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1 /* Target file management for GNU Make.
2 Copyright (C) 1988, 1989, 1990, 1991, 1992, 1993, 1994, 1995, 1996, 1997,
3 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006 Free Software
4 Foundation, Inc.
5 This file is part of GNU Make.
6 
7 GNU Make is free software; you can redistribute it and/or modify it under the
8 terms of the GNU General Public License as published by the Free Software
9 Foundation; either version 2, or (at your option) any later version.
10 
11 GNU Make is distributed in the hope that it will be useful, but WITHOUT ANY
12 WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
13 A PARTICULAR PURPOSE.  See the GNU General Public License for more details.
14 
15 You should have received a copy of the GNU General Public License along with
16 GNU Make; see the file COPYING.  If not, write to the Free Software
17 Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.  */
18 
19 #include "make.h"
20 
21 #include <assert.h>
22 
23 #include "dep.h"
24 #include "filedef.h"
25 #include "job.h"
26 #include "commands.h"
27 #include "variable.h"
28 #include "debug.h"
29 #include "hash.h"
30 
31 
32 /* Remember whether snap_deps has been invoked: we need this to be sure we
33    don't add new rules (via $(eval ...)) afterwards.  In the future it would
34    be nice to support this, but it means we'd need to re-run snap_deps() or
35    at least its functionality... it might mean changing snap_deps() to be run
36    per-file, so we can invoke it after the eval... or remembering which files
37    in the hash have been snapped (a new boolean flag?) and having snap_deps()
38    only work on files which have not yet been snapped. */
39 int snapped_deps = 0;
40 
41 /* Hash table of files the makefile knows how to make.  */
42 
43 static unsigned long
file_hash_1(const void * key)44 file_hash_1 (const void *key)
45 {
46   return_ISTRING_HASH_1 (((struct file const *) key)->hname);
47 }
48 
49 static unsigned long
file_hash_2(const void * key)50 file_hash_2 (const void *key)
51 {
52   return_ISTRING_HASH_2 (((struct file const *) key)->hname);
53 }
54 
55 static int
file_hash_cmp(const void * x,const void * y)56 file_hash_cmp (const void *x, const void *y)
57 {
58   return_ISTRING_COMPARE (((struct file const *) x)->hname,
59 			  ((struct file const *) y)->hname);
60 }
61 
62 #ifndef	FILE_BUCKETS
63 #define FILE_BUCKETS	1007
64 #endif
65 static struct hash_table files;
66 
67 /* Whether or not .SECONDARY with no prerequisites was given.  */
68 static int all_secondary = 0;
69 
70 /* Access the hash table of all file records.
71    lookup_file  given a name, return the struct file * for that name,
72            or nil if there is none.
73    enter_file   similar, but create one if there is none.  */
74 
75 struct file *
lookup_file(char * name)76 lookup_file (char *name)
77 {
78   register struct file *f;
79   struct file file_key;
80 #if defined(VMS) && !defined(WANT_CASE_SENSITIVE_TARGETS)
81   register char *lname, *ln;
82 #endif
83 
84   assert (*name != '\0');
85 
86   /* This is also done in parse_file_seq, so this is redundant
87      for names read from makefiles.  It is here for names passed
88      on the command line.  */
89 #ifdef VMS
90 # ifndef WANT_CASE_SENSITIVE_TARGETS
91   if (*name != '.')
92     {
93       register char *n;
94       lname = (char *) malloc (strlen (name) + 1);
95       for (n = name, ln = lname; *n != '\0'; ++n, ++ln)
96         *ln = isupper ((unsigned char)*n) ? tolower ((unsigned char)*n) : *n;
97       *ln = '\0';
98       name = lname;
99     }
100 # endif
101 
102   while (name[0] == '[' && name[1] == ']' && name[2] != '\0')
103       name += 2;
104 #endif
105   while (name[0] == '.' && name[1] == '/' && name[2] != '\0')
106     {
107       name += 2;
108       while (*name == '/')
109 	/* Skip following slashes: ".//foo" is "foo", not "/foo".  */
110 	++name;
111     }
112 
113   if (*name == '\0')
114     /* It was all slashes after a dot.  */
115 #ifdef VMS
116     name = "[]";
117 #else
118 #ifdef _AMIGA
119     name = "";
120 #else
121     name = "./";
122 #endif /* AMIGA */
123 #endif /* VMS */
124 
125   file_key.hname = name;
126   f = (struct file *) hash_find_item (&files, &file_key);
127 #if defined(VMS) && !defined(WANT_CASE_SENSITIVE_TARGETS)
128   if (*name != '.')
129     free (lname);
130 #endif
131   return f;
132 }
133 
134 struct file *
enter_file(char * name)135 enter_file (char *name)
136 {
137   register struct file *f;
138   register struct file *new;
139   register struct file **file_slot;
140   struct file file_key;
141 #if defined(VMS) && !defined(WANT_CASE_SENSITIVE_TARGETS)
142   char *lname, *ln;
143 #endif
144 
145   assert (*name != '\0');
146 
147 #if defined(VMS) && !defined(WANT_CASE_SENSITIVE_TARGETS)
148   if (*name != '.')
149     {
150       register char *n;
151       lname = (char *) malloc (strlen (name) + 1);
152       for (n = name, ln = lname; *n != '\0'; ++n, ++ln)
153         {
154           if (isupper ((unsigned char)*n))
155             *ln = tolower ((unsigned char)*n);
156           else
157             *ln = *n;
158         }
159 
160       *ln = 0;
161       /* Creates a possible leak, old value of name is unreachable, but I
162          currently don't know how to fix it. */
163       name = lname;
164     }
165 #endif
166 
167   file_key.hname = name;
168   file_slot = (struct file **) hash_find_slot (&files, &file_key);
169   f = *file_slot;
170   if (! HASH_VACANT (f) && !f->double_colon)
171     {
172 #if defined(VMS) && !defined(WANT_CASE_SENSITIVE_TARGETS)
173       if (*name != '.')
174         free (lname);
175 #endif
176       return f;
177     }
178 
179   new = (struct file *) xmalloc (sizeof (struct file));
180   bzero ((char *) new, sizeof (struct file));
181   new->name = new->hname = name;
182   new->update_status = -1;
183 
184   if (HASH_VACANT (f))
185     {
186       new->last = new;
187       hash_insert_at (&files, new, file_slot);
188     }
189   else
190     {
191       /* There is already a double-colon entry for this file.  */
192       new->double_colon = f;
193       f->last->prev = new;
194       f->last = new;
195     }
196 
197   return new;
198 }
199 
200 /* Rename FILE to NAME.  This is not as simple as resetting
201    the `name' member, since it must be put in a new hash bucket,
202    and possibly merged with an existing file called NAME.  */
203 
204 void
rename_file(struct file * from_file,char * to_hname)205 rename_file (struct file *from_file, char *to_hname)
206 {
207   rehash_file (from_file, to_hname);
208   while (from_file)
209     {
210       from_file->name = from_file->hname;
211       from_file = from_file->prev;
212     }
213 }
214 
215 /* Rehash FILE to NAME.  This is not as simple as resetting
216    the `hname' member, since it must be put in a new hash bucket,
217    and possibly merged with an existing file called NAME.  */
218 
219 void
rehash_file(struct file * from_file,char * to_hname)220 rehash_file (struct file *from_file, char *to_hname)
221 {
222   struct file file_key;
223   struct file **file_slot;
224   struct file *to_file;
225   struct file *deleted_file;
226   struct file *f;
227 
228   file_key.hname = to_hname;
229   if (0 == file_hash_cmp (from_file, &file_key))
230     return;
231 
232   file_key.hname = from_file->hname;
233   while (from_file->renamed != 0)
234     from_file = from_file->renamed;
235   if (file_hash_cmp (from_file, &file_key))
236     /* hname changed unexpectedly */
237     abort ();
238 
239   deleted_file = hash_delete (&files, from_file);
240   if (deleted_file != from_file)
241     /* from_file isn't the one stored in files */
242     abort ();
243 
244   file_key.hname = to_hname;
245   file_slot = (struct file **) hash_find_slot (&files, &file_key);
246   to_file = *file_slot;
247 
248   from_file->hname = to_hname;
249   for (f = from_file->double_colon; f != 0; f = f->prev)
250     f->hname = to_hname;
251 
252   if (HASH_VACANT (to_file))
253     hash_insert_at (&files, from_file, file_slot);
254   else
255     {
256       /* TO_FILE already exists under TO_HNAME.
257 	 We must retain TO_FILE and merge FROM_FILE into it.  */
258 
259       if (from_file->cmds != 0)
260 	{
261 	  if (to_file->cmds == 0)
262 	    to_file->cmds = from_file->cmds;
263 	  else if (from_file->cmds != to_file->cmds)
264 	    {
265 	      /* We have two sets of commands.  We will go with the
266 		 one given in the rule explicitly mentioning this name,
267 		 but give a message to let the user know what's going on.  */
268 	      if (to_file->cmds->fileinfo.filenm != 0)
269                 error (&from_file->cmds->fileinfo,
270 		       _("Commands were specified for file `%s' at %s:%lu,"),
271 		       from_file->name, to_file->cmds->fileinfo.filenm,
272 		       to_file->cmds->fileinfo.lineno);
273 	      else
274 		error (&from_file->cmds->fileinfo,
275 		       _("Commands for file `%s' were found by implicit rule search,"),
276 		       from_file->name);
277 	      error (&from_file->cmds->fileinfo,
278 		     _("but `%s' is now considered the same file as `%s'."),
279 		     from_file->name, to_hname);
280 	      error (&from_file->cmds->fileinfo,
281 		     _("Commands for `%s' will be ignored in favor of those for `%s'."),
282 		     to_hname, from_file->name);
283 	    }
284 	}
285 
286       /* Merge the dependencies of the two files.  */
287 
288       if (to_file->deps == 0)
289 	to_file->deps = from_file->deps;
290       else
291 	{
292 	  register struct dep *deps = to_file->deps;
293 	  while (deps->next != 0)
294 	    deps = deps->next;
295 	  deps->next = from_file->deps;
296 	}
297 
298       merge_variable_set_lists (&to_file->variables, from_file->variables);
299 
300       if (to_file->double_colon && from_file->is_target && !from_file->double_colon)
301 	fatal (NILF, _("can't rename single-colon `%s' to double-colon `%s'"),
302 	       from_file->name, to_hname);
303       if (!to_file->double_colon  && from_file->double_colon)
304 	{
305 	  if (to_file->is_target)
306 	    fatal (NILF, _("can't rename double-colon `%s' to single-colon `%s'"),
307 		   from_file->name, to_hname);
308 	  else
309 	    to_file->double_colon = from_file->double_colon;
310 	}
311 
312       if (from_file->last_mtime > to_file->last_mtime)
313 	/* %%% Kludge so -W wins on a file that gets vpathized.  */
314 	to_file->last_mtime = from_file->last_mtime;
315 
316       to_file->mtime_before_update = from_file->mtime_before_update;
317 
318 #define MERGE(field) to_file->field |= from_file->field
319       MERGE (precious);
320       MERGE (tried_implicit);
321       MERGE (updating);
322       MERGE (updated);
323       MERGE (is_target);
324       MERGE (cmd_target);
325       MERGE (phony);
326       MERGE (ignore_vpath);
327 #undef MERGE
328 
329       from_file->renamed = to_file;
330     }
331 }
332 
333 /* Remove all nonprecious intermediate files.
334    If SIG is nonzero, this was caused by a fatal signal,
335    meaning that a different message will be printed, and
336    the message will go to stderr rather than stdout.  */
337 
338 void
remove_intermediates(int sig)339 remove_intermediates (int sig)
340 {
341   register struct file **file_slot;
342   register struct file **file_end;
343   int doneany = 0;
344 
345   /* If there's no way we will ever remove anything anyway, punt early.  */
346   if (question_flag || touch_flag || all_secondary)
347     return;
348 
349   if (sig && just_print_flag)
350     return;
351 
352   file_slot = (struct file **) files.ht_vec;
353   file_end = file_slot + files.ht_size;
354   for ( ; file_slot < file_end; file_slot++)
355     if (! HASH_VACANT (*file_slot))
356       {
357 	register struct file *f = *file_slot;
358         /* Is this file eligible for automatic deletion?
359            Yes, IFF: it's marked intermediate, it's not secondary, it wasn't
360            given on the command-line, and it's either a -include makefile or
361            it's not precious.  */
362 	if (f->intermediate && (f->dontcare || !f->precious)
363 	    && !f->secondary && !f->cmd_target)
364 	  {
365 	    int status;
366 	    if (f->update_status == -1)
367 	      /* If nothing would have created this file yet,
368 		 don't print an "rm" command for it.  */
369 	      continue;
370 	    if (just_print_flag)
371 	      status = 0;
372 	    else
373 	      {
374 		status = unlink (f->name);
375 		if (status < 0 && errno == ENOENT)
376 		  continue;
377 	      }
378 	    if (!f->dontcare)
379 	      {
380 		if (sig)
381 		  error (NILF, _("*** Deleting intermediate file `%s'"), f->name);
382 		else
383 		  {
384 		    if (! doneany)
385 		      DB (DB_BASIC, (_("Removing intermediate files...\n")));
386 		    if (!silent_flag)
387 		      {
388 			if (! doneany)
389 			  {
390 			    fputs ("rm ", stdout);
391 			    doneany = 1;
392 			  }
393 			else
394 			  putchar (' ');
395 			fputs (f->name, stdout);
396 			fflush (stdout);
397 		      }
398 		  }
399 		if (status < 0)
400 		  perror_with_name ("unlink: ", f->name);
401 	      }
402 	  }
403       }
404 
405   if (doneany && !sig)
406     {
407       putchar ('\n');
408       fflush (stdout);
409     }
410 }
411 
412 struct dep *
parse_prereqs(char * p)413 parse_prereqs (char *p)
414 {
415   struct dep *new = (struct dep *)
416     multi_glob (parse_file_seq (&p, '|', sizeof (struct dep), 1),
417                 sizeof (struct dep));
418 
419   if (*p)
420     {
421       /* Files that follow '|' are "order-only" prerequisites that satisfy the
422          dependency by existing: their modification times are irrelevant.  */
423       struct dep *ood;
424 
425       ++p;
426       ood = (struct dep *)
427         multi_glob (parse_file_seq (&p, '\0', sizeof (struct dep), 1),
428                     sizeof (struct dep));
429 
430       if (! new)
431         new = ood;
432       else
433         {
434           struct dep *dp;
435           for (dp = new; dp->next != NULL; dp = dp->next)
436             ;
437           dp->next = ood;
438         }
439 
440       for (; ood != NULL; ood = ood->next)
441         ood->ignore_mtime = 1;
442     }
443 
444   return new;
445 }
446 
447 
448 /* Set the intermediate flag.  */
449 
450 static void
set_intermediate(const void * item)451 set_intermediate (const void *item)
452 {
453   struct file *f = (struct file *) item;
454   f->intermediate = 1;
455 }
456 
457 /* Expand and parse each dependency line. */
458 static void
expand_deps(struct file * f)459 expand_deps (struct file *f)
460 {
461   struct dep *d;
462   struct dep *old = f->deps;
463   char *file_stem = f->stem;
464   unsigned int last_dep_has_cmds = f->updating;
465   int initialized = 0;
466 
467   f->updating = 0;
468   f->deps = 0;
469 
470   for (d = old; d != 0; d = d->next)
471     {
472       struct dep *new, *d1;
473       char *p;
474 
475       if (! d->name)
476         continue;
477 
478       /* Create the dependency list.
479          If we're not doing 2nd expansion, then it's just the name.  */
480       if (! d->need_2nd_expansion)
481         p = d->name;
482       else
483         {
484           /* If it's from a static pattern rule, convert the patterns into
485              "$*" so they'll expand properly.  */
486           if (d->staticpattern)
487             {
488               char *o;
489               char *buffer = variable_expand ("");
490 
491               o = subst_expand (buffer, d->name, "%", "$*", 1, 2, 0);
492 
493               free (d->name);
494               d->name = savestring (buffer, o - buffer);
495               d->staticpattern = 0; /* Clear staticpattern so that we don't
496                                        re-expand %s below. */
497             }
498 
499           /* We are going to do second expansion so initialize file variables
500              for the file. Since the stem for static pattern rules comes from
501              individual dep lines, we will temporarily set f->stem to d->stem.
502           */
503           if (!initialized)
504             {
505               initialize_file_variables (f, 0);
506               initialized = 1;
507             }
508 
509           if (d->stem != 0)
510             f->stem = d->stem;
511 
512           set_file_variables (f);
513 
514           p = variable_expand_for_file (d->name, f);
515 
516           if (d->stem != 0)
517             f->stem = file_stem;
518         }
519 
520       /* Parse the prerequisites.  */
521       new = parse_prereqs (p);
522 
523       /* If this dep list was from a static pattern rule, expand the %s.  We
524          use patsubst_expand to translate the prerequisites' patterns into
525          plain prerequisite names.  */
526       if (new && d->staticpattern)
527         {
528           char *pattern = "%";
529           char *buffer = variable_expand ("");
530           struct dep *dp = new, *dl = 0;
531 
532           while (dp != 0)
533             {
534               char *percent = find_percent (dp->name);
535               if (percent)
536                 {
537                   /* We have to handle empty stems specially, because that
538                      would be equivalent to $(patsubst %,dp->name,) which
539                      will always be empty.  */
540                   if (d->stem[0] == '\0')
541                     /* This needs memmove() in ISO C.  */
542                     bcopy (percent+1, percent, strlen (percent));
543                   else
544                     {
545                       char *o = patsubst_expand (buffer, d->stem, pattern,
546                                                  dp->name, pattern+1,
547                                                  percent+1);
548                       if (o == buffer)
549                         dp->name[0] = '\0';
550                       else
551                         {
552                           free (dp->name);
553                           dp->name = savestring (buffer, o - buffer);
554                         }
555                     }
556 
557                   /* If the name expanded to the empty string, ignore it.  */
558                   if (dp->name[0] == '\0')
559                     {
560                       struct dep *df = dp;
561                       if (dp == new)
562                         dp = new = new->next;
563                       else
564                         dp = dl->next = dp->next;
565                       /* @@ Are we leaking df->name here?  */
566                       df->name = 0;
567                       free_dep (df);
568                       continue;
569                     }
570                 }
571               dl = dp;
572               dp = dp->next;
573             }
574         }
575 
576       /* Enter them as files. */
577       for (d1 = new; d1 != 0; d1 = d1->next)
578         {
579           d1->file = lookup_file (d1->name);
580           if (d1->file == 0)
581             d1->file = enter_file (d1->name);
582           else
583             free (d1->name);
584           d1->name = 0;
585           d1->staticpattern = 0;
586           d1->need_2nd_expansion = 0;
587         }
588 
589       /* Add newly parsed deps to f->deps. If this is the last dependency
590          line and this target has commands then put it in front so the
591          last dependency line (the one with commands) ends up being the
592          first. This is important because people expect $< to hold first
593          prerequisite from the rule with commands. If it is not the last
594          dependency line or the rule does not have commands then link it
595          at the end so it appears in makefile order.  */
596 
597       if (new != 0)
598         {
599           if (d->next == 0 && last_dep_has_cmds)
600             {
601               struct dep **d_ptr;
602               for (d_ptr = &new; *d_ptr; d_ptr = &(*d_ptr)->next)
603                 ;
604 
605               *d_ptr = f->deps;
606               f->deps = new;
607             }
608           else
609             {
610               struct dep **d_ptr;
611               for (d_ptr = &f->deps; *d_ptr; d_ptr = &(*d_ptr)->next)
612                 ;
613 
614               *d_ptr = new;
615             }
616         }
617     }
618 
619   free_dep_chain (old);
620 }
621 
622 /* For each dependency of each file, make the `struct dep' point
623    at the appropriate `struct file' (which may have to be created).
624 
625    Also mark the files depended on by .PRECIOUS, .PHONY, .SILENT,
626    and various other special targets.  */
627 
628 void
snap_deps(void)629 snap_deps (void)
630 {
631   struct file *f;
632   struct file *f2;
633   struct dep *d;
634   struct file **file_slot_0;
635   struct file **file_slot;
636   struct file **file_end;
637 
638   /* Perform second expansion and enter each dependency
639      name as a file. */
640 
641   /* Expand .SUFFIXES first; it's dependencies are used for
642      $$* calculation. */
643   for (f = lookup_file (".SUFFIXES"); f != 0; f = f->prev)
644     expand_deps (f);
645 
646   /* We must use hash_dump (), because within this loop
647      we might add new files to the table, possibly causing
648      an in-situ table expansion.  */
649   file_slot_0 = (struct file **) hash_dump (&files, 0, 0);
650   file_end = file_slot_0 + files.ht_fill;
651   for (file_slot = file_slot_0; file_slot < file_end; file_slot++)
652     for (f = *file_slot; f != 0; f = f->prev)
653       {
654         if (strcmp (f->name, ".SUFFIXES") != 0)
655           expand_deps (f);
656       }
657   free (file_slot_0);
658 
659   for (f = lookup_file (".PRECIOUS"); f != 0; f = f->prev)
660     for (d = f->deps; d != 0; d = d->next)
661       for (f2 = d->file; f2 != 0; f2 = f2->prev)
662 	f2->precious = 1;
663 
664   for (f = lookup_file (".LOW_RESOLUTION_TIME"); f != 0; f = f->prev)
665     for (d = f->deps; d != 0; d = d->next)
666       for (f2 = d->file; f2 != 0; f2 = f2->prev)
667 	f2->low_resolution_time = 1;
668 
669   for (f = lookup_file (".PHONY"); f != 0; f = f->prev)
670     for (d = f->deps; d != 0; d = d->next)
671       for (f2 = d->file; f2 != 0; f2 = f2->prev)
672 	{
673 	  /* Mark this file as phony nonexistent target.  */
674 	  f2->phony = 1;
675           f2->is_target = 1;
676 	  f2->last_mtime = NONEXISTENT_MTIME;
677 	  f2->mtime_before_update = NONEXISTENT_MTIME;
678 	}
679 
680   for (f = lookup_file (".INTERMEDIATE"); f != 0; f = f->prev)
681     {
682       /* .INTERMEDIATE with deps listed
683 	 marks those deps as intermediate files.  */
684       for (d = f->deps; d != 0; d = d->next)
685 	for (f2 = d->file; f2 != 0; f2 = f2->prev)
686 	  f2->intermediate = 1;
687       /* .INTERMEDIATE with no deps does nothing.
688 	 Marking all files as intermediates is useless
689 	 since the goal targets would be deleted after they are built.  */
690     }
691 
692   for (f = lookup_file (".SECONDARY"); f != 0; f = f->prev)
693     {
694       /* .SECONDARY with deps listed
695 	 marks those deps as intermediate files
696 	 in that they don't get rebuilt if not actually needed;
697 	 but unlike real intermediate files,
698 	 these are not deleted after make finishes.  */
699       if (f->deps)
700         for (d = f->deps; d != 0; d = d->next)
701           for (f2 = d->file; f2 != 0; f2 = f2->prev)
702             f2->intermediate = f2->secondary = 1;
703       /* .SECONDARY with no deps listed marks *all* files that way.  */
704       else
705         {
706           all_secondary = 1;
707           hash_map (&files, set_intermediate);
708         }
709     }
710 
711   f = lookup_file (".EXPORT_ALL_VARIABLES");
712   if (f != 0 && f->is_target)
713     export_all_variables = 1;
714 
715   f = lookup_file (".IGNORE");
716   if (f != 0 && f->is_target)
717     {
718       if (f->deps == 0)
719 	ignore_errors_flag = 1;
720       else
721 	for (d = f->deps; d != 0; d = d->next)
722 	  for (f2 = d->file; f2 != 0; f2 = f2->prev)
723 	    f2->command_flags |= COMMANDS_NOERROR;
724     }
725 
726   f = lookup_file (".SILENT");
727   if (f != 0 && f->is_target)
728     {
729       if (f->deps == 0)
730 	silent_flag = 1;
731       else
732 	for (d = f->deps; d != 0; d = d->next)
733 	  for (f2 = d->file; f2 != 0; f2 = f2->prev)
734 	    f2->command_flags |= COMMANDS_SILENT;
735     }
736 
737   f = lookup_file (".NOTPARALLEL");
738   if (f != 0 && f->is_target)
739     not_parallel = 1;
740 
741 #ifndef NO_MINUS_C_MINUS_O
742   /* If .POSIX was defined, remove OUTPUT_OPTION to comply.  */
743   /* This needs more work: what if the user sets this in the makefile?
744   if (posix_pedantic)
745     define_variable (STRING_SIZE_TUPLE("OUTPUT_OPTION"), "", o_default, 1);
746   */
747 #endif
748 
749   /* Remember that we've done this. */
750   snapped_deps = 1;
751 }
752 
753 /* Set the `command_state' member of FILE and all its `also_make's.  */
754 
755 void
set_command_state(struct file * file,enum cmd_state state)756 set_command_state (struct file *file, enum cmd_state state)
757 {
758   struct dep *d;
759 
760   file->command_state = state;
761 
762   for (d = file->also_make; d != 0; d = d->next)
763     d->file->command_state = state;
764 }
765 
766 /* Convert an external file timestamp to internal form.  */
767 
768 FILE_TIMESTAMP
file_timestamp_cons(const char * fname,time_t s,int ns)769 file_timestamp_cons (const char *fname, time_t s, int ns)
770 {
771   int offset = ORDINARY_MTIME_MIN + (FILE_TIMESTAMP_HI_RES ? ns : 0);
772   FILE_TIMESTAMP product = (FILE_TIMESTAMP) s << FILE_TIMESTAMP_LO_BITS;
773   FILE_TIMESTAMP ts = product + offset;
774 
775   if (! (s <= FILE_TIMESTAMP_S (ORDINARY_MTIME_MAX)
776 	 && product <= ts && ts <= ORDINARY_MTIME_MAX))
777     {
778       char buf[FILE_TIMESTAMP_PRINT_LEN_BOUND + 1];
779       ts = s <= OLD_MTIME ? ORDINARY_MTIME_MIN : ORDINARY_MTIME_MAX;
780       file_timestamp_sprintf (buf, ts);
781       error (NILF, _("%s: Timestamp out of range; substituting %s"),
782 	     fname ? fname : _("Current time"), buf);
783     }
784 
785   return ts;
786 }
787 
788 /* Return the current time as a file timestamp, setting *RESOLUTION to
789    its resolution.  */
790 FILE_TIMESTAMP
file_timestamp_now(int * resolution)791 file_timestamp_now (int *resolution)
792 {
793   int r;
794   time_t s;
795   int ns;
796 
797   /* Don't bother with high-resolution clocks if file timestamps have
798      only one-second resolution.  The code below should work, but it's
799      not worth the hassle of debugging it on hosts where it fails.  */
800 #if FILE_TIMESTAMP_HI_RES
801 # if HAVE_CLOCK_GETTIME && defined CLOCK_REALTIME
802   {
803     struct timespec timespec;
804     if (clock_gettime (CLOCK_REALTIME, &timespec) == 0)
805       {
806 	r = 1;
807 	s = timespec.tv_sec;
808 	ns = timespec.tv_nsec;
809 	goto got_time;
810       }
811   }
812 # endif
813 # if HAVE_GETTIMEOFDAY
814   {
815     struct timeval timeval;
816     if (gettimeofday (&timeval, 0) == 0)
817       {
818 	r = 1000;
819 	s = timeval.tv_sec;
820 	ns = timeval.tv_usec * 1000;
821 	goto got_time;
822       }
823   }
824 # endif
825 #endif
826 
827   r = 1000000000;
828   s = time ((time_t *) 0);
829   ns = 0;
830 
831 #if FILE_TIMESTAMP_HI_RES
832  got_time:
833 #endif
834   *resolution = r;
835   return file_timestamp_cons (0, s, ns);
836 }
837 
838 /* Place into the buffer P a printable representation of the file
839    timestamp TS.  */
840 void
file_timestamp_sprintf(char * p,FILE_TIMESTAMP ts)841 file_timestamp_sprintf (char *p, FILE_TIMESTAMP ts)
842 {
843   time_t t = FILE_TIMESTAMP_S (ts);
844   struct tm *tm = localtime (&t);
845 
846   if (tm)
847     sprintf (p, "%04d-%02d-%02d %02d:%02d:%02d",
848 	     tm->tm_year + 1900, tm->tm_mon + 1, tm->tm_mday,
849 	     tm->tm_hour, tm->tm_min, tm->tm_sec);
850   else if (t < 0)
851     sprintf (p, "%ld", (long) t);
852   else
853     sprintf (p, "%lu", (unsigned long) t);
854   p += strlen (p);
855 
856   /* Append nanoseconds as a fraction, but remove trailing zeros.
857      We don't know the actual timestamp resolution, since clock_getres
858      applies only to local times, whereas this timestamp might come
859      from a remote filesystem.  So removing trailing zeros is the
860      best guess that we can do.  */
861   sprintf (p, ".%09d", FILE_TIMESTAMP_NS (ts));
862   p += strlen (p) - 1;
863   while (*p == '0')
864     p--;
865   p += *p != '.';
866 
867   *p = '\0';
868 }
869 
870 /* Print the data base of files.  */
871 
872 static void
print_file(const void * item)873 print_file (const void *item)
874 {
875   struct file *f = (struct file *) item;
876   struct dep *d;
877   struct dep *ood = 0;
878 
879   putchar ('\n');
880   if (!f->is_target)
881     puts (_("# Not a target:"));
882   printf ("%s:%s", f->name, f->double_colon ? ":" : "");
883 
884   /* Print all normal dependencies; note any order-only deps.  */
885   for (d = f->deps; d != 0; d = d->next)
886     if (! d->ignore_mtime)
887       printf (" %s", dep_name (d));
888     else if (! ood)
889       ood = d;
890 
891   /* Print order-only deps, if we have any.  */
892   if (ood)
893     {
894       printf (" | %s", dep_name (ood));
895       for (d = ood->next; d != 0; d = d->next)
896         if (d->ignore_mtime)
897           printf (" %s", dep_name (d));
898     }
899 
900   putchar ('\n');
901 
902   if (f->precious)
903     puts (_("#  Precious file (prerequisite of .PRECIOUS)."));
904   if (f->phony)
905     puts (_("#  Phony target (prerequisite of .PHONY)."));
906   if (f->cmd_target)
907     puts (_("#  Command-line target."));
908   if (f->dontcare)
909     puts (_("#  A default, MAKEFILES, or -include/sinclude makefile."));
910   puts (f->tried_implicit
911         ? _("#  Implicit rule search has been done.")
912         : _("#  Implicit rule search has not been done."));
913   if (f->stem != 0)
914     printf (_("#  Implicit/static pattern stem: `%s'\n"), f->stem);
915   if (f->intermediate)
916     puts (_("#  File is an intermediate prerequisite."));
917   if (f->also_make != 0)
918     {
919       fputs (_("#  Also makes:"), stdout);
920       for (d = f->also_make; d != 0; d = d->next)
921 	printf (" %s", dep_name (d));
922       putchar ('\n');
923     }
924   if (f->last_mtime == UNKNOWN_MTIME)
925     puts (_("#  Modification time never checked."));
926   else if (f->last_mtime == NONEXISTENT_MTIME)
927     puts (_("#  File does not exist."));
928   else if (f->last_mtime == OLD_MTIME)
929     puts (_("#  File is very old."));
930   else
931     {
932       char buf[FILE_TIMESTAMP_PRINT_LEN_BOUND + 1];
933       file_timestamp_sprintf (buf, f->last_mtime);
934       printf (_("#  Last modified %s\n"), buf);
935     }
936   puts (f->updated
937         ? _("#  File has been updated.") : _("#  File has not been updated."));
938   switch (f->command_state)
939     {
940     case cs_running:
941       puts (_("#  Commands currently running (THIS IS A BUG)."));
942       break;
943     case cs_deps_running:
944       puts (_("#  Dependencies commands running (THIS IS A BUG)."));
945       break;
946     case cs_not_started:
947     case cs_finished:
948       switch (f->update_status)
949 	{
950 	case -1:
951 	  break;
952 	case 0:
953 	  puts (_("#  Successfully updated."));
954 	  break;
955 	case 1:
956 	  assert (question_flag);
957 	  puts (_("#  Needs to be updated (-q is set)."));
958 	  break;
959 	case 2:
960 	  puts (_("#  Failed to be updated."));
961 	  break;
962 	default:
963 	  puts (_("#  Invalid value in `update_status' member!"));
964 	  fflush (stdout);
965 	  fflush (stderr);
966 	  abort ();
967 	}
968       break;
969     default:
970       puts (_("#  Invalid value in `command_state' member!"));
971       fflush (stdout);
972       fflush (stderr);
973       abort ();
974     }
975 
976   if (f->variables != 0)
977     print_file_variables (f);
978 
979   if (f->cmds != 0)
980     print_commands (f->cmds);
981 
982   if (f->prev)
983     print_file ((const void *) f->prev);
984 }
985 
986 void
print_file_data_base(void)987 print_file_data_base (void)
988 {
989   puts (_("\n# Files"));
990 
991   hash_map (&files, print_file);
992 
993   fputs (_("\n# files hash-table stats:\n# "), stdout);
994   hash_print_stats (&files, stdout);
995 }
996 
997 #define EXPANSION_INCREMENT(_l)  ((((_l) / 500) + 1) * 500)
998 
999 char *
build_target_list(char * value)1000 build_target_list (char *value)
1001 {
1002   static unsigned long last_targ_count = 0;
1003 
1004   if (files.ht_fill != last_targ_count)
1005     {
1006       unsigned long max = EXPANSION_INCREMENT (strlen (value));
1007       unsigned long len;
1008       char *p;
1009       struct file **fp = (struct file **) files.ht_vec;
1010       struct file **end = &fp[files.ht_size];
1011 
1012       /* Make sure we have at least MAX bytes in the allocated buffer.  */
1013       value = xrealloc (value, max);
1014 
1015       p = value;
1016       len = 0;
1017       for (; fp < end; ++fp)
1018         if (!HASH_VACANT (*fp) && (*fp)->is_target)
1019           {
1020             struct file *f = *fp;
1021             int l = strlen (f->name);
1022 
1023             len += l + 1;
1024             if (len > max)
1025               {
1026                 unsigned long off = p - value;
1027 
1028                 max += EXPANSION_INCREMENT (l + 1);
1029                 value = xrealloc (value, max);
1030                 p = &value[off];
1031               }
1032 
1033             bcopy (f->name, p, l);
1034             p += l;
1035             *(p++) = ' ';
1036           }
1037       *(p-1) = '\0';
1038 
1039       last_targ_count = files.ht_fill;
1040     }
1041 
1042   return value;
1043 }
1044 
1045 void
init_hash_files(void)1046 init_hash_files (void)
1047 {
1048   hash_init (&files, 1000, file_hash_1, file_hash_2, file_hash_cmp);
1049 }
1050 
1051 /* EOF */
1052