGE_REQUIRES, req);
589
590               /* descend the dependency tree
591                  push all non-visited providers on the work queue */
592               if (m)
593                 {
594                   for (; *dp; dp++)
595                     {
596                       if (!MAPTST(m, *dp))
597                         queue_push(&workq, *dp);
598                     }
599                 }
600
601             } /* while, requirements of n */
602
603         } /* if, requirements */
604
605       /* that's all we check for src packages */
606       if (s->arch == ARCH_SRC || s->arch == ARCH_NOSRC)
607         continue;
608
609       /*-----------------------------------------
610        * check conflicts of s
611        */
612
613       if (s->conflicts)
614         {
615           int ispatch = 0;
616
617           /* we treat conflicts in patches a bit differen:
618            * - nevr matching
619            * - multiversion handling
620            * XXX: we should really handle this different, looking
621            * at the name is a bad hack
622            */
623           if (!strncmp("patch:", pool_id2str(pool, s->name), 6))
624             ispatch = 1;
625           conp = s->repo->idarraydata + s->conflicts;
626           /* foreach conflicts of 's' */
627           while ((con = *conp++) != 0)
628             {
629               /* foreach providers of a conflict of 's' */
630               FOR_PROVIDES(p, pp, con)
631                 {
632                   if (ispatch && !pool_match_nevr(pool, pool->solvables + p, con))
633                     continue;
634                   /* dontfix: dont care about conflicts with already installed packs */
635                   if (dontfix && pool->solvables[p].repo == installed)
636                     continue;
637                   /* p == n: self conflict */
638                   if (p == n && pool->forbidselfconflicts)
639                     {
640                       if (ISRELDEP(con))
641                         {
642                           Reldep *rd = GETRELDEP(pool, con);
643                           if (rd->flags == REL_NAMESPACE && rd->name == NAMESPACE_OTHERPROVIDERS)
644                             continue;
645                         }
646                       p = 0;    /* make it a negative assertion, aka 'uninstallable' */
647                     }
648                   if (p && ispatch && solv->noobsoletes.size && MAPTST(&solv->noobsoletes, p) && ISRELDEP(con))
649                     {
650                       /* our patch conflicts with a noobsoletes (aka multiversion) package */
651                       p = -makemultiversionconflict(solv, p, con);
652                     }
653                  /* rule: -n|-p: either solvable _or_ provider of conflict */
654                   addrpmrule(solv, -n, -p, p ? SOLVER_RULE_RPM_PACKAGE_CONFLICT : SOLVER_RULE_RPM_SELF_CONFLICT, con);
655                 }
656             }
657         }
658
659       /*-----------------------------------------
660        * check obsoletes and implicit obsoletes of a package
661        * if ignoreinstalledsobsoletes is not set, we're also checking
662        * obsoletes of installed packages (like newer rpm versions)
663        */
664       if ((!installed || s->repo != installed) || !pool->noinstalledobsoletes)
665         {
666           int noobs = solv->noobsoletes.size && MAPTST(&solv->noobsoletes, n);
667           int isinstalled = (installed && s->repo == installed);
668           if (s->obsoletes && (!noobs || solv->keepexplicitobsoletes))
669             {
670               obsp = s->repo->idarraydata + s->obsoletes;
671               /* foreach obsoletes */
672               while ((obs = *obsp++) != 0)
673                 {
674                   /* foreach provider of an obsoletes of 's' */ 
675                   FOR_PROVIDES(p, pp, obs)
676                     {
677                       Solvable *ps = pool->solvables + p;
678                       if (p == n)
679                         continue;
680                       if (isinstalled && dontfix && ps->repo == installed)
681                         continue;       /* don't repair installed/installed problems */
682                       if (!pool->obsoleteusesprovides /* obsoletes are matched names, not provides */
683                           && !pool_match_nevr(pool, ps, obs))
684                         continue;
685                       if (pool->obsoleteusescolors && !pool_colormatch(pool, s, ps))
686                         continue;
687                       if (!isinstalled)
688                         addrpmrule(solv, -n, -p, SOLVER_RULE_RPM_PACKAGE_OBSOLETES, obs);
689                       else
690                         addrpmrule(solv, -n, -p, SOLVER_RULE_RPM_INSTALLEDPKG_OBSOLETES, obs);
691                     }
692                 }
693             }
694           /* check implicit obsoletes
695            * for installed packages we only need to check installed/installed problems (and
696            * only when dontfix is not set), as the others are picked up when looking at the
697            * uninstalled package.
698            */
699           if (!isinstalled || !dontfix)
700             {
701               FOR_PROVIDES(p, pp, s->name)
702                 {
703                   Solvable *ps = pool->solvables + p;
704                   if (p == n)
705                     continue;
706                   if (isinstalled && ps->repo != installed)
707                     continue;
708                   /* we still obsolete packages with same nevra, like rpm does */
709                   /* (actually, rpm mixes those packages. yuck...) */
710                   if (noobs && (s->name != ps->name || s->evr != ps->evr || s->arch != ps->arch))
711                     continue;
712                   if (!pool->implicitobsoleteusesprovides && s->name != ps->name)
713                     continue;
714                   if (pool->obsoleteusescolors && !pool_colormatch(pool, s, ps))
715                     continue;
716                   if (s->name == ps->name)
717                     addrpmrule(solv, -n, -p, SOLVER_RULE_RPM_SAME_NAME, 0);
718                   else
719                     addrpmrule(solv, -n, -p, SOLVER_RULE_RPM_IMPLICIT_OBSOLETES, s->name);
720                 }
721             }
722         }
723
724       /*-----------------------------------------
725        * add recommends to the work queue
726        */
727       if (s->recommends && m)
728         {
729           recp = s->repo->idarraydata + s->recommends;
730           while ((rec = *recp++) != 0)
731             {
732               FOR_PROVIDES(p, pp, rec)
733                 if (!MAPTST(m, p))
734                   queue_push(&workq, p);
735             }
736         }
737       if (s->suggests && m)
738         {
739           sugp = s->repo->idarraydata + s->suggests;
740           while ((sug = *sugp++) != 0)
741             {
742               FOR_PROVIDES(p, pp, sug)
743                 if (!MAPTST(m, p))
744                   queue_push(&workq, p);
745             }
746         }
747     }
748   queue_free(&workq);
749 }
750
751
752 /*-------------------------------------------------------------------
753  * 
754  * Add rules for packages possibly selected in by weak dependencies
755  *
756  * m: already added solvables
757  */
758
759 void
760 solver_addrpmrulesforweak(Solver *solv, Map *m)
761 {
762   Pool *pool = solv->pool;
763   Solvable *s;
764   Id sup, *supp;
765   int i, n;
766
767   /* foreach solvable in pool */
768   for (i = n = 1; n < pool->nsolvables; i++, n++)
769     {
770       if (i == pool->nsolvables)                /* wrap i */
771         i = 1;
772       if (MAPTST(m, i))                         /* already added that one */
773         continue;
774
775       s = pool->solvables + i;
776       if (!pool_installable(pool, s))           /* only look at installable ones */
777         continue;
778
779       sup = 0;
780       if (s->supplements)
781         {
782           /* find possible supplements */
783           supp = s->repo->idarraydata + s->supplements;
784           while ((sup = *supp++) != 0)
785             if (dep_possible(solv, sup, m))
786               break;
787         }
788
789       /* if nothing found, check for enhances */
790       if (!sup && s->enhances)
791         {
792           supp = s->repo->idarraydata + s->enhances;
793           while ((sup = *supp++) != 0)
794             if (dep_possible(solv, sup, m))
795               break;
796         }
797       /* if nothing found, goto next solvables */
798       if (!sup)
799         continue;
800       solver_addrpmrulesforsolvable(solv, s, m);
801       n = 0;                    /* check all solvables again because we added solvables to m */
802     }
803 }
804
805
806 /*-------------------------------------------------------------------
807  * 
808  * add package rules for possible updates
809  * 
810  * s: solvable
811  * m: map of already visited solvables
812  * allow_all: 0 = dont allow downgrades, 1 = allow all candidates
813  */
814
815 void
816 solver_addrpmrulesforupdaters(Solver *solv, Solvable *s, Map *m, int allow_all)
817 {
818   Pool *pool = solv->pool;
819   int i;
820     /* queue and buffer for it */
821   Queue qs;
822   Id qsbuf[64];
823
824   queue_init_buffer(&qs, qsbuf, sizeof(qsbuf)/sizeof(*qsbuf));
825     /* find update candidates for 's' */
826   policy_findupdatepackages(solv, s, &qs, allow_all);
827     /* add rule for 's' if not already done */
828   if (!MAPTST(m, s - pool->solvables))
829     solver_addrpmrulesforsolvable(solv, s, m);
830     /* foreach update candidate, add rule if not already done */
831   for (i = 0; i < qs.count; i++)
832     if (!MAPTST(m, qs.elements[i]))
833       solver_addrpmrulesforsolvable(solv, pool->solvables + qs.elements[i], m);
834   queue_free(&qs);
835 }
836
837
838 /***********************************************************************
839  ***
840  ***  Update/Feature rule part
841  ***
842  ***  Those rules make sure an installed package isn't silently deleted
843  ***
844  ***/
845
846 static Id
847 finddistupgradepackages(Solver *solv, Solvable *s, Queue *qs, int allow_all)
848 {
849   Pool *pool = solv->pool;
850   int i;
851
852   policy_findupdatepackages(solv, s, qs, allow_all ? allow_all : 2);
853   if (!qs->count)
854     {
855       if (allow_all)
856         return 0;       /* orphaned, don't create feature rule */
857       /* check if this is an orphaned package */
858       policy_findupdatepackages(solv, s, qs, 1);
859       if (!qs->count)
860         return 0;       /* orphaned, don't create update rule */
861       qs->count = 0;
862       return -SYSTEMSOLVABLE;   /* supported but not installable */
863     }
864   if (allow_all)
865     return s - pool->solvables;
866   /* check if it is ok to keep the installed package */
867   for (i = 0; i < qs->count; i++)
868     {
869       Solvable *ns = pool->solvables + qs->elements[i];
870       if (s->evr == ns->evr && solvable_identical(s, ns))
871         return s - pool->solvables;
872     }
873   /* nope, it must be some other package */
874   return -SYSTEMSOLVABLE;
875 }
876
877 /* add packages from the dup repositories to the update candidates
878  * this isn't needed for the global dup mode as all packages are
879  * from dup repos in that case */
880 static void
881 addduppackages(Solver *solv, Solvable *s, Queue *qs)
882 {
883   Queue dupqs;
884   Id p, dupqsbuf[64];
885   int i;
886   int oldnoupdateprovide = solv->noupdateprovide;
887
888   queue_init_buffer(&dupqs, dupqsbuf, sizeof(dupqsbuf)/sizeof(*dupqsbuf));
889   solv->noupdateprovide = 1;
890   policy_findupdatepackages(solv, s, &dupqs, 2);
891   solv->noupdateprovide = oldnoupdateprovide;
892   for (i = 0; i < dupqs.count; i++)
893     {
894       p = dupqs.elements[i];
895       if (MAPTST(&solv->dupmap, p))
896         queue_pushunique(qs, p);
897     }
898   queue_free(&dupqs);
899 }
900
901 /*-------------------------------------------------------------------
902  * 
903  * add rule for update
904  *   (A|A1|A2|A3...)  An = update candidates for A
905  *
906  * s = (installed) solvable
907  */
908
909 void
910 solver_addupdaterule(Solver *solv, Solvable *s, int allow_all)
911 {
912   /* installed packages get a special upgrade allowed rule */
913   Pool *pool = solv->pool;
914   Id p, d;
915   Queue qs;
916   Id qsbuf[64];
917
918   queue_init_buffer(&qs, qsbuf, sizeof(qsbuf)/sizeof(*qsbuf));
919   p = s - pool->solvables;
920   /* find update candidates for 's' */
921   if (solv->dupmap_all)
922     p = finddistupgradepackages(solv, s, &qs, allow_all);
923   else
924     policy_findupdatepackages(solv, s, &qs, allow_all);
925   if (!allow_all && !solv->dupmap_all && solv->dupinvolvedmap.size && MAPTST(&solv->dupinvolvedmap, p))
926     addduppackages(solv, s, &qs);
927
928   if (!allow_all && qs.count && solv->noobsoletes.size)
929     {
930       int i, j;
931
932       d = pool_queuetowhatprovides(pool, &qs);
933       /* filter out all noobsoletes packages as they don't update */
934       for (i = j = 0; i < qs.count; i++)
935         {
936           if (MAPTST(&solv->noobsoletes, qs.elements[i]))
937             {
938               /* it's ok if they have same nevra */
939               Solvable *ps = pool->solvables + qs.elements[i];
940               if (ps->name != s->name || ps->evr != s->evr || ps->arch != s->arch)
941                 continue;
942             }
943           qs.elements[j++] = qs.elements[i];
944         }
945       if (j < qs.count)
946         {
947           if (d && solv->installed && s->repo == solv->installed &&
948               (solv->updatemap_all || (solv->updatemap.size && MAPTST(&solv->updatemap, s - pool->solvables - solv->installed->start))))
949             {
950               if (!solv->multiversionupdaters)
951                 solv->multiversionupdaters = solv_calloc(solv->installed->end - solv->installed->start, sizeof(Id));
952               solv->multiversionupdaters[s - pool->solvables - solv->installed->start] = d;
953             }
954           if (j == 0 && p == -SYSTEMSOLVABLE && solv->dupmap_all)
955             {
956               queue_push(&solv->orphaned, s - pool->solvables); /* treat as orphaned */
957               j = qs.count;
958             }
959           qs.count = j;
960         }
961     }
962   if (qs.count && p == -SYSTEMSOLVABLE)
963     p = queue_shift(&qs);
964   d = qs.count ? pool_queuetowhatprovides(pool, &qs) : 0;
965   queue_free(&qs);
966   solver_addrule(solv, p, d);   /* allow update of s */
967 }
968
969 static inline void 
970 disableupdaterule(Solver *solv, Id p)
971 {
972   Rule *r;
973
974   MAPSET(&solv->noupdate, p - solv->installed->start);
975   r = solv->rules + solv->updaterules + (p - solv->installed->start);
976   if (r->p && r->d >= 0)
977     solver_disablerule(solv, r);
978   r = solv->rules + solv->featurerules + (p - solv->installed->start);
979   if (r->p && r->d >= 0)
980     solver_disablerule(solv, r);
981 }
982
983 static inline void 
984 reenableupdaterule(Solver *solv, Id p)
985 {
986   Pool *pool = solv->pool;
987   Rule *r;
988
989   MAPCLR(&solv->noupdate, p - solv->installed->start);
990   r = solv->rules + solv->updaterules + (p - solv->installed->start);
991   if (r->p)
992     {    
993       if (r->d >= 0)
994         return;
995       solver_enablerule(solv, r);
996       IF_POOLDEBUG (SOLV_DEBUG_SOLUTIONS)
997         {
998           POOL_DEBUG(SOLV_DEBUG_SOLUTIONS, "@@@ re-enabling ");
999           solver_printruleclass(solv, SOLV_DEBUG_SOLUTIONS, r);
1000         }
1001       return;
1002     }
1003   r = solv->rules + solv->featurerules + (p - solv->installed->start);
1004   if (r->p && r->d < 0)
1005     {
1006       solver_enablerule(solv, r);
1007       IF_POOLDEBUG (SOLV_DEBUG_SOLUTIONS)
1008         {
1009           POOL_DEBUG(SOLV_DEBUG_SOLUTIONS, "@@@ re-enabling ");
1010           solver_printruleclass(solv, SOLV_DEBUG_SOLUTIONS, r);
1011         }
1012     }
1013 }
1014
1015
1016 /***********************************************************************
1017  ***
1018  ***  Infarch rule part
1019  ***
1020  ***  Infarch rules make sure the solver uses the best architecture of
1021  ***  a package if multiple archetectures are available
1022  ***
1023  ***/
1024
1025 void
1026 solver_addinfarchrules(Solver *solv, Map *addedmap)
1027 {
1028   Pool *pool = solv->pool;
1029   int first, i, j;
1030   Id p, pp, a, aa, bestarch;
1031   Solvable *s, *ps, *bests;
1032   Queue badq, allowedarchs;
1033
1034   queue_init(&badq);
1035   queue_init(&allowedarchs);
1036   solv->infarchrules = solv->nrules;
1037   for (i = 1; i < pool->nsolvables; i++)
1038     {
1039       if (i == SYSTEMSOLVABLE || !MAPTST(addedmap, i))
1040         continue;
1041       s = pool->solvables + i;
1042       first = i;
1043       bestarch = 0;
1044       bests = 0;
1045       queue_empty(&allowedarchs);
1046       FOR_PROVIDES(p, pp, s->name)
1047         {
1048           ps = pool->solvables + p;
1049           if (ps->name != s->name || !MAPTST(addedmap, p))
1050             continue;
1051           if (p == i)
1052             first = 0;
1053           if (first)
1054             break;
1055           a = ps->arch;
1056           a = (a <= pool->lastarch) ? pool->id2arch[a] : 0;
1057           if (a != 1 && pool->installed && ps->repo == pool->installed)
1058             {
1059               if (!solv->dupmap_all && !(solv->dupinvolvedmap.size && MAPTST(&solv->dupinvolvedmap, p)))
1060                 queue_pushunique(&allowedarchs, ps->arch);      /* also ok to keep this architecture */
1061               continue;         /* ignore installed solvables when calculating the best arch */
1062             }
1063           if (a && a != 1 && (!bestarch || a < bestarch))
1064             {
1065               bestarch = a;
1066               bests = ps;
1067             }
1068         }
1069       if (first)
1070         continue;
1071       /* speed up common case where installed package already has best arch */
1072       if (allowedarchs.count == 1 && bests && allowedarchs.elements[0] == bests->arch)
1073         allowedarchs.count--;   /* installed arch is best */
1074       queue_empty(&badq);
1075       FOR_PROVIDES(p, pp, s->name)
1076         {
1077           ps = pool->solvables + p;
1078           if (ps->name != s->name || !MAPTST(addedmap, p))
1079             continue;
1080           a = ps->arch;
1081           a = (a <= pool->lastarch) ? pool->id2arch[a] : 0;
1082           if (a != 1 && bestarch && ((a ^ bestarch) & 0xffff0000) != 0)
1083             {
1084               if (pool->installed && ps->repo == pool->installed)
1085                 continue;       /* always ok to keep an installed package */
1086               for (j = 0; j < allowedarchs.count; j++)
1087                 {
1088                   aa = allowedarchs.elements[j];
1089                   if (ps->arch == aa)
1090                     break;
1091                   aa = (aa <= pool->lastarch) ? pool->id2arch[aa] : 0;
1092                   if (aa && ((a ^ aa) & 0xffff0000) == 0)
1093                     break;      /* compatible */
1094                 }
1095               if (j == allowedarchs.count)
1096                 queue_push(&badq, p);
1097             }
1098         }
1099       if (!badq.count)
1100         continue;
1101       /* block all solvables in the badq! */
1102       for (j = 0; j < badq.count; j++)
1103         {
1104           p = badq.elements[j];
1105           solver_addrule(solv, -p, 0);
1106         }
1107     }
1108   queue_free(&badq);
1109   queue_free(&allowedarchs);
1110   solv->infarchrules_end = solv->nrules;
1111 }
1112
1113 static inline void
1114 disableinfarchrule(Solver *solv, Id name)
1115 {
1116   Pool *pool = solv->pool;
1117   Rule *r;
1118   int i;
1119   for (i = solv->infarchrules, r = solv->rules + i; i < solv->infarchrules_end; i++, r++)
1120     {
1121       if (r->p < 0 && r->d >= 0 && pool->solvables[-r->p].name == name)
1122         solver_disablerule(solv, r);
1123     }
1124 }
1125
1126 static inline void
1127 reenableinfarchrule(Solver *solv, Id name)
1128 {
1129   Pool *pool = solv->pool;
1130   Rule *r;
1131   int i;
1132   for (i = solv->infarchrules, r = solv->rules + i; i < solv->infarchrules_end; i++, r++)
1133     {
1134       if (r->p < 0 && r->d < 0 && pool->solvables[-r->p].name == name)
1135         {
1136           solver_enablerule(solv, r);
1137           IF_POOLDEBUG (SOLV_DEBUG_SOLUTIONS)
1138             {
1139               POOL_DEBUG(SOLV_DEBUG_SOLUTIONS, "@@@ re-enabling ");
1140               solver_printruleclass(solv, SOLV_DEBUG_SOLUTIONS, r);
1141             }
1142         }
1143     }
1144 }
1145
1146
1147 /***********************************************************************
1148  ***
1149  ***  Dup rule part
1150  ***
1151  ***  Dup rules make sure a package is selected from the specified dup
1152  ***  repositories if an update candidate is included in one of them.
1153  ***
1154  ***/
1155
1156 void
1157 solver_createdupmaps(Solver *solv)
1158 {
1159   Queue *job = &solv->job;
1160   Pool *pool = solv->pool;
1161   Repo *repo;
1162   Id how, what, p, pi, pp, obs, *obsp;
1163   Solvable *s, *ps;
1164   int i;
1165
1166   map_init(&solv->dupmap, pool->nsolvables);
1167   map_init(&solv->dupinvolvedmap, pool->nsolvables);
1168   for (i = 0; i < job->count; i += 2)
1169     {
1170       how = job->elements[i];
1171       what = job->elements[i + 1];
1172       switch (how & SOLVER_JOBMASK)
1173         {
1174         case SOLVER_DISTUPGRADE:
1175           if ((how & SOLVER_SELECTMASK) != SOLVER_SOLVABLE_REPO)
1176             break;
1177           if (what <= 0 || what > pool->nrepos)
1178             break;
1179           repo = pool_id2repo(pool, what);
1180           FOR_REPO_SOLVABLES(repo, p, s)
1181             {
1182               if (repo != solv->installed && !pool_installable(pool, s))
1183                 continue;
1184               MAPSET(&solv->dupmap, p);
1185               FOR_PROVIDES(pi, pp, s->name)
1186                 {
1187                   ps = pool->solvables + pi;
1188                   if (ps->name != s->name)
1189                     continue;
1190                   MAPSET(&solv->dupinvolvedmap, pi);
1191                 }
1192               if (s->obsoletes)
1193                 {
1194                   /* FIXME: check obsoletes/provides combination */
1195                   obsp = s->repo->idarraydata + s->obsoletes;
1196                   while ((obs = *obsp++) != 0)
1197                     {
1198                       FOR_PROVIDES(pi, pp, obs)
1199                         {
1200                           Solvable *pis = pool->solvables + pi;
1201                           if (!pool->obsoleteusesprovides && !pool_match_nevr(pool, pis, obs))
1202                             continue;
1203                           if (pool->obsoleteusescolors && !pool_colormatch(pool, s, pis))
1204                             continue;
1205                           MAPSET(&solv->dupinvolvedmap, pi);
1206                         }
1207                     }
1208                 }
1209             }
1210           break;
1211         default:
1212           break;
1213         }
1214     }
1215   MAPCLR(&solv->dupinvolvedmap, SYSTEMSOLVABLE);
1216 }
1217
1218 void
1219 solver_freedupmaps(Solver *solv)
1220 {
1221   map_free(&solv->dupmap);
1222   /* we no longer free solv->dupinvolvedmap as we need it in
1223    * policy's priority pruning code. sigh. */
1224 }
1225
1226 void
1227 solver_addduprules(Solver *solv, Map *addedmap)
1228 {
1229   Pool *pool = solv->pool;
1230   Id p, pp;
1231   Solvable *s, *ps;
1232   int first, i;
1233
1234   solv->duprules = solv->nrules;
1235   for (i = 1; i < pool->nsolvables; i++)
1236     {
1237       if (i == SYSTEMSOLVABLE || !MAPTST(addedmap, i))
1238         continue;
1239       s = pool->solvables + i;
1240       first = i;
1241       FOR_PROVIDES(p, pp, s->name)
1242         {
1243           ps = pool->solvables + p;
1244           if (ps->name != s->name || !MAPTST(addedmap, p))
1245             continue;
1246           if (p == i)
1247             first = 0;
1248           if (first)
1249             break;
1250           if (!MAPTST(&solv->dupinvolvedmap, p))
1251             continue;
1252           if (solv->installed && ps->repo == solv->installed)
1253             {
1254               if (!solv->updatemap.size)
1255                 map_grow(&solv->updatemap, solv->installed->end - solv->installed->start);
1256               MAPSET(&solv->updatemap, p - solv->installed->start);
1257               if (!MAPTST(&solv->dupmap, p))
1258                 {
1259                   Id ip, ipp;
1260                   /* is installed identical to a good one? */
1261                   FOR_PROVIDES(ip, ipp, ps->name)
1262                     {
1263                       Solvable *is = pool->solvables + ip;
1264                       if (!MAPTST(&solv->dupmap, ip))
1265                         continue;
1266                       if (is->evr == ps->evr && solvable_identical(ps, is))
1267                         break;
1268                     }
1269                   if (!ip)
1270                     solver_addrule(solv, -p, 0);        /* no match, sorry */
1271                 }
1272             }
1273           else if (!MAPTST(&solv->dupmap, p))
1274             solver_addrule(solv, -p, 0);
1275         }
1276     }
1277   solv->duprules_end = solv->nrules;
1278 }
1279
1280
1281 static inline void
1282 disableduprule(Solver *solv, Id name)
1283 {
1284   Pool *pool = solv->pool;
1285   Rule *r;
1286   int i;
1287   for (i = solv->duprules, r = solv->rules + i; i < solv->duprules_end; i++, r++) 
1288     {    
1289       if (r->p < 0 && r->d >= 0 && pool->solvables[-r->p].name == name)
1290         solver_disablerule(solv, r);
1291     }    
1292 }
1293
1294 static inline void 
1295 reenableduprule(Solver *solv, Id name)
1296 {
1297   Pool *pool = solv->pool;
1298   Rule *r;
1299   int i;
1300   for (i = solv->duprules, r = solv->rules + i; i < solv->duprules_end; i++, r++) 
1301     {    
1302       if (r->p < 0 && r->d < 0 && pool->solvables[-r->p].name == name)
1303         {
1304           solver_enablerule(solv, r);
1305           IF_POOLDEBUG (SOLV_DEBUG_SOLUTIONS)
1306             {
1307               POOL_DEBUG(SOLV_DEBUG_SOLUTIONS, "@@@ re-enabling ");
1308               solver_printruleclass(solv, SOLV_DEBUG_SOLUTIONS, r);
1309             }
1310         }
1311     }
1312 }
1313
1314
1315 /***********************************************************************
1316  ***
1317  ***  Policy rule disabling/reenabling
1318  ***
1319  ***  Disable all policy rules that conflict with our jobs. If a job
1320  ***  gets disabled later on, reenable the involved policy rules again.
1321  ***
1322  ***/
1323
1324 #define DISABLE_UPDATE  1
1325 #define DISABLE_INFARCH 2
1326 #define DISABLE_DUP     3
1327
1328 /* 
1329  * add all installed packages that package p obsoletes to Queue q.
1330  * Package p is not installed. Also, we know that if
1331  * solv->keepexplicitobsoletes is not set, p is not in the noobs map.
1332  * Entries may get added multiple times.
1333  */
1334 static void
1335 add_obsoletes(Solver *solv, Id p, Queue *q)
1336 {
1337   Pool *pool = solv->pool;
1338   Repo *installed = solv->installed;
1339   Id p2, pp2;
1340   Solvable *s = pool->solvables + p;
1341   Id obs, *obsp;
1342   Id lastp2 = 0;
1343
1344   if (!solv->keepexplicitobsoletes || !(solv->noobsoletes.size && MAPTST(&solv->noobsoletes, p)))
1345     {
1346       FOR_PROVIDES(p2, pp2, s->name)
1347         {
1348           Solvable *ps = pool->solvables + p2;
1349           if (ps->repo != installed)
1350             continue;
1351           if (!pool->implicitobsoleteusesprovides && ps->name != s->name)
1352             continue;
1353           if (pool->obsoleteusescolors && !pool_colormatch(pool, s, ps)) 
1354             continue;
1355           queue_push(q, p2);
1356           lastp2 = p2;
1357         }
1358     }
1359   if (!s->obsoletes)
1360     return;
1361   obsp = s->repo->idarraydata + s->obsoletes;
1362   while ((obs = *obsp++) != 0)
1363     FOR_PROVIDES(p2, pp2, obs) 
1364       {
1365         Solvable *ps = pool->solvables + p2;
1366         if (ps->repo != installed)
1367           continue;
1368         if (!pool->obsoleteusesprovides && !pool_match_nevr(pool, ps, obs))
1369           continue;
1370         if (pool->obsoleteusescolors && !pool_colormatch(pool, s, ps)) 
1371           continue;
1372         if (p2 == lastp2)
1373           continue;
1374         queue_push(q, p2);
1375         lastp2 = p2;
1376       }
1377 }
1378
1379 /*
1380  * Call add_obsoletes and intersect the result with the
1381  * elements in Queue q starting at qstart.
1382  * Assumes that it's the first call if qstart == q->count.
1383  * May use auxillary map m for the intersection process, all
1384  * elements of q starting at qstart must have their bit cleared.
1385  * (This is also true after the function returns.)
1386  */
1387 static void
1388 intersect_obsoletes(Solver *solv, Id p, Queue *q, int qstart, Map *m)
1389 {
1390   int i, j;
1391   int qcount = q->count;
1392
1393   add_obsoletes(solv, p, q);
1394   if (qcount == qstart)
1395     return;     /* first call */
1396   if (qcount == q->count)
1397     j = qstart; 
1398   else if (qcount == qstart + 1)
1399     {
1400       /* easy if there's just one element */
1401       j = qstart;
1402       for (i = qcount; i < q->count; i++)
1403         if (q->elements[i] == q->elements[qstart])
1404           {
1405             j++;        /* keep the element */
1406             break;
1407           }
1408     }
1409   else if (!m->size && q->count - qstart <= 8)
1410     {
1411       /* faster than a map most of the time */
1412       int k;
1413       for (i = j = qstart; i < qcount; i++)
1414         {
1415           Id ip = q->elements[i];
1416           for (k = qcount; k < q->count; k++)
1417             if (q->elements[k] == ip)
1418               {
1419                 q->elements[j++] = ip;
1420                 break;
1421               }
1422         }
1423     }
1424   else
1425     {
1426       /* for the really pathologic cases we use the map */
1427       Repo *installed = solv->installed;
1428       if (!m->size)
1429         map_init(m, installed->end - installed->start);
1430       for (i = qcount; i < q->count; i++)
1431         MAPSET(m, q->elements[i] - installed->start);
1432       for (i = j = qstart; i < qcount; i++)
1433         if (MAPTST(m, q->elements[i] - installed->start))
1434           {
1435             MAPCLR(m, q->elements[i] - installed->start);
1436             q->elements[j++] = q->elements[i];
1437           }
1438     }
1439   queue_truncate(q, j);
1440 }
1441
1442 static void
1443 jobtodisablelist(Solver *solv, Id how, Id what, Queue *q)
1444 {
1445   Pool *pool = solv->pool;
1446   Id select, p, pp;
1447   Repo *installed;
1448   Solvable *s;
1449   int i, j, set, qstart;
1450   Map omap;
1451
1452   installed = solv->installed;
1453   select = how & SOLVER_SELECTMASK;
1454   switch (how & SOLVER_JOBMASK)
1455     {
1456     case SOLVER_INSTALL:
1457       set = how & SOLVER_SETMASK;
1458       if (!(set & SOLVER_NOAUTOSET))
1459         {
1460           /* automatically add set bits by analysing the job */
1461           if (select == SOLVER_SOLVABLE_NAME)
1462             set |= SOLVER_SETNAME;
1463           if (select == SOLVER_SOLVABLE)
1464             set |= SOLVER_SETNAME | SOLVER_SETARCH | SOLVER_SETVENDOR | SOLVER_SETREPO | SOLVER_SETEVR;
1465           else if ((select == SOLVER_SOLVABLE_NAME || select == SOLVER_SOLVABLE_PROVIDES) && ISRELDEP(what))
1466             {
1467               Reldep *rd = GETRELDEP(pool, what);
1468               if (rd->flags == REL_EQ && select == SOLVER_SOLVABLE_NAME)
1469                 {
1470                   if (pool->disttype != DISTTYPE_DEB)
1471                     {
1472                       const char *evr = pool_id2str(pool, rd->evr);
1473                       if (strchr(evr, '-'))
1474                         set |= SOLVER_SETEVR;
1475                       else
1476                         set |= SOLVER_SETEV;
1477                     }
1478                   else
1479                     set |= SOLVER_SETEVR;
1480                 }
1481               if (rd->flags <= 7 && ISRELDEP(rd->name))
1482                 rd = GETRELDEP(pool, rd->name);
1483               if (rd->flags == REL_ARCH)
1484                 set |= SOLVER_SETARCH;
1485             }
1486         }
1487       else
1488         set &= ~SOLVER_NOAUTOSET;
1489       if (!set)
1490         return;
1491       if ((set & SOLVER_SETARCH) != 0 && solv->infarchrules != solv->infarchrules_end)
1492         {
1493           if (select == SOLVER_SOLVABLE)
1494             queue_push2(q, DISABLE_INFARCH, pool->solvables[what].name);
1495           else
1496             {
1497               int qcnt = q->count;
1498               FOR_JOB_SELECT(p, pp, select, what)
1499                 {
1500                   s = pool->solvables + p;
1501                   /* unify names */
1502                   for (i = qcnt; i < q->count; i += 2)
1503                     if (q->elements[i + 1] == s->name)
1504                       break;
1505                   if (i < q->count)
1506                     continue;
1507                   queue_push2(q, DISABLE_INFARCH, s->name);
1508                 }
1509             }
1510         }
1511       if ((set & SOLVER_SETREPO) != 0 && solv->duprules != solv->duprules_end)
1512         {
1513           if (select == SOLVER_SOLVABLE)
1514             queue_push2(q, DISABLE_DUP, pool->solvables[what].name);
1515           else
1516             {
1517               int qcnt = q->count;
1518               FOR_JOB_SELECT(p, pp, select, what)
1519                 {
1520                   s = pool->solvables + p;
1521                   /* unify names */
1522                   for (i = qcnt; i < q->count; i += 2)
1523                     if (q->elements[i + 1] == s->name)
1524                       break;
1525                   if (i < q->count)
1526                     continue;
1527                   queue_push2(q, DISABLE_DUP, s->name);
1528                 }
1529             }
1530         }
1531       if (!installed || installed->end == installed->start)
1532         return;
1533       /* now the hard part: disable some update rules */
1534
1535       /* first check if we have noobs or installed packages in the job */
1536       i = j = 0;
1537       FOR_JOB_SELECT(p, pp, select, what)
1538         {
1539           if (pool->solvables[p].repo == installed)
1540             j = p;
1541           else if (solv->noobsoletes.size && MAPTST(&solv->noobsoletes, p) && !solv->keepexplicitobsoletes)
1542             return;
1543           i++;
1544         }
1545       if (j)    /* have installed packages */
1546         {
1547           /* this is for dupmap_all jobs, it can go away if we create
1548            * duprules for them */
1549           if (i == 1 && (set & SOLVER_SETREPO) != 0)
1550             queue_push2(q, DISABLE_UPDATE, j);
1551           return;
1552         }
1553
1554       omap.size = 0;
1555       qstart = q->count;
1556       FOR_JOB_SELECT(p, pp, select, what)
1557         {
1558           intersect_obsoletes(solv, p, q, qstart, &omap);
1559           if (q->count == qstart)
1560             break;
1561         }
1562       if (omap.size)
1563         map_free(&omap);
1564
1565       if (qstart == q->count)
1566         return;         /* nothing to prune */
1567
1568       /* convert result to (DISABLE_UPDATE, p) pairs */
1569       i = q->count;
1570       for (j = qstart; j < i; j++)
1571         queue_push(q, q->elements[j]);
1572       for (j = qstart; j < q->count; j += 2)
1573         {
1574           q->elements[j] = DISABLE_UPDATE;
1575           q->elements[j + 1] = q->elements[i++];
1576         }
1577
1578       /* now that we know which installed packages are obsoleted check each of them */
1579       if ((set & (SOLVER_SETEVR | SOLVER_SETARCH | SOLVER_SETVENDOR)) == (SOLVER_SETEVR | SOLVER_SETARCH | SOLVER_SETVENDOR))
1580         return;         /* all is set, nothing to do */
1581
1582       for (i = j = qstart; i < q->count; i += 2)
1583         {
1584           Solvable *is = pool->solvables + q->elements[i + 1];
1585           FOR_JOB_SELECT(p, pp, select, what)
1586             {
1587               int illegal = 0;
1588               s = pool->solvables + p;
1589               if ((set & SOLVER_SETEVR) != 0)
1590                 illegal |= POLICY_ILLEGAL_DOWNGRADE;    /* ignore */
1591               if ((set & SOLVER_SETNAME) != 0)
1592                 illegal |= POLICY_ILLEGAL_NAMECHANGE;   /* ignore */
1593               if ((set & SOLVER_SETARCH) != 0)
1594                 illegal |= POLICY_ILLEGAL_ARCHCHANGE;   /* ignore */
1595               if ((set & SOLVER_SETVENDOR) != 0)
1596                 illegal |= POLICY_ILLEGAL_VENDORCHANGE; /* ignore */
1597               illegal = policy_is_illegal(solv, is, s, illegal);
1598               if (illegal && illegal == POLICY_ILLEGAL_DOWNGRADE && (set & SOLVER_SETEV) != 0)
1599                 {
1600                   /* it's ok if the EV is different */
1601                   if (pool_evrcmp(pool, is->evr, s->evr, EVRCMP_COMPARE_EVONLY) != 0)
1602                     illegal = 0;
1603                 }
1604               if (illegal)
1605                 break;
1606             }
1607           if (!p)
1608             {   
1609               /* no package conflicts with the update rule */
1610               /* thus keep the DISABLE_UPDATE */
1611               q->elements[j + 1] = q->elements[i + 1];
1612               j += 2;
1613             }
1614         }
1615       queue_truncate(q, j);
1616       return;
1617
1618     case SOLVER_ERASE:
1619       if (!installed)
1620         break;
1621       FOR_JOB_SELECT(p, pp, select, what)
1622         if (pool->solvables[p].repo == installed)
1623           queue_push2(q, DISABLE_UPDATE, p);
1624       return;
1625     default:
1626       return;
1627     }
1628 }
1629
1630 /* disable all policy rules that are in conflict with our job list */
1631 void
1632 solver_disablepolicyrules(Solver *solv)
1633 {
1634   Queue *job = &solv->job;
1635   int i, j;
1636   Queue allq;
1637   Rule *r;
1638   Id lastjob = -1;
1639   Id allqbuf[128];
1640
1641   queue_init_buffer(&allq, allqbuf, sizeof(allqbuf)/sizeof(*allqbuf));
1642
1643   for (i = solv->jobrules; i < solv->jobrules_end; i++)
1644     {
1645       r = solv->rules + i;
1646       if (r->d < 0)     /* disabled? */
1647         continue;
1648       j = solv->ruletojob.elements[i - solv->jobrules];
1649       if (j == lastjob)
1650         continue;
1651       lastjob = j;
1652       jobtodisablelist(solv, job->elements[j], job->elements[j + 1], &allq);
1653     }
1654   if (solv->cleandepsmap.size)
1655     {
1656       solver_createcleandepsmap(solv, &solv->cleandepsmap, 0);
1657       for (i = solv->installed->start; i < solv->installed->end; i++)
1658         if (MAPTST(&solv->cleandepsmap, i - solv->installed->start))
1659           queue_push2(&allq, DISABLE_UPDATE, i);
1660     }
1661   MAPZERO(&solv->noupdate);
1662   for (i = 0; i < allq.count; i += 2)
1663     {
1664       Id type = allq.elements[i], arg = allq.elements[i + 1];
1665       switch(type)
1666         {
1667         case DISABLE_UPDATE:
1668           disableupdaterule(solv, arg);
1669           break;
1670         case DISABLE_INFARCH:
1671           disableinfarchrule(solv, arg);
1672           break;
1673         case DISABLE_DUP:
1674           disableduprule(solv, arg);
1675           break;
1676         default:
1677           break;
1678         }
1679     }
1680   queue_free(&allq);
1681 }
1682
1683 /* we just disabled job #jobidx, now reenable all policy rules that were
1684  * disabled because of this job */
1685 void
1686 solver_reenablepolicyrules(Solver *solv, int jobidx)
1687 {
1688   Queue *job = &solv->job;
1689   int i, j;
1690   Queue q, allq;
1691   Rule *r;
1692   Id lastjob = -1;
1693   Id qbuf[32], allqbuf[128];
1694
1695   queue_init_buffer(&q, qbuf, sizeof(qbuf)/sizeof(*qbuf));
1696   queue_init_buffer(&allq, allqbuf, sizeof(allqbuf)/sizeof(*allqbuf));
1697   jobtodisablelist(solv, job->elements[jobidx - 1], job->elements[jobidx], &q);
1698   if (!q.count)
1699     return;
1700   for (i = solv->jobrules; i < solv->jobrules_end; i++)
1701     {
1702       r = solv->rules + i;
1703       if (r->d < 0)     /* disabled? */
1704         continue;
1705       j = solv->ruletojob.elements[i - solv->jobrules];
1706       if (j == lastjob)
1707         continue;
1708       lastjob = j;
1709       jobtodisablelist(solv, job->elements[j], job->elements[j + 1], &allq);
1710     }
1711   if (solv->cleandepsmap.size)
1712     {
1713       solver_createcleandepsmap(solv, &solv->cleandepsmap, 0);
1714       for (i = solv->installed->start; i < solv->installed->end; i++)
1715         if (MAPTST(&solv->cleandepsmap, i - solv->installed->start))
1716           queue_push2(&allq, DISABLE_UPDATE, i);
1717     }
1718   for (j = 0; j < q.count; j += 2)
1719     {
1720       Id type = q.elements[j], arg = q.elements[j + 1];
1721       for (i = 0; i < allq.count; i += 2)
1722         if (allq.elements[i] == type && allq.elements[i + 1] == arg)
1723           break;
1724       if (i < allq.count)
1725         continue;       /* still disabled */
1726       switch(type)
1727         {
1728         case DISABLE_UPDATE:
1729           reenableupdaterule(solv, arg);
1730           break;
1731         case DISABLE_INFARCH:
1732           reenableinfarchrule(solv, arg);
1733           break;
1734         case DISABLE_DUP:
1735           reenableduprule(solv, arg);
1736           break;
1737         }
1738     }
1739   queue_free(&allq);
1740   queue_free(&q);
1741 }
1742
1743 /* we just removed a package from the cleandeps map, now reenable all policy rules that were
1744  * disabled because of this */
1745 void
1746 solver_reenablepolicyrules_cleandeps(Solver *solv, Id pkg)
1747 {
1748   Queue *job = &solv->job;
1749   int i, j;
1750   Queue allq;
1751   Rule *r;
1752   Id lastjob = -1;
1753   Id allqbuf[128];
1754
1755   queue_init_buffer(&allq, allqbuf, sizeof(allqbuf)/sizeof(*allqbuf));
1756   for (i = solv->jobrules; i < solv->jobrules_end; i++)
1757     {
1758       r = solv->rules + i;
1759       if (r->d < 0)     /* disabled? */
1760         continue;
1761       j = solv->ruletojob.elements[i - solv->jobrules];
1762       if (j == lastjob)
1763         continue;
1764       lastjob = j;
1765       jobtodisablelist(solv, job->elements[j], job->elements[j + 1], &allq);
1766     }
1767   for (i = 0; i < allq.count; i += 2)
1768     if (allq.elements[i] == DISABLE_UPDATE && allq.elements[i + 1] == pkg)
1769       break;
1770   if (i == allq.count)
1771     reenableupdaterule(solv, pkg);
1772   queue_free(&allq);
1773 }
1774
1775
1776 /***********************************************************************
1777  ***
1778  ***  Rule info part, tell the user what the rule is about.
1779  ***
1780  ***/
1781
1782 static void
1783 addrpmruleinfo(Solver *solv, Id p, Id d, int type, Id dep)
1784 {
1785   Pool *pool = solv->pool;
1786   Rule *r;
1787   Id w2, op, od, ow2;
1788
1789   /* check if this creates the rule we're searching for */
1790   r = solv->rules + solv->ruleinfoq->elements[0];
1791   op = r->p;
1792   od = r->d < 0 ? -r->d - 1 : r->d;
1793   ow2 = 0;
1794
1795   /* normalize */
1796   w2 = d > 0 ? 0 : d;
1797   if (p < 0 && d > 0 && (!pool->whatprovidesdata[d] || !pool->whatprovidesdata[d + 1]))
1798     {
1799       w2 = pool->whatprovidesdata[d];
1800       d = 0;
1801
1802     }
1803   if (p > 0 && d < 0)           /* this hack is used for buddy deps */
1804     {
1805       w2 = p;
1806       p = d;
1807     }
1808
1809   if (d > 0)
1810     {
1811       if (p != op && !od)
1812         return;
1813       if (d != od)
1814         {
1815           Id *dp = pool->whatprovidesdata + d;
1816           Id *odp = pool->whatprovidesdata + od;
1817           while (*dp)
1818             if (*dp++ != *odp++)
1819               return;
1820           if (*odp)
1821             return;
1822         }
1823       w2 = 0;
1824       /* handle multiversion conflict rules */
1825       if (p < 0 && pool->whatprovidesdata[d] < 0)
1826         {
1827           w2 = pool->whatprovidesdata[d];
1828           /* XXX: free memory */
1829         }
1830     }
1831   else
1832     {
1833       if (od)
1834         return;
1835       ow2 = r->w2;
1836       if (p > w2)
1837         {
1838           if (w2 != op || p != ow2)
1839             return;
1840         }
1841       else
1842         {
1843           if (p != op || w2 != ow2)
1844             return;
1845         }
1846     }
1847   /* yep, rule matches. record info */
1848   queue_push(solv->ruleinfoq, type);
1849   if (type == SOLVER_RULE_RPM_SAME_NAME)
1850     {
1851       /* we normalize same name order */
1852       queue_push(solv->ruleinfoq, op < 0 ? -op : 0);
1853       queue_push(solv->ruleinfoq, ow2 < 0 ? -ow2 : 0);
1854     }
1855   else
1856     {
1857       queue_push(solv->ruleinfoq, p < 0 ? -p : 0);
1858       queue_push(solv->ruleinfoq, w2 < 0 ? -w2 : 0);
1859     }
1860   queue_push(solv->ruleinfoq, dep);
1861 }
1862
1863 static int
1864 solver_allruleinfos_cmp(const void *ap, const void *bp, void *dp)
1865 {
1866   const Id *a = ap, *b = bp;
1867   int r;
1868
1869   r = a[0] - b[0];
1870   if (r)
1871     return r;
1872   r = a[1] - b[1];
1873   if (r)
1874     return r;
1875   r = a[2] - b[2];
1876   if (r)
1877     return r;
1878   r = a[3] - b[3];
1879   if (r)
1880     return r;
1881   return 0;
1882 }
1883
1884 int
1885 solver_allruleinfos(Solver *solv, Id rid, Queue *rq)
1886 {
1887   Pool *pool = solv->pool;
1888   Rule *r = solv->rules + rid;
1889   int i, j;
1890
1891   queue_empty(rq);
1892   if (rid <= 0 || rid >= solv->rpmrules_end)
1893     {
1894       Id type, from, to, dep;
1895       type = solver_ruleinfo(solv, rid, &from, &to, &dep);
1896       queue_push(rq, type);
1897       queue_push(rq, from);
1898       queue_push(rq, to);
1899       queue_push(rq, dep);
1900       return 1;
1901     }
1902   if (r->p >= 0)
1903     return 0;
1904   queue_push(rq, rid);
1905   solv->ruleinfoq = rq;
1906   solver_addrpmrulesforsolvable(solv, pool->solvables - r->p, 0);
1907   /* also try reverse direction for conflicts */
1908   if ((r->d == 0 || r->d == -1) && r->w2 < 0)
1909     solver_addrpmrulesforsolvable(solv, pool->solvables - r->w2, 0);
1910   solv->ruleinfoq = 0;
1911   queue_shift(rq);
1912   /* now sort & unify em */
1913   if (!rq->count)
1914     return 0;
1915   solv_sort(rq->elements, rq->count / 4, 4 * sizeof(Id), solver_allruleinfos_cmp, 0);
1916   /* throw out identical entries */
1917   for (i = j = 0; i < rq->count; i += 4)
1918     {
1919       if (j)
1920         {
1921           if (rq->elements[i] == rq->elements[j - 4] && 
1922               rq->elements[i + 1] == rq->elements[j - 3] &&
1923               rq->elements[i + 2] == rq->elements[j - 2] &&
1924               rq->elements[i + 3] == rq->elements[j - 1])
1925             continue;
1926         }
1927       rq->elements[j++] = rq->elements[i];
1928       rq->elements[j++] = rq->elements[i + 1];
1929       rq->elements[j++] = rq->elements[i + 2];
1930       rq->elements[j++] = rq->elements[i + 3];
1931     }
1932   rq->count = j;
1933   return j / 4;
1934 }
1935
1936 SolverRuleinfo
1937 solver_ruleinfo(Solver *solv, Id rid, Id *fromp, Id *top, Id *depp)
1938 {
1939   Pool *pool = solv->pool;
1940   Rule *r = solv->rules + rid;
1941   SolverRuleinfo type = SOLVER_RULE_UNKNOWN;
1942
1943   if (fromp)
1944     *fromp = 0;
1945   if (top)
1946     *top = 0;
1947   if (depp)
1948     *depp = 0;
1949   if (rid > 0 && rid < solv->rpmrules_end)
1950     {
1951       Queue rq;
1952       int i;
1953
1954       if (r->p >= 0)
1955         return SOLVER_RULE_RPM;
1956       if (fromp)
1957         *fromp = -r->p;
1958       queue_init(&rq);
1959       queue_push(&rq, rid);
1960       solv->ruleinfoq = &rq;
1961       solver_addrpmrulesforsolvable(solv, pool->solvables - r->p, 0);
1962       /* also try reverse direction for conflicts */
1963       if ((r->d == 0 || r->d == -1) && r->w2 < 0)
1964         solver_addrpmrulesforsolvable(solv, pool->solvables - r->w2, 0);
1965       solv->ruleinfoq = 0;
1966       type = SOLVER_RULE_RPM;
1967       for (i = 1; i < rq.count; i += 4)
1968         {
1969           Id qt, qo, qp, qd;
1970           qt = rq.elements[i];
1971           qp = rq.elements[i + 1];
1972           qo = rq.elements[i + 2];
1973           qd = rq.elements[i + 3];
1974           if (type == SOLVER_RULE_RPM || type > qt)
1975             {
1976               type = qt;
1977               if (fromp)
1978                 *fromp = qp;
1979               if (top)
1980                 *top = qo;
1981               if (depp)
1982                 *depp = qd;
1983             }
1984         }
1985       queue_free(&rq);
1986       return type;
1987     }
1988   if (rid >= solv->jobrules && rid < solv->jobrules_end)
1989     {
1990       Id jidx = solv->ruletojob.elements[rid - solv->jobrules];
1991       if (fromp)
1992         *fromp = jidx;
1993       if (top)
1994         *top = solv->job.elements[jidx];
1995       if (depp)
1996         *depp = solv->job.elements[jidx + 1];
1997       if ((r->d == 0 || r->d == -1) && r->w2 == 0 && r->p == -SYSTEMSOLVABLE && (solv->job.elements[jidx] & SOLVER_SELECTMASK) != SOLVER_SOLVABLE_ONE_OF)
1998         return SOLVER_RULE_JOB_NOTHING_PROVIDES_DEP;
1999       return SOLVER_RULE_JOB;
2000     }
2001   if (rid >= solv->updaterules && rid < solv->updaterules_end)
2002     {
2003       if (fromp)
2004         *fromp = solv->installed->start + (rid - solv->updaterules);
2005       return SOLVER_RULE_UPDATE;
2006     }
2007   if (rid >= solv->featurerules && rid < solv->featurerules_end)
2008     {
2009       if (fromp)
2010         *fromp = solv->installed->start + (rid - solv->featurerules);
2011       return SOLVER_RULE_FEATURE;
2012     }
2013   if (rid >= solv->duprules && rid < solv->duprules_end)
2014     {
2015       if (fromp)
2016         *fromp = -r->p;
2017       if (depp)
2018         *depp = pool->solvables[-r->p].name;
2019       return SOLVER_RULE_DISTUPGRADE;
2020     }
2021   if (rid >= solv->infarchrules && rid < solv->infarchrules_end)
2022     {
2023       if (fromp)
2024         *fromp = -r->p;
2025       if (depp)
2026         *depp = pool->solvables[-r->p].name;
2027       return SOLVER_RULE_INFARCH;
2028     }
2029   if (rid >= solv->choicerules && rid < solv->choicerules_end)
2030     {
2031       return SOLVER_RULE_CHOICE;
2032     }
2033   if (rid >= solv->learntrules)
2034     {
2035       return SOLVER_RULE_LEARNT;
2036     }
2037   return SOLVER_RULE_UNKNOWN;
2038 }
2039
2040 SolverRuleinfo
2041 solver_ruleclass(Solver *solv, Id rid)
2042 {
2043   if (rid <= 0)
2044     return SOLVER_RULE_UNKNOWN;
2045   if (rid > 0 && rid < solv->rpmrules_end)
2046     return SOLVER_RULE_RPM;
2047   if (rid >= solv->jobrules && rid < solv->jobrules_end)
2048     return SOLVER_RULE_JOB;
2049   if (rid >= solv->updaterules && rid < solv->updaterules_end)
2050     return SOLVER_RULE_UPDATE;
2051   if (rid >= solv->featurerules && rid < solv->featurerules_end)
2052     return SOLVER_RULE_FEATURE;
2053   if (rid >= solv->duprules && rid < solv->duprules_end)
2054     return SOLVER_RULE_DISTUPGRADE;
2055   if (rid >= solv->infarchrules && rid < solv->infarchrules_end)
2056     return SOLVER_RULE_INFARCH;
2057   if (rid >= solv->choicerules && rid < solv->choicerules_end)
2058     return SOLVER_RULE_CHOICE;
2059   if (rid >= solv->learntrules)
2060     return SOLVER_RULE_LEARNT;
2061   return SOLVER_RULE_UNKNOWN;
2062 }
2063
2064 void
2065 solver_ruleliterals(Solver *solv, Id rid, Queue *q)
2066 {
2067   Pool *pool = solv->pool;
2068   Id p, *pp;
2069   Rule *r;
2070
2071   queue_empty(q);
2072   r = solv->rules + rid;
2073   FOR_RULELITERALS(p, pp, r)
2074     if (p != -SYSTEMSOLVABLE)
2075       queue_push(q, p);
2076   if (!q->count)
2077     queue_push(q, -SYSTEMSOLVABLE);     /* hmm, better to return an empty result? */
2078 }
2079
2080 int
2081 solver_rule2jobidx(Solver *solv, Id rid)
2082 {
2083   if (rid < solv->jobrules || rid >= solv->jobrules_end)
2084     return 0;
2085   return solv->ruletojob.elements[rid - solv->jobrules] + 1;
2086 }
2087
2088 Id
2089 solver_rule2job(Solver *solv, Id rid, Id *whatp)
2090 {
2091   int idx;
2092   if (rid < solv->jobrules || rid >= solv->jobrules_end)
2093     {
2094       if (whatp)
2095         *whatp = 0;
2096       return 0;
2097     }
2098   idx = solv->ruletojob.elements[rid - solv->jobrules];
2099   if (whatp)
2100     *whatp = solv->job.elements[idx + 1];
2101   return solv->job.elements[idx];
2102 }
2103
2104 void
2105 solver_addchoicerules(Solver *solv)
2106 {
2107   Pool *pool = solv->pool;
2108   Map m, mneg;
2109   Rule *r;
2110   Queue q, qi;
2111   int i, j, rid, havechoice;
2112   Id p, d, *pp;
2113   Id p2, pp2;
2114   Solvable *s, *s2;
2115
2116   solv->choicerules = solv->nrules;
2117   if (!pool->installed)
2118     {
2119       solv->choicerules_end = solv->nrules;
2120       return;
2121     }
2122   solv->choicerules_ref = solv_calloc(solv->rpmrules_end, sizeof(Id));
2123   queue_init(&q);
2124   queue_init(&qi);
2125   map_init(&m, pool->nsolvables);
2126   map_init(&mneg, pool->nsolvables);
2127   /* set up negative assertion map from infarch and dup rules */
2128   for (rid = solv->infarchrules, r = solv->rules + rid; rid < solv->infarchrules_end; rid++, r++)
2129     if (r->p < 0 && !r->w2 && (r->d == 0 || r->d == -1))
2130       MAPSET(&mneg, -r->p);
2131   for (rid = solv->duprules, r = solv->rules + rid; rid < solv->duprules_end; rid++, r++)
2132     if (r->p < 0 && !r->w2 && (r->d == 0 || r->d == -1))
2133       MAPSET(&mneg, -r->p);
2134   for (rid = 1; rid < solv->rpmrules_end ; rid++)
2135     {
2136       r = solv->rules + rid;
2137       if (r->p >= 0 || ((r->d == 0 || r->d == -1) && r->w2 < 0))
2138         continue;       /* only look at requires rules */
2139       /* solver_printrule(solv, SOLV_DEBUG_RESULT, r); */
2140       queue_empty(&q);
2141       queue_empty(&qi);
2142       havechoice = 0;
2143       FOR_RULELITERALS(p, pp, r)
2144         {
2145           if (p < 0)
2146             continue;
2147           s = pool->solvables + p;
2148           if (!s->repo)
2149             continue;
2150           if (s->repo == pool->installed)
2151             {
2152               queue_push(&q, p);
2153               continue;
2154             }
2155           /* check if this package is "blocked" by a installed package */
2156           s2 = 0;
2157           FOR_PROVIDES(p2, pp2, s->name)
2158             {
2159               s2 = pool->solvables + p2;
2160               if (s2->repo != pool->installed)
2161                 continue;
2162               if (!pool->implicitobsoleteusesprovides && s->name != s2->name)
2163                 continue;
2164               if (pool->obsoleteusescolors && !pool_colormatch(pool, s, s2))
2165                 continue;
2166               break;
2167             }
2168           if (p2)
2169             {
2170               /* found installed package p2 that we can update to p */
2171               if (MAPTST(&mneg, p))
2172                 continue;
2173               if (policy_is_illegal(solv, s2, s, 0))
2174                 continue;
2175               queue_push(&qi, p2);
2176               queue_push(&q, p);
2177               continue;
2178             }
2179           if (s->obsoletes)
2180             {
2181               Id obs, *obsp = s->repo->idarraydata + s->obsoletes;
2182               s2 = 0;
2183               while ((obs = *obsp++) != 0)
2184                 {
2185                   FOR_PROVIDES(p2, pp2, obs)
2186                     {
2187                       s2 = pool->solvables + p2;
2188                       if (s2->repo != pool->installed)
2189                         continue;
2190                       if (!pool->obsoleteusesprovides && !pool_match_nevr(pool, pool->solvables + p2, obs))
2191                         continue;
2192                       if (pool->obsoleteusescolors && !pool_colormatch(pool, s, s2))
2193                         continue;
2194                       break;
2195                     }
2196                   if (p2)
2197                     break;
2198                 }
2199               if (obs)
2200                 {
2201                   /* found installed package p2 that we can update to p */
2202                   if (MAPTST(&mneg, p))
2203                     continue;
2204                   if (policy_is_illegal(solv, s2, s, 0))
2205                     continue;
2206                   queue_push(&qi, p2);
2207                   queue_push(&q, p);
2208                   continue;
2209                 }
2210             }
2211           /* package p is independent of the installed ones */
2212           havechoice = 1;
2213         }
2214       if (!havechoice || !q.count)
2215         continue;       /* no choice */
2216
2217       /* now check the update rules of the installed package.
2218        * if all packages of the update rules are contained in
2219        * the dependency rules, there's no need to set up the choice rule */
2220       map_empty(&m);
2221       FOR_RULELITERALS(p, pp, r)
2222         if (p > 0)
2223           MAPSET(&m, p);
2224       for (i = 0; i < qi.count; i++)
2225         {
2226           Rule *ur;
2227           if (!qi.elements[i])
2228             continue;
2229           ur = solv->rules + solv->updaterules + (qi.elements[i] - pool->installed->start);
2230           if (!ur->p)
2231             ur = solv->rules + solv->featurerules + (qi.elements[i] - pool->installed->start);
2232           if (!ur->p)
2233             continue;
2234           FOR_RULELITERALS(p, pp, ur)
2235             if (!MAPTST(&m, p))
2236               break;
2237           if (p)
2238             break;
2239           for (j = i + 1; j < qi.count; j++)
2240             if (qi.elements[i] == qi.elements[j])
2241               qi.elements[j] = 0;
2242         }
2243       if (i == qi.count)
2244         {
2245 #if 0
2246           printf("skipping choice ");
2247           solver_printrule(solv, SOLV_DEBUG_RESULT, solv->rules + rid);
2248 #endif
2249           continue;
2250         }
2251       d = q.count ? pool_queuetowhatprovides(pool, &q) : 0;
2252       solver_addrule(solv, r->p, d);
2253       queue_push(&solv->weakruleq, solv->nrules - 1);
2254       solv->choicerules_ref[solv->nrules - 1 - solv->choicerules] = rid;
2255 #if 0
2256       printf("OLD ");
2257       solver_printrule(solv, SOLV_DEBUG_RESULT, solv->rules + rid);
2258       printf("WEAK CHOICE ");
2259       solver_printrule(solv, SOLV_DEBUG_RESULT, solv->rules + solv->nrules - 1);
2260 #endif
2261     }
2262   queue_free(&q);
2263   queue_free(&qi);
2264   map_free(&m);
2265   map_free(&mneg);
2266   solv->choicerules_end = solv->nrules;
2267 }
2268
2269 /* called when a choice rule is disabled by analyze_unsolvable. We also
2270  * have to disable all other choice rules so that the best packages get
2271  * picked */
2272 void
2273 solver_disablechoicerules(Solver *solv, Rule *r)
2274 {
2275   Id rid, p, *pp;
2276   Pool *pool = solv->pool;
2277   Map m;
2278   Rule *or;
2279
2280   or = solv->rules + solv->choicerules_ref[(r - solv->rules) - solv->choicerules];
2281   map_init(&m, pool->nsolvables);
2282   FOR_RULELITERALS(p, pp, or)
2283     if (p > 0)
2284       MAPSET(&m, p);
2285   FOR_RULELITERALS(p, pp, r)
2286     if (p > 0)
2287       MAPCLR(&m, p);
2288   for (rid = solv->choicerules; rid < solv->choicerules_end; rid++)
2289     {
2290       r = solv->rules + rid;
2291       if (r->d < 0)
2292         continue;
2293       or = solv->rules + solv->choicerules_ref[(r - solv->rules) - solv->choicerules];
2294       FOR_RULELITERALS(p, pp, or)
2295         if (p > 0 && MAPTST(&m, p))
2296           break;
2297       if (p)
2298         solver_disablerule(solv, r);
2299     }
2300 }
2301
2302 #undef CLEANDEPSDEBUG
2303
2304 /*
2305  * This functions collects all packages that are looked at
2306  * when a dependency is checked. We need it to "pin" installed
2307  * packages when removing a supplemented package in createcleandepsmap.
2308  * Here's an not uncommon example:
2309  *   A contains "Supplements: packageand(B, C)"
2310  *   B contains "Requires: A"
2311  * Now if we remove C, the supplements is no longer true,
2312  * thus we also remove A. Without the dep_pkgcheck function, we
2313  * would now also remove B, but this is wrong, as adding back
2314  * C doesn't make the supplements true again. Thus we "pin" B
2315  * when we remove A.
2316  * There's probably a better way to do this, but I haven't come
2317  * up with it yet ;)
2318  */
2319 static inline void
2320 dep_pkgcheck(Solver *solv, Id dep, Map *m, Queue *q)
2321 {
2322   Pool *pool = solv->pool;
2323   Id p, pp;
2324
2325   if (ISRELDEP(dep))
2326     {
2327       Reldep *rd = GETRELDEP(pool, dep);
2328       if (rd->flags >= 8)
2329         {
2330           if (rd->flags == REL_AND)
2331             {
2332               dep_pkgcheck(solv, rd->name, m, q);
2333               dep_pkgcheck(solv, rd->evr, m, q);
2334               return;
2335             }
2336           if (rd->flags == REL_NAMESPACE && rd->name == NAMESPACE_SPLITPROVIDES)
2337             return;
2338           if (rd->flags == REL_NAMESPACE && rd->name == NAMESPACE_INSTALLED)
2339             return;
2340         }
2341     }
2342   FOR_PROVIDES(p, pp, dep)
2343     if (!m || MAPTST(m, p))
2344       queue_push(q, p);
2345 }
2346
2347 /*
2348  * Find all installed packages that are no longer
2349  * needed regarding the current solver job.
2350  *
2351  * The algorithm is:
2352  * - remove pass: remove all packages that could have
2353  *   been dragged in by the obsoleted packages.
2354  *   i.e. if package A is obsolete and contains "Requires: B",
2355  *   also remove B, as installing A will have pulled in B.
2356  *   after this pass, we have a set of still installed packages
2357  *   with broken dependencies.
2358  * - add back pass:
2359  *   now add back all packages that the still installed packages
2360  *   require.
2361  *
2362  * The cleandeps packages are the packages removed in the first
2363  * pass and not added back in the second pass.
2364  *
2365  * If we search for unneeded packages (unneeded is true), we
2366  * simply remove all packages except the userinstalled ones in
2367  * the first pass.
2368  */
2369 static void
2370 solver_createcleandepsmap(Solver *solv, Map *cleandepsmap, int unneeded)
2371 {
2372   Pool *pool = solv->pool;
2373   Repo *installed = solv->installed;
2374   Queue *job = &solv->job;
2375   Map userinstalled;
2376   Map im;
2377   Map installedm;
2378   Rule *r;
2379   Id rid, how, what, select;
2380   Id p, pp, ip, *jp;
2381   Id req, *reqp, sup, *supp;
2382   Solvable *s;
2383   Queue iq;
2384   int i;
2385
2386   map_empty(cleandepsmap);
2387   if (!installed || installed->end == installed->start)
2388     return;
2389   map_init(&userinstalled, installed->end - installed->start);
2390   map_init(&im, pool->nsolvables);
2391   map_init(&installedm, pool->nsolvables);
2392   queue_init(&iq);
2393
2394   for (i = 0; i < job->count; i += 2)
2395     {
2396       how = job->elements[i];
2397       if ((how & SOLVER_JOBMASK) == SOLVER_USERINSTALLED)
2398         {
2399           what = job->elements[i + 1];
2400           select = how & SOLVER_SELECTMASK;
2401           FOR_JOB_SELECT(p, pp, select, what)
2402             if (pool->solvables[p].repo == installed)
2403               MAPSET(&userinstalled, p - installed->start);
2404         }
2405     }
2406
2407   /* also add visible patterns to userinstalled for openSUSE */
2408   if (1)
2409     {
2410       Dataiterator di;
2411       dataiterator_init(&di, pool, 0, 0, SOLVABLE_ISVISIBLE, 0, 0);
2412       while (dataiterator_step(&di))
2413         {
2414           Id *dp;
2415           if (di.solvid <= 0)
2416             continue;
2417           s = pool->solvables + di.solvid;
2418           if (!s->requires)
2419             continue;
2420           if (!pool_installable(pool, s))
2421             continue;
2422           if (strncmp(pool_id2str(pool, s->name), "pattern:", 8) != 0)
2423             continue;
2424           dp = s->repo->idarraydata + s->requires;
2425           for (dp = s->repo->idarraydata + s->requires; *dp; dp++)
2426             FOR_PROVIDES(p, pp, *dp)
2427               if (pool->solvables[p].repo == installed)
2428                 {
2429                   if (strncmp(pool_id2str(pool, pool->solvables[p].name), "pattern", 7) != 0)
2430                     continue;
2431                   MAPSET(&userinstalled, p - installed->start);
2432                 }
2433         }
2434       dataiterator_free(&di);
2435     }
2436   if (1)
2437     {
2438       /* all products and their buddies are userinstalled */
2439       for (p = installed->start; p < installed->end; p++)
2440         {
2441           Solvable *s = pool->solvables + p;
2442           if (s->repo != installed)
2443             continue;
2444           if (!strncmp("product:", pool_id2str(pool, s->name), 8))
2445             {
2446               MAPSET(&userinstalled, p - installed->start);
2447               if (pool->nscallback)
2448                 {
2449                   Id buddy = pool->nscallback(pool, pool->nscallbackdata, NAMESPACE_PRODUCTBUDDY, p);
2450                   if (buddy >= installed->start && buddy < installed->end && pool->solvables[buddy].repo == installed)
2451                     MAPSET(&userinstalled, buddy - installed->start);
2452                 }
2453             }
2454         }
2455     }
2456   
2457   /* add all positive elements (e.g. locks) to "userinstalled" */
2458   for (rid = solv->jobrules; rid < solv->jobrules_end; rid++)
2459     {
2460       r = solv->rules + rid;
2461       if (r->d < 0)
2462         continue;
2463       i = solv->ruletojob.elements[rid - solv->jobrules];
2464       if ((job->elements[i] & SOLVER_CLEANDEPS) == SOLVER_CLEANDEPS)
2465         continue;
2466       FOR_RULELITERALS(p, jp, r)
2467         if (p > 0 && pool->solvables[p].repo == installed)
2468           MAPSET(&userinstalled, p - installed->start);
2469     }
2470
2471   /* add all cleandeps candidates to iq */
2472   for (rid = solv->jobrules; rid < solv->jobrules_end; rid++)
2473     {
2474       r = solv->rules + rid;
2475       if (r->d < 0)
2476         continue;
2477       if (r->d == 0 && r->p < 0 && r->w2 == 0)
2478         {
2479           p = -r->p;
2480           if (pool->solvables[p].repo != installed)
2481             continue;
2482           MAPCLR(&userinstalled, p - installed->start);
2483           if (unneeded)
2484             continue;
2485           i = solv->ruletojob.elements[rid - solv->jobrules];
2486           how = job->elements[i];
2487           if ((how & (SOLVER_JOBMASK|SOLVER_CLEANDEPS)) == (SOLVER_ERASE|SOLVER_CLEANDEPS))
2488             queue_push(&iq, p);
2489         }
2490       else if (r->p > 0)
2491         {
2492           if (unneeded)
2493             continue;
2494           i = solv->ruletojob.elements[rid - solv->jobrules];
2495           if ((job->elements[i] & SOLVER_CLEANDEPS) == SOLVER_CLEANDEPS)
2496             {
2497               /* check if the literals all obsolete some installed package */
2498               Map om;
2499               int iqstart;
2500
2501               /* just one installed literal */
2502               if (r->d == 0 && r->w2 == 0 && pool->solvables[r->p].repo == installed)
2503                 continue;
2504               /* noobs is bad */
2505               if (solv->noobsoletes.size && !solv->keepexplicitobsoletes)
2506                 {
2507                   FOR_RULELITERALS(p, jp, r)
2508                     if (MAPTST(&solv->noobsoletes, p))
2509                       break;
2510                   if (p)
2511                     continue;
2512                 }
2513
2514               om.size = 0;
2515               iqstart = iq.count;
2516               FOR_RULELITERALS(p, jp, r)
2517                 {
2518                   if (p < 0)
2519                     {
2520                       queue_truncate(&iq, iqstart);     /* abort */
2521                       break;
2522                     }
2523                   if (pool->solvables[p].repo == installed)
2524                     {
2525                       if (iq.count == iqstart)
2526                         queue_push(&iq, p);
2527                       else
2528                         {
2529                           for (i = iqstart; i < iq.count; i++)
2530                             if (iq.elements[i] == p)
2531                               break;
2532                           queue_truncate(&iq, iqstart);
2533                           if (i < iq.count)
2534                             queue_push(&iq, p);
2535                         }
2536                     }
2537                   else
2538                     intersect_obsoletes(solv, p, &iq, iqstart, &om);
2539                   if (iq.count == iqstart)
2540                     break;
2541                 }
2542               if (om.size)
2543                 map_free(&om);
2544             }
2545         }
2546     }
2547
2548   if (!unneeded)
2549     {
2550       if (solv->cleandeps_updatepkgs)
2551         for (i = 0; i < solv->cleandeps_updatepkgs->count; i++)
2552           queue_push(&iq, solv->cleandeps_updatepkgs->elements[i]);
2553     }
2554
2555   if (unneeded)
2556     queue_empty(&iq);   /* just in case... */
2557
2558   /* clear userinstalled bit for the packages we really want to delete/update */
2559   for (i = 0; i < iq.count; i++)
2560     {
2561       p = iq.elements[i];
2562       if (pool->solvables[p].repo != installed)
2563         continue;
2564       MAPCLR(&userinstalled, p - installed->start);
2565     }
2566
2567   for (p = installed->start; p < installed->end; p++)
2568     {
2569       if (pool->solvables[p].repo != installed)
2570         continue;
2571       MAPSET(&installedm, p);
2572       if (unneeded && !MAPTST(&userinstalled, p - installed->start))
2573         continue;
2574       MAPSET(&im, p);
2575     }
2576
2577 #ifdef CLEANDEPSDEBUG
2578   printf("REMOVE PASS\n");
2579 #endif
2580
2581   for (;;)
2582     {
2583       if (!iq.count)
2584         {
2585           if (unneeded)
2586             break;
2587           /* supplements pass */
2588           for (ip = solv->installed->start; ip < solv->installed->end; ip++)
2589             {
2590               if (!MAPTST(&installedm, ip))
2591                 continue;
2592               s = pool->solvables + ip;
2593               if (!s->supplements)
2594                 continue;
2595               if (!MAPTST(&im, ip))
2596                 continue;
2597               if (MAPTST(&userinstalled, ip - installed->start))
2598                 continue;
2599               supp = s->repo->idarraydata + s->supplements;
2600               while ((sup = *supp++) != 0)
2601                 if (dep_possible(solv, sup, &im))
2602                   break;
2603               if (!sup)
2604                 {
2605                   supp = s->repo->idarraydata + s->supplements;
2606                   while ((sup = *supp++) != 0)
2607                     if (dep_possible(solv, sup, &installedm))
2608                       {
2609                         /* no longer supplemented, also erase */
2610                         int iqcount = iq.count;
2611                         /* pin packages, see comment above dep_pkgcheck */
2612                         dep_pkgcheck(solv, sup, &im, &iq);
2613                         for (i = iqcount; i < iq.count; i++)
2614                           {
2615                             Id pqp = iq.elements[i];
2616                             if (pool->solvables[pqp].repo == installed)
2617                               MAPSET(&userinstalled, pqp - installed->start);
2618                           }
2619                         queue_truncate(&iq, iqcount);
2620 #ifdef CLEANDEPSDEBUG
2621                         printf("%s supplemented\n", pool_solvid2str(pool, ip));
2622 #endif
2623                         queue_push(&iq, ip);
2624                       }
2625                 }
2626             }
2627           if (!iq.count)
2628             break;
2629         }
2630       ip = queue_shift(&iq);
2631       s = pool->solvables + ip;
2632       if (!MAPTST(&im, ip))
2633         continue;
2634       if (!MAPTST(&installedm, ip))
2635         continue;
2636       if (s->repo == installed && MAPTST(&userinstalled, ip - installed->start))
2637         continue;
2638       MAPCLR(&im, ip);
2639 #ifdef CLEANDEPSDEBUG
2640       printf("removing %s\n", pool_solvable2str(pool, s));
2641 #endif
2642       if (s->requires)
2643         {
2644           reqp = s->repo->idarraydata + s->requires;
2645           while ((req = *reqp++) != 0)
2646             {
2647               if (req == SOLVABLE_PREREQMARKER)
2648                 continue;
2649 #if 0
2650               /* count number of installed packages that match */
2651               count = 0;
2652               FOR_PROVIDES(p, pp, req)
2653                 if (MAPTST(&installedm, p))
2654                   count++;
2655               if (count > 1)
2656                 continue;
2657 #endif
2658               FOR_PROVIDES(p, pp, req)
2659                 {
2660                   if (MAPTST(&im, p))
2661                     {
2662 #ifdef CLEANDEPSDEBUG
2663                       printf("%s requires %s\n", pool_solvid2str(pool, ip), pool_solvid2str(pool, p));
2664 #endif
2665                       queue_push(&iq, p);
2666                     }
2667                 }
2668             }
2669         }
2670       if (s->recommends)
2671         {
2672           reqp = s->repo->idarraydata + s->recommends;
2673           while ((req = *reqp++) != 0)
2674             {
2675 #if 0
2676               count = 0;
2677               FOR_PROVIDES(p, pp, req)
2678                 if (MAPTST(&installedm, p))
2679                   count++;
2680               if (count > 1)
2681                 continue;
2682 #endif
2683               FOR_PROVIDES(p, pp, req)
2684                 {
2685                   if (MAPTST(&im, p))
2686                     {
2687 #ifdef CLEANDEPSDEBUG
2688                       printf("%s recommends %s\n", pool_solvid2str(pool, ip), pool_solvid2str(pool, p));
2689 #endif
2690                       queue_push(&iq, p);
2691                     }
2692                 }
2693             }
2694         }
2695     }
2696
2697   /* turn userinstalled into remove set for pruning */
2698   map_empty(&userinstalled);
2699   for (rid = solv->jobrules; rid < solv->jobrules_end; rid++)
2700     {
2701       r = solv->rules + rid;
2702       if (r->p >= 0 || r->d != 0 || r->w2 != 0)
2703         continue;       /* disabled or not erase */
2704       p = -r->p;
2705       MAPCLR(&im, p);
2706       if (pool->solvables[p].repo == installed)
2707         MAPSET(&userinstalled, p - installed->start);
2708     }
2709   for (p = installed->start; p < installed->end; p++)
2710     if (MAPTST(&im, p))
2711       queue_push(&iq, p);
2712   for (rid = solv->jobrules; rid < solv->jobrules_end; rid++)
2713     {
2714       r = solv->rules + rid;
2715       if (r->d < 0)
2716         continue;
2717       FOR_RULELITERALS(p, jp, r)
2718         if (p > 0)
2719           queue_push(&iq, p);
2720     }
2721   /* also put directly addressed packages on the install queue
2722    * so we can mark patterns as installed */
2723   for (i = 0; i < job->count; i += 2)
2724     {
2725       how = job->elements[i];
2726       if ((how & SOLVER_JOBMASK) == SOLVER_USERINSTALLED)
2727         {
2728           what = job->elements[i + 1];
2729           select = how & SOLVER_SELECTMASK;
2730           if (select == SOLVER_SOLVABLE && pool->solvables[what].repo != installed)
2731             queue_push(&iq, what);
2732         }
2733     }
2734
2735 #ifdef CLEANDEPSDEBUG
2736   printf("ADDBACK PASS\n");
2737 #endif
2738   for (;;)
2739     {
2740       if (!iq.count)
2741         {
2742           /* supplements pass */
2743           for (ip = installed->start; ip < installed->end; ip++)
2744             {
2745               if (!MAPTST(&installedm, ip))
2746                 continue;
2747               if (MAPTST(&userinstalled, ip - installed->start))
2748                 continue;
2749               s = pool->solvables + ip;
2750               if (!s->supplements)
2751                 continue;
2752               if (MAPTST(&im, ip))
2753                 continue;
2754               supp = s->repo->idarraydata + s->supplements;
2755               while ((sup = *supp++) != 0)
2756                 if (dep_possible(solv, sup, &im))
2757                   break;
2758               if (sup)
2759                 {
2760 #ifdef CLEANDEPSDEBUG
2761                   printf("%s supplemented\n", pool_solvid2str(pool, ip));
2762 #endif
2763                   MAPSET(&im, ip);
2764                   queue_push(&iq, ip);
2765                 }
2766             }
2767           if (!iq.count)
2768             break;
2769         }
2770       ip = queue_shift(&iq);
2771       s = pool->solvables + ip;
2772 #ifdef CLEANDEPSDEBUG
2773       printf("adding back %s\n", pool_solvable2str(pool, s));
2774 #endif
2775       if (s->requires)
2776         {
2777           reqp = s->repo->idarraydata + s->requires;
2778           while ((req = *reqp++) != 0)
2779             {
2780               FOR_PROVIDES(p, pp, req)
2781                 {
2782                   if (!MAPTST(&im, p) && MAPTST(&installedm, p))
2783                     {
2784                       if (p == ip)
2785                         continue;
2786                       if (MAPTST(&userinstalled, p - installed->start))
2787                         continue;
2788 #ifdef CLEANDEPSDEBUG
2789                       printf("%s requires %s\n", pool_solvid2str(pool, ip), pool_solvid2str(pool, p));
2790 #endif
2791                       MAPSET(&im, p);
2792                       queue_push(&iq, p);
2793                     }
2794                 }
2795             }
2796         }
2797       if (s->recommends)
2798         {
2799           reqp = s->repo->idarraydata + s->recommends;
2800           while ((req = *reqp++) != 0)
2801             {
2802               FOR_PROVIDES(p, pp, req)
2803                 {
2804                   if (!MAPTST(&im, p) && MAPTST(&installedm, p))
2805                     {
2806                       if (p == ip)
2807                         continue;
2808                       if (MAPTST(&userinstalled, p - installed->start))
2809                         continue;
2810 #ifdef CLEANDEPSDEBUG
2811                       printf("%s recommends %s\n", pool_solvid2str(pool, ip), pool_solvid2str(pool, p));
2812 #endif
2813                       MAPSET(&im, p);
2814                       queue_push(&iq, p);
2815                     }
2816                 }
2817             }
2818         }
2819     }
2820     
2821   queue_free(&iq);
2822   if (solv->cleandeps_updatepkgs)
2823     for (i = 0; i < solv->cleandeps_updatepkgs->count; i++)
2824       MAPSET(&im, solv->cleandeps_updatepkgs->elements[i]);
2825   if (solv->cleandeps_mistakes)
2826     for (i = 0; i < solv->cleandeps_mistakes->count; i++)
2827       MAPSET(&im, solv->cleandeps_mistakes->elements[i]);
2828   for (p = installed->start; p < installed->end; p++)
2829     {
2830       if (pool->solvables[p].repo != installed)
2831         continue;
2832       if (!MAPTST(&im, p))
2833         MAPSET(cleandepsmap, p - installed->start);
2834     }
2835   map_free(&im);
2836   map_free(&installedm);
2837   map_free(&userinstalled);
2838 }
2839
2840
2841 struct trj_data {
2842   Queue *edges;
2843   Id *low;
2844   Id idx;
2845   Id nstack;
2846   Id firstidx;
2847 };
2848
2849 /* Tarjan's SCC algorithm, slightly modifed */
2850 static void
2851 trj_visit(struct trj_data *trj, Id node)
2852 {
2853   Id *low = trj->low;
2854   Queue *edges = trj->edges;
2855   Id nnode, myidx, stackstart;
2856   int i;
2857
2858   low[node] = myidx = trj->idx++;
2859   low[(stackstart = trj->nstack++)] = node;
2860   for (i = edges->elements[node]; (nnode = edges->elements[i]) != 0; i++)
2861     {
2862       Id l = low[nnode];
2863       if (!l)
2864         {
2865           if (!edges->elements[edges->elements[nnode]])
2866             {
2867               trj->idx++;
2868               low[nnode] = -1;
2869               continue;
2870             }
2871           trj_visit(trj, nnode);
2872           l = low[nnode];
2873         }
2874       if (l < 0)
2875         continue;
2876       if (l < trj->firstidx)
2877         {
2878           int k;
2879           for (k = l; low[low[k]] == l; k++)
2880             low[low[k]] = -1;
2881         }
2882       else if (l < low[node])
2883         low[node] = l;
2884     }
2885   if (low[node] == myidx)
2886     {
2887       if (myidx != trj->firstidx)
2888         myidx = -1;
2889       for (i = stackstart; i < trj->nstack; i++)
2890         low[low[i]] = myidx;
2891       trj->nstack = stackstart;
2892     }
2893 }
2894
2895
2896 void
2897 solver_get_unneeded(Solver *solv, Queue *unneededq, int filtered)
2898 {
2899   Repo *installed = solv->installed;
2900   int i;
2901   Map cleandepsmap;
2902
2903   queue_empty(unneededq);
2904   if (!installed || installed->end == installed->start)
2905     return;
2906
2907   map_init(&cleandepsmap, installed->end - installed->start);
2908   solver_createcleandepsmap(solv, &cleandepsmap, 1);
2909   for (i = installed->start; i < installed->end; i++)
2910     if (MAPTST(&cleandepsmap, i - installed->start))
2911       queue_push(unneededq, i);
2912
2913   if (filtered && unneededq->count > 1)
2914     {
2915       Pool *pool = solv->pool;
2916       Queue edges;
2917       Id *nrequires;
2918       Map installedm;
2919       int j, pass, count = unneededq->count;
2920       Id *low;
2921
2922       map_init(&installedm, pool->nsolvables);
2923       for (i = installed->start; i < installed->end; i++)
2924         if (pool->solvables[i].repo == installed)
2925           MAPSET(&installedm, i);
2926
2927       nrequires = solv_calloc(count, sizeof(Id));
2928       queue_init(&edges);
2929       queue_prealloc(&edges, count * 4 + 10);   /* pre-size */
2930
2931       /*
2932        * Go through the solvables in the nodes queue and create edges for
2933        * all requires/recommends/supplements between the nodes.
2934        * The edges are stored in the edges queue, we add 1 to the node
2935        * index so that nodes in the edges queue are != 0 and we can
2936        * terminate the edge list with 0.
2937        * Thus for node element 5, the edges are stored starting at
2938        * edges.elements[6] and are 0-terminated.
2939        */
2940       /* leave first element zero to make things easier */
2941       /* also add trailing zero */
2942       queue_insertn(&edges, 0, 1 + count + 1);
2943
2944       /* first requires and recommends */
2945       for (i = 0; i < count; i++)
2946         {
2947           Solvable *s = pool->solvables + unneededq->elements[i];
2948           edges.elements[i + 1] = edges.count;
2949           for (pass = 0; pass < 2; pass++)
2950             {
2951               int num = 0;
2952               unsigned int off = pass == 0 ? s->requires : s->recommends;
2953               Id p, pp, *dp;
2954               if (off)
2955                 for (dp = s->repo->idarraydata + off; *dp; dp++)
2956                   FOR_PROVIDES(p, pp, *dp)
2957                     {
2958                       Solvable *sp = pool->solvables + p;
2959                       if (s == sp || sp->repo != installed || !MAPTST(&cleandepsmap, p - installed->start))
2960                         continue;
2961                       for (j = 0; j < count; j++)
2962                         if (p == unneededq->elements[j])
2963                           break;
2964                       if (j == count)
2965                         continue;
2966                       if (num && edges.elements[edges.count - 1] == j + 1)
2967                         continue;
2968                       queue_push(&edges, j + 1);
2969                       num++;
2970                     }
2971                 if (pass == 0)
2972                   nrequires[i] = num;
2973             }
2974           queue_push(&edges, 0);
2975         }
2976 #if 0
2977       printf("requires + recommends\n");
2978       for (i = 0; i < count; i++)
2979         {
2980           int j;
2981           printf("  %s (%d requires):\n", pool_solvid2str(pool, unneededq->elements[i]), nrequires[i]);
2982           for (j = edges.elements[i + 1]; edges.elements[j]; j++)
2983             printf("    - %s\n", pool_solvid2str(pool, unneededq->elements[edges.elements[j] - 1]));
2984         }
2985 #endif
2986
2987       /* then add supplements */
2988       for (i = 0; i < count; i++)
2989         {
2990           Solvable *s = pool->solvables + unneededq->elements[i];
2991           if (s->supplements)
2992             {
2993               Id *dp;
2994               int k;
2995               for (dp = s->repo->idarraydata + s->supplements; *dp; dp++)
2996                 if (dep_possible(solv, *dp, &installedm))
2997                   {
2998                     Queue iq;
2999                     Id iqbuf[16];
3000                     queue_init_buffer(&iq, iqbuf, sizeof(iqbuf)/sizeof(*iqbuf));
3001                     dep_pkgcheck(solv, *dp, 0, &iq);
3002                     for (k = 0; k < iq.count; k++)
3003                       {
3004                         Id p = iq.elements[k];
3005                         Solvable *sp = pool->solvables + p;
3006                         if (p == unneededq->elements[i] || sp->repo != installed || !MAPTST(&cleandepsmap, p - installed->start))
3007                           continue;
3008                         for (j = 0; j < count; j++)
3009                           if (p == unneededq->elements[j])
3010                             break;
3011                         /* now add edge from j + 1 to i + 1 */
3012                         queue_insert(&edges, edges.elements[j + 1] + nrequires[j], i + 1);
3013                         /* addapt following edge pointers */
3014                         for (k = j + 2; k < count + 2; k++)
3015                           edges.elements[k]++;
3016                       }
3017                     queue_free(&iq);
3018                   }
3019             }
3020         }
3021 #if 0
3022       /* print result */
3023       printf("+ supplements\n");
3024       for (i = 0; i < count; i++)
3025         {
3026           int j;
3027           printf("  %s (%d requires):\n", pool_solvid2str(pool, unneededq->elements[i]), nrequires[i]);
3028           for (j = edges.elements[i + 1]; edges.elements[j]; j++)
3029             printf("    - %s\n", pool_solvid2str(pool, unneededq->elements[edges.elements[j] - 1]));
3030     }
3031 #endif
3032       map_free(&installedm);
3033
3034       /* now run SCC algo two times, first with requires+recommends+supplements,
3035        * then again without the requires. We run it the second time to get rid
3036        * of packages that got dragged in via recommends/supplements */
3037       /*
3038        * low will contain the result of the SCC search.
3039        * it must be of at least size 2 * (count + 1) and
3040        * must be zero initialized.
3041        * The layout is:
3042        *    0  low low ... low stack stack ...stack 0
3043        *            count              count
3044        */
3045       low = solv_calloc(count + 1, 2 * sizeof(Id));
3046       for (pass = 0; pass < 2; pass++)
3047         {
3048           struct trj_data trj;
3049           if (pass)
3050             {
3051               memset(low, 0, (count + 1) * (2 * sizeof(Id)));
3052               for (i = 0; i < count; i++)
3053                 {
3054                   edges.elements[i + 1] += nrequires[i];
3055                   if (!unneededq->elements[i])
3056                     low[i + 1] = -1;    /* ignore this node */
3057                 }
3058             }
3059           trj.edges = &edges;
3060           trj.low = low;
3061           trj.idx = count + 1;  /* stack starts here */
3062           for (i = 1; i <= count; i++)
3063             {
3064               if (low[i])
3065                 continue;
3066               if (edges.elements[edges.elements[i]])
3067                 {
3068                   trj.firstidx = trj.nstack = trj.idx;
3069                   trj_visit(&trj, i);
3070                 }
3071               else
3072                 {
3073                   Id myidx = trj.idx++;
3074                   low[i] = myidx;
3075                   low[myidx] = i;
3076                 }
3077             }
3078           /* prune packages */
3079           for (i = 0; i < count; i++)
3080             if (low[i + 1] <= 0)
3081               unneededq->elements[i] = 0;
3082         }
3083       solv_free(low);
3084       solv_free(nrequires);
3085       queue_free(&edges);
3086
3087       /* finally remove all pruned entries from unneededq */
3088       for (i = j = 0; i < count; i++)
3089         if (unneededq->elements[i])
3090           unneededq->elements[j++] = unneededq->elements[i];
3091       queue_truncate(unneededq, j);
3092     }
3093   map_free(&cleandepsmap);
3094 }
3095
3096 /* EOF */
Domain: System / Base;