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/* Target file management for GNU Make.
Copyright (C) 1988, 1989, 1990, 1991, 1992, 1993, 1994, 1995, 1996, 1997,
1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009,
2010 Free Software Foundation, Inc.
This file is part of GNU Make.

GNU Make is free software; you can redistribute it and/or modify it under the
terms of the GNU General Public License as published by the Free Software
Foundation; either version 3 of the License, or (at your option) any later
version.

GNU Make is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
A PARTICULAR PURPOSE.  See the GNU General Public License for more details.

You should have received a copy of the GNU General Public License along with
this program.  If not, see <http://www.gnu.org/licenses/>.  */

#include "make.h"

#include <assert.h>

#include "dep.h"
#include "filedef.h"
#include "job.h"
#include "commands.h"
#include "variable.h"
#include "debug.h"
#include "hash.h"


/* Remember whether snap_deps has been invoked: we need this to be sure we
   don't add new rules (via $(eval ...)) afterwards.  In the future it would
   be nice to support this, but it means we'd need to re-run snap_deps() or
   at least its functionality... it might mean changing snap_deps() to be run
   per-file, so we can invoke it after the eval... or remembering which files
   in the hash have been snapped (a new boolean flag?) and having snap_deps()
   only work on files which have not yet been snapped. */
int snapped_deps = 0;

/* Hash table of files the makefile knows how to make.  */

static unsigned long
file_hash_1 (const void *key)
{
  return_ISTRING_HASH_1 (((struct file const *) key)->hname);
}

static unsigned long
file_hash_2 (const void *key)
{
  return_ISTRING_HASH_2 (((struct file const *) key)->hname);
}

static int
file_hash_cmp (const void *x, const void *y)
{
  return_ISTRING_COMPARE (((struct file const *) x)->hname,
			  ((struct file const *) y)->hname);
}

#ifndef	FILE_BUCKETS
#define FILE_BUCKETS	1007
#endif
static struct hash_table files;

/* Whether or not .SECONDARY with no prerequisites was given.  */
static int all_secondary = 0;

/* Access the hash table of all file records.
   lookup_file  given a name, return the struct file * for that name,
                or nil if there is none.
*/

struct file *
lookup_file (const char *name)
{
  struct file *f;
  struct file file_key;
#if defined(VMS) && !defined(WANT_CASE_SENSITIVE_TARGETS)
  char *lname;
#endif

  assert (*name != '\0');

  /* This is also done in parse_file_seq, so this is redundant
     for names read from makefiles.  It is here for names passed
     on the command line.  */
#ifdef VMS
# ifndef WANT_CASE_SENSITIVE_TARGETS
  if (*name != '.')
    {
      const char *n;
      char *ln;
      lname = xstrdup (name);
      for (n = name, ln = lname; *n != '\0'; ++n, ++ln)
        *ln = isupper ((unsigned char)*n) ? tolower ((unsigned char)*n) : *n;
      *ln = '\0';
      name = lname;
    }
# endif

  while (name[0] == '[' && name[1] == ']' && name[2] != '\0')
      name += 2;
#endif
  while (name[0] == '.'
#ifdef HAVE_DOS_PATHS
	 && (name[1] == '/' || name[1] == '\\')
#else
	 && name[1] == '/'
#endif
	 && name[2] != '\0')
    {
      name += 2;
      while (*name == '/'
#ifdef HAVE_DOS_PATHS
	     || *name == '\\'
#endif
	     )
	/* Skip following slashes: ".//foo" is "foo", not "/foo".  */
	++name;
    }

  if (*name == '\0')
    /* It was all slashes after a dot.  */
#if defined(VMS)
    name = "[]";
#elif defined(_AMIGA)
    name = "";
#else
    name = "./";
#endif

  file_key.hname = name;
  f = hash_find_item (&files, &file_key);
#if defined(VMS) && !defined(WANT_CASE_SENSITIVE_TARGETS)
  if (*name != '.')
    free (lname);
#endif

  return f;
}

/* Look up a file record for file NAME and return it.
   Create a new record if one doesn't exist.  NAME will be stored in the
   new record so it should be constant or in the strcache etc.
 */

struct file *
enter_file (const char *name)
{
  struct file *f;
  struct file *new;
  struct file **file_slot;
  struct file file_key;

  assert (*name != '\0');
  assert (strcache_iscached (name));

#if defined(VMS) && !defined(WANT_CASE_SENSITIVE_TARGETS)
  if (*name != '.')
    {
      const char *n;
      char *lname, *ln;
      lname = xstrdup (name);
      for (n = name, ln = lname; *n != '\0'; ++n, ++ln)
        if (isupper ((unsigned char)*n))
          *ln = tolower ((unsigned char)*n);
        else
          *ln = *n;

      *ln = '\0';
      name = strcache_add (lname);
      free (lname);
    }
#endif

  file_key.hname = name;
  file_slot = (struct file **) hash_find_slot (&files, &file_key);
  f = *file_slot;
  if (! HASH_VACANT (f) && !f->double_colon)
    return f;

  new = xcalloc (sizeof (struct file));
  new->name = new->hname = name;
  new->update_status = -1;

  if (HASH_VACANT (f))
    {
      new->last = new;
      hash_insert_at (&files, new, file_slot);
    }
  else
    {
      /* There is already a double-colon entry for this file.  */
      new->double_colon = f;
      f->last->prev = new;
      f->last = new;
    }

  return new;
}

/* Rehash FILE to NAME.  This is not as simple as resetting
   the `hname' member, since it must be put in a new hash bucket,
   and possibly merged with an existing file called NAME.  */

void
rehash_file (struct file *from_file, const char *to_hname)
{
  struct file file_key;
  struct file **file_slot;
  struct file *to_file;
  struct file *deleted_file;
  struct file *f;

  /* If it's already that name, we're done.  */
  file_key.hname = to_hname;
  if (! file_hash_cmp (from_file, &file_key))
    return;

  /* Find the end of the renamed list for the "from" file.  */
  file_key.hname = from_file->hname;
  while (from_file->renamed != 0)
    from_file = from_file->renamed;
  if (file_hash_cmp (from_file, &file_key))
    /* hname changed unexpectedly!! */
    abort ();

  /* Remove the "from" file from the hash.  */
  deleted_file = hash_delete (&files, from_file);
  if (deleted_file != from_file)
    /* from_file isn't the one stored in files */
    abort ();

  /* Find where the newly renamed file will go in the hash.  */
  file_key.hname = to_hname;
  file_slot = (struct file **) hash_find_slot (&files, &file_key);
  to_file = *file_slot;

  /* Change the hash name for this file.  */
  from_file->hname = to_hname;
  for (f = from_file->double_colon; f != 0; f = f->prev)
    f->hname = to_hname;

  /* If the new name doesn't exist yet just set it to the renamed file.  */
  if (HASH_VACANT (to_file))
    {
      hash_insert_at (&files, from_file, file_slot);
      return;
    }

  /* TO_FILE already exists under TO_HNAME.
     We must retain TO_FILE and merge FROM_FILE into it.  */

  if (from_file->cmds != 0)
    {
      if (to_file->cmds == 0)
        to_file->cmds = from_file->cmds;
      else if (from_file->cmds != to_file->cmds)
        {
          /* We have two sets of commands.  We will go with the
             one given in the rule explicitly mentioning this name,
             but give a message to let the user know what's going on.  */
          if (to_file->cmds->fileinfo.filenm != 0)
            error (&from_file->cmds->fileinfo,
                   _("Recipe was specified for file `%s' at %s:%lu,"),
                   from_file->name, to_file->cmds->fileinfo.filenm,
                   to_file->cmds->fileinfo.lineno);
          else
            error (&from_file->cmds->fileinfo,
                   _("Recipe for file `%s' was found by implicit rule search,"),
                   from_file->name);
          error (&from_file->cmds->fileinfo,
                 _("but `%s' is now considered the same file as `%s'."),
                 from_file->name, to_hname);
          error (&from_file->cmds->fileinfo,
                 _("Recipe for `%s' will be ignored in favor of the one for `%s'."),
                 to_hname, from_file->name);
        }
    }

  /* Merge the dependencies of the two files.  */

  if (to_file->deps == 0)
    to_file->deps = from_file->deps;
  else
    {
      struct dep *deps = to_file->deps;
      while (deps->next != 0)
        deps = deps->next;
      deps->next = from_file->deps;
    }

  merge_variable_set_lists (&to_file->variables, from_file->variables);

  if (to_file->double_colon && from_file->is_target && !from_file->double_colon)
    fatal (NILF, _("can't rename single-colon `%s' to double-colon `%s'"),
           from_file->name, to_hname);
  if (!to_file->double_colon  && from_file->double_colon)
    {
      if (to_file->is_target)
        fatal (NILF, _("can't rename double-colon `%s' to single-colon `%s'"),
               from_file->name, to_hname);
      else
        to_file->double_colon = from_file->double_colon;
    }

  if (from_file->last_mtime > to_file->last_mtime)
    /* %%% Kludge so -W wins on a file that gets vpathized.  */
    to_file->last_mtime = from_file->last_mtime;

  to_file->mtime_before_update = from_file->mtime_before_update;

#define MERGE(field) to_file->field |= from_file->field
  MERGE (precious);
  MERGE (tried_implicit);
  MERGE (updating);
  MERGE (updated);
  MERGE (is_target);
  MERGE (cmd_target);
  MERGE (phony);
  MERGE (ignore_vpath);
#undef MERGE

  from_file->renamed = to_file;
}

/* Rename FILE to NAME.  This is not as simple as resetting
   the `name' member, since it must be put in a new hash bucket,
   and possibly merged with an existing file called NAME.  */

void
rename_file (struct file *from_file, const char *to_hname)
{
  rehash_file (from_file, to_hname);
  while (from_file)
    {
      from_file->name = from_file->hname;
      from_file = from_file->prev;
    }
}

/* Remove all nonprecious intermediate files.
   If SIG is nonzero, this was caused by a fatal signal,
   meaning that a different message will be printed, and
   the message will go to stderr rather than stdout.  */

void
remove_intermediates (int sig)
{
  struct file **file_slot;
  struct file **file_end;
  int doneany = 0;

  /* If there's no way we will ever remove anything anyway, punt early.  */
  if (question_flag || touch_flag || all_secondary)
    return;

  if (sig && just_print_flag)
    return;

  file_slot = (struct file **) files.ht_vec;
  file_end = file_slot + files.ht_size;
  for ( ; file_slot < file_end; file_slot++)
    if (! HASH_VACANT (*file_slot))
      {
	struct file *f = *file_slot;
        /* Is this file eligible for automatic deletion?
           Yes, IFF: it's marked intermediate, it's not secondary, it wasn't
           given on the command line, and it's either a -include makefile or
           it's not precious.  */
	if (f->intermediate && (f->dontcare || !f->precious)
	    && !f->secondary && !f->cmd_target)
	  {
	    int status;
	    if (f->update_status == -1)
	      /* If nothing would have created this file yet,
		 don't print an "rm" command for it.  */
	      continue;
	    if (just_print_flag)
	      status = 0;
	    else
	      {
		status = unlink (f->name);
		if (status < 0 && errno == ENOENT)
		  continue;
	      }
	    if (!f->dontcare)
	      {
		if (sig)
		  error (NILF, _("*** Deleting intermediate file `%s'"), f->name);
		else
		  {
		    if (! doneany)
		      DB (DB_BASIC, (_("Removing intermediate files...\n")));
		    if (!silent_flag)
		      {
			if (! doneany)
			  {
			    fputs ("rm ", stdout);
			    doneany = 1;
			  }
			else
			  putchar (' ');
			fputs (f->name, stdout);
			fflush (stdout);
		      }
		  }
		if (status < 0)
		  perror_with_name ("unlink: ", f->name);
	      }
	  }
      }

  if (doneany && !sig)
    {
      putchar ('\n');
      fflush (stdout);
    }
}

/* Given a string containing prerequisites (fully expanded), break it up into
   a struct dep list.  Enter each of these prereqs into the file database.
 */
struct dep *
split_prereqs (char *p)
{
  struct dep *new = PARSE_FILE_SEQ (&p, struct dep, '|', NULL, 0);

  if (*p)
    {
      /* Files that follow '|' are "order-only" prerequisites that satisfy the
         dependency by existing: their modification times are irrelevant.  */
      struct dep *ood;

      ++p;
      ood = PARSE_FILE_SEQ (&p, struct dep, '\0', NULL, 0);

      if (! new)
        new = ood;
      else
        {
          struct dep *dp;
          for (dp = new; dp->next != NULL; dp = dp->next)
            ;
          dp->next = ood;
        }

      for (; ood != NULL; ood = ood->next)
        ood->ignore_mtime = 1;
    }

  return new;
}

/* Given a list of prerequisites, enter them into the file database.
   If STEM is set then first expand patterns using STEM.  */
struct dep *
enter_prereqs (struct dep *deps, const char *stem)
{
  struct dep *d1;

  if (deps == 0)
    return 0;

  /* If we have a stem, expand the %'s.  We use patsubst_expand to translate
     the prerequisites' patterns into plain prerequisite names.  */
  if (stem)
    {
      const char *pattern = "%";
      char *buffer = variable_expand ("");
      struct dep *dp = deps, *dl = 0;

      while (dp != 0)
        {
          char *percent;
          int nl = strlen (dp->name) + 1;
          char *nm = alloca (nl);
          memcpy (nm, dp->name, nl);
          percent = find_percent (nm);
          if (percent)
            {
              char *o;

              /* We have to handle empty stems specially, because that
                 would be equivalent to $(patsubst %,dp->name,) which
                 will always be empty.  */
              if (stem[0] == '\0')
                {
                  memmove (percent, percent+1, strlen (percent));
                  o = variable_buffer_output (buffer, nm, strlen (nm) + 1);
                }
              else
                o = patsubst_expand_pat (buffer, stem, pattern, nm,
                                         pattern+1, percent+1);

              /* If the name expanded to the empty string, ignore it.  */
              if (buffer[0] == '\0')
                {
                  struct dep *df = dp;
                  if (dp == deps)
                    dp = deps = deps->next;
                  else
                    dp = dl->next = dp->next;
                  free_dep (df);
                  continue;
                }

              /* Save the name.  */
              dp->name = strcache_add_len (buffer, o - buffer);
            }
          dp->stem = stem;
          dp->staticpattern = 1;
          dl = dp;
          dp = dp->next;
        }
    }

  /* Enter them as files, unless they need a 2nd expansion.  */
  for (d1 = deps; d1 != 0; d1 = d1->next)
    {
      if (d1->need_2nd_expansion)
        continue;

      d1->file = lookup_file (d1->name);
      if (d1->file == 0)
        d1->file = enter_file (d1->name);
      d1->staticpattern = 0;
      d1->name = 0;
    }

  return deps;
}

/* Set the intermediate flag.  */

static void
set_intermediate (const void *item)
{
  struct file *f = (struct file *) item;
  f->intermediate = 1;
}

/* Expand and parse each dependency line. */
static void
expand_deps (struct file *f)
{
  struct dep *d;
  struct dep **dp;
  const char *file_stem = f->stem;
  int initialized = 0;

  f->updating = 0;

  /* Walk through the dependencies.  For any dependency that needs 2nd
     expansion, expand it then insert the result into the list.  */
  dp = &f->deps;
  d = f->deps;
  while (d != 0)
    {
      char *p;
      struct dep *new, *next;
      char *name = (char *)d->name;

      if (! d->name || ! d->need_2nd_expansion)
        {
          /* This one is all set already.  */
          dp = &d->next;
          d = d->next;
          continue;
        }

      /* If it's from a static pattern rule, convert the patterns into
         "$*" so they'll expand properly.  */
      if (d->staticpattern)
        {
          char *o;
          d->name = o = variable_expand ("");
          o = subst_expand (o, name, "%", "$*", 1, 2, 0);
          *o = '\0';
          free (name);
          d->name = name = xstrdup (d->name);
          d->staticpattern = 0;
        }

      /* We're going to do second expansion so initialize file variables for
         the file. Since the stem for static pattern rules comes from
         individual dep lines, we will temporarily set f->stem to d->stem.  */
      if (!initialized)
        {
          initialize_file_variables (f, 0);
          initialized = 1;
        }

      if (d->stem != 0)
        f->stem = d->stem;

      set_file_variables (f);

      p = variable_expand_for_file (d->name, f);

      if (d->stem != 0)
        f->stem = file_stem;

      /* At this point we don't need the name anymore: free it.  */
      free (name);

      /* Parse the prerequisites and enter them into the file database.  */
      new = enter_prereqs (split_prereqs (p), d->stem);

      /* If there were no prereqs here (blank!) then throw this one out.  */
      if (new == 0)
        {
          *dp = d->next;
          free_dep (d);
          d = *dp;
          continue;
        }

      /* Add newly parsed prerequisites.  */
      next = d->next;
      *dp = new;
      for (dp = &new->next, d = new->next; d != 0; dp = &d->next, d = d->next)
        ;
      *dp = next;
      d = *dp;
    }
}

/* Reset the updating flag.  */

static void
reset_updating (const void *item)
{
  struct file *f = (struct file *) item;
  f->updating = 0;
}

/* For each dependency of each file, make the `struct dep' point
   at the appropriate `struct file' (which may have to be created).

   Also mark the files depended on by .PRECIOUS, .PHONY, .SILENT,
   and various other special targets.  */

void
snap_deps (void)
{
  struct file *f;
  struct file *f2;
  struct dep *d;

  /* Remember that we've done this.  Once we start snapping deps we can no
     longer define new targets.  */
  snapped_deps = 1;

  /* Perform second expansion and enter each dependency name as a file.  We
     must use hash_dump() here because within these loops we likely add new
     files to the table, possibly causing an in-situ table expansion.

     We only need to do this if second_expansion has been defined; if it
     hasn't then all deps were expanded as the makefile was read in.  If we
     ever change make to be able to unset .SECONDARY_EXPANSION this will have
     to change.  */

  if (second_expansion)
    {
      struct file **file_slot_0 = (struct file **) hash_dump (&files, 0, 0);
      struct file **file_end = file_slot_0 + files.ht_fill;
      struct file **file_slot;
      const char *suffixes;

      /* Expand .SUFFIXES: its prerequisites are used for $$* calc.  */
      f = lookup_file (".SUFFIXES");
      suffixes = f ? f->name : 0;
      for (; f != 0; f = f->prev)
        expand_deps (f);

      /* For every target that's not .SUFFIXES, expand its prerequisites.  */

      for (file_slot = file_slot_0; file_slot < file_end; file_slot++)
        for (f = *file_slot; f != 0; f = f->prev)
          if (f->name != suffixes)
            expand_deps (f);
      free (file_slot_0);
    }
  else
    /* We're not doing second expansion, so reset updating.  */
    hash_map (&files, reset_updating);

  /* Now manage all the special targets.  */

  for (f = lookup_file (".PRECIOUS"); f != 0; f = f->prev)
    for (d = f->deps; d != 0; d = d->next)
      for (f2 = d->file; f2 != 0; f2 = f2->prev)
	f2->precious = 1;

  for (f = lookup_file (".LOW_RESOLUTION_TIME"); f != 0; f = f->prev)
    for (d = f->deps; d != 0; d = d->next)
      for (f2 = d->file; f2 != 0; f2 = f2->prev)
	f2->low_resolution_time = 1;

  for (f = lookup_file (".PHONY"); f != 0; f = f->prev)
    for (d = f->deps; d != 0; d = d->next)
      for (f2 = d->file; f2 != 0; f2 = f2->prev)
	{
	  /* Mark this file as phony nonexistent target.  */
	  f2->phony = 1;
          f2->is_target = 1;
	  f2->last_mtime = NONEXISTENT_MTIME;
	  f2->mtime_before_update = NONEXISTENT_MTIME;
	}

  for (f = lookup_file (".INTERMEDIATE"); f != 0; f = f->prev)
    /* Mark .INTERMEDIATE deps as intermediate files.  */
    for (d = f->deps; d != 0; d = d->next)
      for (f2 = d->file; f2 != 0; f2 = f2->prev)
        f2->intermediate = 1;
    /* .INTERMEDIATE with no deps does nothing.
       Marking all files as intermediates is useless since the goal targets
       would be deleted after they are built.  */

  for (f = lookup_file (".SECONDARY"); f != 0; f = f->prev)
    /* Mark .SECONDARY deps as both intermediate and secondary.  */
    if (f->deps)
      for (d = f->deps; d != 0; d = d->next)
        for (f2 = d->file; f2 != 0; f2 = f2->prev)
          f2->intermediate = f2->secondary = 1;
    /* .SECONDARY with no deps listed marks *all* files that way.  */
    else
      {
        all_secondary = 1;
        hash_map (&files, set_intermediate);
      }

  f = lookup_file (".EXPORT_ALL_VARIABLES");
  if (f != 0 && f->is_target)
    export_all_variables = 1;

  f = lookup_file (".IGNORE");
  if (f != 0 && f->is_target)
    {
      if (f->deps == 0)
	ignore_errors_flag = 1;
      else
	for (d = f->deps; d != 0; d = d->next)
	  for (f2 = d->file; f2 != 0; f2 = f2->prev)
	    f2->command_flags |= COMMANDS_NOERROR;
    }

  f = lookup_file (".SILENT");
  if (f != 0 && f->is_target)
    {
      if (f->deps == 0)
	silent_flag = 1;
      else
	for (d = f->deps; d != 0; d = d->next)
	  for (f2 = d->file; f2 != 0; f2 = f2->prev)
	    f2->command_flags |= COMMANDS_SILENT;
    }

  f = lookup_file (".NOTPARALLEL");
  if (f != 0 && f->is_target)
    not_parallel = 1;

#ifndef NO_MINUS_C_MINUS_O
  /* If .POSIX was defined, remove OUTPUT_OPTION to comply.  */
  /* This needs more work: what if the user sets this in the makefile?
  if (posix_pedantic)
    define_variable_cname ("OUTPUT_OPTION", "", o_default, 1);
  */
#endif
}

/* Set the `command_state' member of FILE and all its `also_make's.  */

void
set_command_state (struct file *file, enum cmd_state state)
{
  struct dep *d;

  file->command_state = state;

  for (d = file->also_make; d != 0; d = d->next)
    d->file->command_state = state;
}

/* Convert an external file timestamp to internal form.  */

FILE_TIMESTAMP
file_timestamp_cons (const char *fname, time_t s, int ns)
{
  int offset = ORDINARY_MTIME_MIN + (FILE_TIMESTAMP_HI_RES ? ns : 0);
  FILE_TIMESTAMP product = (FILE_TIMESTAMP) s << FILE_TIMESTAMP_LO_BITS;
  FILE_TIMESTAMP ts = product + offset;

  if (! (s <= FILE_TIMESTAMP_S (ORDINARY_MTIME_MAX)
	 && product <= ts && ts <= ORDINARY_MTIME_MAX))
    {
      char buf[FILE_TIMESTAMP_PRINT_LEN_BOUND + 1];
      ts = s <= OLD_MTIME ? ORDINARY_MTIME_MIN : ORDINARY_MTIME_MAX;
      file_timestamp_sprintf (buf, ts);
      error (NILF, _("%s: Timestamp out of range; substituting %s"),
	     fname ? fname : _("Current time"), buf);
    }

  return ts;
}

/* Return the current time as a file timestamp, setting *RESOLUTION to
   its resolution.  */
FILE_TIMESTAMP
file_timestamp_now (int *resolution)
{
  int r;
  time_t s;
  int ns;

  /* Don't bother with high-resolution clocks if file timestamps have
     only one-second resolution.  The code below should work, but it's
     not worth the hassle of debugging it on hosts where it fails.  */
#if FILE_TIMESTAMP_HI_RES
# if HAVE_CLOCK_GETTIME && defined CLOCK_REALTIME
  {
    struct timespec timespec;
    if (clock_gettime (CLOCK_REALTIME, &timespec) == 0)
      {
	r = 1;
	s = timespec.tv_sec;
	ns = timespec.tv_nsec;
	goto got_time;
      }
  }
# endif
# if HAVE_GETTIMEOFDAY
  {
    struct timeval timeval;
    if (gettimeofday (&timeval, 0) == 0)
      {
	r = 1000;
	s = timeval.tv_sec;
	ns = timeval.tv_usec * 1000;
	goto got_time;
      }
  }
# endif
#endif

  r = 1000000000;
  s = time ((time_t *) 0);
  ns = 0;

#if FILE_TIMESTAMP_HI_RES
 got_time:
#endif
  *resolution = r;
  return file_timestamp_cons (0, s, ns);
}

/* Place into the buffer P a printable representation of the file
   timestamp TS.  */
void
file_timestamp_sprintf (char *p, FILE_TIMESTAMP ts)
{
  time_t t = FILE_TIMESTAMP_S (ts);
  struct tm *tm = localtime (&t);

  if (tm)
    sprintf (p, "%04d-%02d-%02d %02d:%02d:%02d",
	     tm->tm_year + 1900, tm->tm_mon + 1, tm->tm_mday,
	     tm->tm_hour, tm->tm_min, tm->tm_sec);
  else if (t < 0)
    sprintf (p, "%ld", (long) t);
  else
    sprintf (p, "%lu", (unsigned long) t);
  p += strlen (p);

  /* Append nanoseconds as a fraction, but remove trailing zeros.  We don't
     know the actual timestamp resolution, since clock_getres applies only to
     local times, whereas this timestamp might come from a remote filesystem.
     So removing trailing zeros is the best guess that we can do.  */
  sprintf (p, ".%09d", FILE_TIMESTAMP_NS (ts));
  p += strlen (p) - 1;
  while (*p == '0')
    p--;
  p += *p != '.';

  *p = '\0';
}

/* Print the data base of files.  */

void
print_prereqs (const struct dep *deps)
{
  const struct dep *ood = 0;

  /* Print all normal dependencies; note any order-only deps.  */
  for (; deps != 0; deps = deps->next)
    if (! deps->ignore_mtime)
      printf (" %s", dep_name (deps));
    else if (! ood)
      ood = deps;

  /* Print order-only deps, if we have any.  */
  if (ood)
    {
      printf (" | %s", dep_name (ood));
      for (ood = ood->next; ood != 0; ood = ood->next)
        if (ood->ignore_mtime)
          printf (" %s", dep_name (ood));
    }

  putchar ('\n');
}

static void
print_file (const void *item)
{
  const struct file *f = item;

  putchar ('\n');

  if (f->cmds && f->cmds->recipe_prefix != cmd_prefix)
    {
      fputs (".RECIPEPREFIX = ", stdout);
      cmd_prefix = f->cmds->recipe_prefix;
      if (cmd_prefix != RECIPEPREFIX_DEFAULT)
        putchar (cmd_prefix);
      putchar ('\n');
    }

  if (f->variables != 0)
    print_target_variables (f);

  if (!f->is_target)
    puts (_("# Not a target:"));
  printf ("%s:%s", f->name, f->double_colon ? ":" : "");
  print_prereqs (f->deps);

  if (f->precious)
    puts (_("#  Precious file (prerequisite of .PRECIOUS)."));
  if (f->phony)
    puts (_("#  Phony target (prerequisite of .PHONY)."));
  if (f->cmd_target)
    puts (_("#  Command line target."));
  if (f->dontcare)
    puts (_("#  A default, MAKEFILES, or -include/sinclude makefile."));
  puts (f->tried_implicit
        ? _("#  Implicit rule search has been done.")
        : _("#  Implicit rule search has not been done."));
  if (f->stem != 0)
    printf (_("#  Implicit/static pattern stem: `%s'\n"), f->stem);
  if (f->intermediate)
    puts (_("#  File is an intermediate prerequisite."));
  if (f->also_make != 0)
    {
      const struct dep *d;
      fputs (_("#  Also makes:"), stdout);
      for (d = f->also_make; d != 0; d = d->next)
	printf (" %s", dep_name (d));
      putchar ('\n');
    }
  if (f->last_mtime == UNKNOWN_MTIME)
    puts (_("#  Modification time never checked."));
  else if (f->last_mtime == NONEXISTENT_MTIME)
    puts (_("#  File does not exist."));
  else if (f->last_mtime == OLD_MTIME)
    puts (_("#  File is very old."));
  else
    {
      char buf[FILE_TIMESTAMP_PRINT_LEN_BOUND + 1];
      file_timestamp_sprintf (buf, f->last_mtime);
      printf (_("#  Last modified %s\n"), buf);
    }
  puts (f->updated
        ? _("#  File has been updated.") : _("#  File has not been updated."));
  switch (f->command_state)
    {
    case cs_running:
      puts (_("#  Recipe currently running (THIS IS A BUG)."));
      break;
    case cs_deps_running:
      puts (_("#  Dependencies recipe running (THIS IS A BUG)."));
      break;
    case cs_not_started:
    case cs_finished:
      switch (f->update_status)
	{
	case -1:
	  break;
	case 0:
	  puts (_("#  Successfully updated."));
	  break;
	case 1:
	  assert (question_flag);
	  puts (_("#  Needs to be updated (-q is set)."));
	  break;
	case 2:
	  puts (_("#  Failed to be updated."));
	  break;
	default:
	  puts (_("#  Invalid value in `update_status' member!"));
	  fflush (stdout);
	  fflush (stderr);
	  abort ();
	}
      break;
    default:
      puts (_("#  Invalid value in `command_state' member!"));
      fflush (stdout);
      fflush (stderr);
      abort ();
    }

  if (f->variables != 0)
    print_file_variables (f);

  if (f->cmds != 0)
    print_commands (f->cmds);

  if (f->prev)
    print_file ((const void *) f->prev);
}

void
print_file_data_base (void)
{
  puts (_("\n# Files"));

  hash_map (&files, print_file);

  fputs (_("\n# files hash-table stats:\n# "), stdout);
  hash_print_stats (&files, stdout);
}

/* Verify the integrity of the data base of files.  */

#define VERIFY_CACHED(_p,_n) \
    do{\
        if (_p->_n && _p->_n[0] && !strcache_iscached (_p->_n)) \
          error (NULL, "%s: Field '%s' not cached: %s\n", _p->name, # _n, _p->_n); \
    }while(0)

static void
verify_file (const void *item)
{
  const struct file *f = item;
  const struct dep *d;

  VERIFY_CACHED (f, name);
  VERIFY_CACHED (f, hname);
  VERIFY_CACHED (f, vpath);
  VERIFY_CACHED (f, stem);

  /* Check the deps.  */
  for (d = f->deps; d != 0; d = d->next)
    {
      if (! d->need_2nd_expansion)
        VERIFY_CACHED (d, name);
      VERIFY_CACHED (d, stem);
    }
}

void
verify_file_data_base (void)
{
  hash_map (&files, verify_file);
}

#define EXPANSION_INCREMENT(_l)  ((((_l) / 500) + 1) * 500)

char *
build_target_list (char *value)
{
  static unsigned long last_targ_count = 0;

  if (files.ht_fill != last_targ_count)
    {
      unsigned long max = EXPANSION_INCREMENT (strlen (value));
      unsigned long len;
      char *p;
      struct file **fp = (struct file **) files.ht_vec;
      struct file **end = &fp[files.ht_size];

      /* Make sure we have at least MAX bytes in the allocated buffer.  */
      value = xrealloc (value, max);

      p = value;
      len = 0;
      for (; fp < end; ++fp)
        if (!HASH_VACANT (*fp) && (*fp)->is_target)
          {
            struct file *f = *fp;
            int l = strlen (f->name);

            len += l + 1;
            if (len > max)
              {
                unsigned long off = p - value;

                max += EXPANSION_INCREMENT (l + 1);
                value = xrealloc (value, max);
                p = &value[off];
              }

            memcpy (p, f->name, l);
            p += l;
            *(p++) = ' ';
          }
      *(p-1) = '\0';

      last_targ_count = files.ht_fill;
    }

  return value;
}

void
init_hash_files (void)
{
  hash_init (&files, 1000, file_hash_1, file_hash_2, file_hash_cmp);
}

/* EOF */