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[netbsd-mini2440.git] / gnu / dist / gmake / read.c
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1 /* Reading and parsing of makefiles for GNU Make.
2 Copyright (C) 1988, 1989, 1990, 1991, 1992, 1993, 1994, 1995, 1996, 1997,
3 2002 Free Software Foundation, Inc.
4 This file is part of GNU Make.
6 GNU Make is free software; you can redistribute it and/or modify
7 it under the terms of the GNU General Public License as published by
8 the Free Software Foundation; either version 2, or (at your option)
9 any later version.
11 GNU Make is distributed in the hope that it will be useful,
12 but WITHOUT ANY WARRANTY; without even the implied warranty of
13 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 GNU General Public License for more details.
16 You should have received a copy of the GNU General Public License
17 along with GNU Make; see the file COPYING. If not, write to
18 the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
19 Boston, MA 02111-1307, USA. */
21 #include "make.h"
23 #include <assert.h>
25 #include <glob.h>
27 #include "dep.h"
28 #include "filedef.h"
29 #include "job.h"
30 #include "commands.h"
31 #include "variable.h"
32 #include "rule.h"
33 #include "debug.h"
34 #include "hash.h"
37 #ifndef WINDOWS32
38 #ifndef _AMIGA
39 #ifndef VMS
40 #include <pwd.h>
41 #else
42 struct passwd *getpwnam PARAMS ((char *name));
43 #endif
44 #endif
45 #endif /* !WINDOWS32 */
47 /* A 'struct ebuffer' controls the origin of the makefile we are currently
48 eval'ing.
51 struct ebuffer
53 char *buffer; /* Start of the current line in the buffer. */
54 char *bufnext; /* Start of the next line in the buffer. */
55 char *bufstart; /* Start of the entire buffer. */
56 unsigned int size; /* Malloc'd size of buffer. */
57 FILE *fp; /* File, or NULL if this is an internal buffer. */
58 struct floc floc; /* Info on the file in fp (if any). */
61 /* Types of "words" that can be read in a makefile. */
62 enum make_word_type
64 w_bogus, w_eol, w_static, w_variable, w_colon, w_dcolon, w_semicolon,
65 w_varassign
69 /* A `struct conditionals' contains the information describing
70 all the active conditionals in a makefile.
72 The global variable `conditionals' contains the conditionals
73 information for the current makefile. It is initialized from
74 the static structure `toplevel_conditionals' and is later changed
75 to new structures for included makefiles. */
77 struct conditionals
79 unsigned int if_cmds; /* Depth of conditional nesting. */
80 unsigned int allocated; /* Elts allocated in following arrays. */
81 char *ignoring; /* Are we ignoring or interepreting? */
82 char *seen_else; /* Have we already seen an `else'? */
85 static struct conditionals toplevel_conditionals;
86 static struct conditionals *conditionals = &toplevel_conditionals;
89 /* Default directories to search for include files in */
91 static char *default_include_directories[] =
93 #if defined(WINDOWS32) && !defined(INCLUDEDIR)
95 * This completely up to the user when they install MSVC or other packages.
96 * This is defined as a placeholder.
98 #define INCLUDEDIR "."
99 #endif
100 INCLUDEDIR,
101 #ifndef _AMIGA
102 "/usr/gnu/include",
103 "/usr/local/include",
104 "/usr/include",
105 #endif
109 /* List of directories to search for include files in */
111 static char **include_directories;
113 /* Maximum length of an element of the above. */
115 static unsigned int max_incl_len;
117 /* The filename and pointer to line number of the
118 makefile currently being read in. */
120 const struct floc *reading_file = 0;
122 /* The chain of makefiles read by read_makefile. */
124 static struct dep *read_makefiles = 0;
126 static int eval_makefile PARAMS ((char *filename, int flags));
127 static int eval PARAMS ((struct ebuffer *buffer, int flags));
129 static long readline PARAMS ((struct ebuffer *ebuf));
130 static void do_define PARAMS ((char *name, unsigned int namelen,
131 enum variable_origin origin,
132 struct ebuffer *ebuf));
133 static int conditional_line PARAMS ((char *line, const struct floc *flocp));
134 static void record_files PARAMS ((struct nameseq *filenames, char *pattern, char *pattern_percent,
135 struct dep *deps, unsigned int cmds_started, char *commands,
136 unsigned int commands_idx, int two_colon,
137 int have_sysv_atvar,
138 const struct floc *flocp, int set_default));
139 static void record_target_var PARAMS ((struct nameseq *filenames, char *defn,
140 int two_colon,
141 enum variable_origin origin,
142 const struct floc *flocp));
143 static enum make_word_type get_next_mword PARAMS ((char *buffer, char *delim,
144 char **startp, unsigned int *length));
146 /* Read in all the makefiles and return the chain of their names. */
148 struct dep *
149 read_all_makefiles (makefiles)
150 char **makefiles;
152 unsigned int num_makefiles = 0;
154 /* Create *_LIST variables, to hold the makefiles, targets, and variables
155 we will be reading. */
157 define_variable ("MAKEFILE_LIST", sizeof ("MAKEFILE_LIST")-1, "", o_file, 0);
159 DB (DB_BASIC, (_("Reading makefiles...\n")));
161 /* If there's a non-null variable MAKEFILES, its value is a list of
162 files to read first thing. But don't let it prevent reading the
163 default makefiles and don't let the default goal come from there. */
166 char *value;
167 char *name, *p;
168 unsigned int length;
171 /* Turn off --warn-undefined-variables while we expand MAKEFILES. */
172 int save = warn_undefined_variables_flag;
173 warn_undefined_variables_flag = 0;
175 value = allocated_variable_expand ("$(MAKEFILES)");
177 warn_undefined_variables_flag = save;
180 /* Set NAME to the start of next token and LENGTH to its length.
181 MAKEFILES is updated for finding remaining tokens. */
182 p = value;
184 while ((name = find_next_token (&p, &length)) != 0)
186 if (*p != '\0')
187 *p++ = '\0';
188 name = xstrdup (name);
189 if (eval_makefile (name,
190 RM_NO_DEFAULT_GOAL|RM_INCLUDED|RM_DONTCARE) < 2)
191 free (name);
194 free (value);
197 /* Read makefiles specified with -f switches. */
199 if (makefiles != 0)
200 while (*makefiles != 0)
202 struct dep *tail = read_makefiles;
203 register struct dep *d;
205 if (! eval_makefile (*makefiles, 0))
206 perror_with_name ("", *makefiles);
208 /* Find the right element of read_makefiles. */
209 d = read_makefiles;
210 while (d->next != tail)
211 d = d->next;
213 /* Use the storage read_makefile allocates. */
214 *makefiles = dep_name (d);
215 ++num_makefiles;
216 ++makefiles;
219 /* If there were no -f switches, try the default names. */
221 if (num_makefiles == 0)
223 static char *default_makefiles[] =
224 #ifdef VMS
225 /* all lower case since readdir() (the vms version) 'lowercasifies' */
226 { "makefile.vms", "gnumakefile.", "makefile.", 0 };
227 #else
228 #ifdef _AMIGA
229 { "GNUmakefile", "Makefile", "SMakefile", 0 };
230 #else /* !Amiga && !VMS */
231 { "GNUmakefile", "makefile", "Makefile", 0 };
232 #endif /* AMIGA */
233 #endif /* VMS */
234 register char **p = default_makefiles;
235 while (*p != 0 && !file_exists_p (*p))
236 ++p;
238 if (*p != 0)
240 if (! eval_makefile (*p, 0))
241 perror_with_name ("", *p);
243 else
245 /* No default makefile was found. Add the default makefiles to the
246 `read_makefiles' chain so they will be updated if possible. */
247 struct dep *tail = read_makefiles;
248 /* Add them to the tail, after any MAKEFILES variable makefiles. */
249 while (tail != 0 && tail->next != 0)
250 tail = tail->next;
251 for (p = default_makefiles; *p != 0; ++p)
253 struct dep *d = (struct dep *) xmalloc (sizeof (struct dep));
254 d->name = 0;
255 d->file = enter_file (*p);
256 d->file->dontcare = 1;
257 d->ignore_mtime = 0;
258 /* Tell update_goal_chain to bail out as soon as this file is
259 made, and main not to die if we can't make this file. */
260 d->changed = RM_DONTCARE;
261 if (tail == 0)
262 read_makefiles = d;
263 else
264 tail->next = d;
265 tail = d;
267 if (tail != 0)
268 tail->next = 0;
272 return read_makefiles;
275 static int
276 eval_makefile (filename, flags)
277 char *filename;
278 int flags;
280 struct dep *deps;
281 struct ebuffer ebuf;
282 const struct floc *curfile;
283 int makefile_errno;
284 int r;
286 ebuf.floc.filenm = filename;
287 ebuf.floc.lineno = 1;
289 if (ISDB (DB_VERBOSE))
291 printf (_("Reading makefile `%s'"), filename);
292 if (flags & RM_NO_DEFAULT_GOAL)
293 printf (_(" (no default goal)"));
294 if (flags & RM_INCLUDED)
295 printf (_(" (search path)"));
296 if (flags & RM_DONTCARE)
297 printf (_(" (don't care)"));
298 if (flags & RM_NO_TILDE)
299 printf (_(" (no ~ expansion)"));
300 puts ("...");
303 /* First, get a stream to read. */
305 /* Expand ~ in FILENAME unless it came from `include',
306 in which case it was already done. */
307 if (!(flags & RM_NO_TILDE) && filename[0] == '~')
309 char *expanded = tilde_expand (filename);
310 if (expanded != 0)
311 filename = expanded;
314 ebuf.fp = fopen (filename, "r");
315 /* Save the error code so we print the right message later. */
316 makefile_errno = errno;
318 /* If the makefile wasn't found and it's either a makefile from
319 the `MAKEFILES' variable or an included makefile,
320 search the included makefile search path for this makefile. */
321 if (ebuf.fp == 0 && (flags & RM_INCLUDED) && *filename != '/')
323 register unsigned int i;
324 for (i = 0; include_directories[i] != 0; ++i)
326 char *name = concat (include_directories[i], "/", filename);
327 ebuf.fp = fopen (name, "r");
328 if (ebuf.fp == 0)
329 free (name);
330 else
332 filename = name;
333 break;
338 /* Add FILENAME to the chain of read makefiles. */
339 deps = (struct dep *) xmalloc (sizeof (struct dep));
340 deps->next = read_makefiles;
341 read_makefiles = deps;
342 deps->name = 0;
343 deps->file = lookup_file (filename);
344 if (deps->file == 0)
346 deps->file = enter_file (xstrdup (filename));
347 if (flags & RM_DONTCARE)
348 deps->file->dontcare = 1;
350 if (filename != ebuf.floc.filenm)
351 free (filename);
352 filename = deps->file->name;
353 deps->changed = flags;
354 deps->ignore_mtime = 0;
356 /* If the makefile can't be found at all, give up entirely. */
358 if (ebuf.fp == 0)
360 /* If we did some searching, errno has the error from the last
361 attempt, rather from FILENAME itself. Restore it in case the
362 caller wants to use it in a message. */
363 errno = makefile_errno;
364 return 0;
367 /* Add this makefile to the list. */
368 do_variable_definition (&ebuf.floc, "MAKEFILE_LIST", filename, o_file,
369 f_append, 0);
371 /* Evaluate the makefile */
373 ebuf.size = 200;
374 ebuf.buffer = ebuf.bufnext = ebuf.bufstart = xmalloc (ebuf.size);
376 curfile = reading_file;
377 reading_file = &ebuf.floc;
379 r = eval (&ebuf, !(flags & RM_NO_DEFAULT_GOAL));
381 reading_file = curfile;
383 fclose (ebuf.fp);
385 free (ebuf.bufstart);
386 return r;
390 eval_buffer (buffer)
391 char *buffer;
393 struct ebuffer ebuf;
394 const struct floc *curfile;
395 int r;
397 /* Evaluate the buffer */
399 ebuf.size = strlen (buffer);
400 ebuf.buffer = ebuf.bufnext = ebuf.bufstart = buffer;
401 ebuf.fp = NULL;
403 ebuf.floc = *reading_file;
405 curfile = reading_file;
406 reading_file = &ebuf.floc;
408 r = eval (&ebuf, 1);
410 reading_file = curfile;
412 return r;
416 /* Read file FILENAME as a makefile and add its contents to the data base.
418 SET_DEFAULT is true if we are allowed to set the default goal.
420 FILENAME is added to the `read_makefiles' chain.
422 Returns 0 if a file was not found or not read.
423 Returns 1 if FILENAME was found and read.
424 Returns 2 if FILENAME was read, and we kept a reference (don't free it). */
426 static int
427 eval (ebuf, set_default)
428 struct ebuffer *ebuf;
429 int set_default;
431 static char *collapsed = 0;
432 static unsigned int collapsed_length = 0;
433 unsigned int commands_len = 200;
434 char *commands;
435 unsigned int commands_idx = 0;
436 unsigned int cmds_started, tgts_started;
437 int ignoring = 0, in_ignored_define = 0;
438 int no_targets = 0; /* Set when reading a rule without targets. */
439 int have_sysv_atvar = 0;
440 struct nameseq *filenames = 0;
441 struct dep *deps = 0;
442 long nlines = 0;
443 int two_colon = 0;
444 char *pattern = 0, *pattern_percent;
445 struct floc *fstart;
446 struct floc fi;
448 #define record_waiting_files() \
449 do \
451 if (filenames != 0) \
453 fi.lineno = tgts_started; \
454 record_files (filenames, pattern, pattern_percent, deps, \
455 cmds_started, commands, commands_idx, two_colon, \
456 have_sysv_atvar, &fi, set_default); \
458 filenames = 0; \
459 commands_idx = 0; \
460 no_targets = 0; \
461 if (pattern) { free(pattern); pattern = 0; } \
462 } while (0)
464 pattern_percent = 0;
465 cmds_started = tgts_started = 1;
467 fstart = &ebuf->floc;
468 fi.filenm = ebuf->floc.filenm;
470 /* Loop over lines in the file.
471 The strategy is to accumulate target names in FILENAMES, dependencies
472 in DEPS and commands in COMMANDS. These are used to define a rule
473 when the start of the next rule (or eof) is encountered.
475 When you see a "continue" in the loop below, that means we are moving on
476 to the next line _without_ ending any rule that we happen to be working
477 with at the moment. If you see a "goto rule_complete", then the
478 statement we just parsed also finishes the previous rule. */
480 commands = xmalloc (200);
482 while (1)
484 int linelen;
485 char *line;
486 int len;
487 char *p;
488 char *p2;
490 /* Grab the next line to be evaluated */
491 ebuf->floc.lineno += nlines;
492 nlines = readline (ebuf);
494 /* If there is nothing left to eval, we're done. */
495 if (nlines < 0)
496 break;
498 /* If this line is empty, skip it. */
499 line = ebuf->buffer;
500 if (line[0] == '\0')
501 continue;
503 linelen = strlen (line);
505 /* Check for a shell command line first.
506 If it is not one, we can stop treating tab specially. */
507 if (line[0] == '\t')
509 if (no_targets)
510 /* Ignore the commands in a rule with no targets. */
511 continue;
513 /* If there is no preceding rule line, don't treat this line
514 as a command, even though it begins with a tab character.
515 SunOS 4 make appears to behave this way. */
517 if (filenames != 0)
519 if (ignoring)
520 /* Yep, this is a shell command, and we don't care. */
521 continue;
523 /* Append this command line to the line being accumulated. */
524 if (commands_idx == 0)
525 cmds_started = ebuf->floc.lineno;
527 if (linelen + 1 + commands_idx > commands_len)
529 commands_len = (linelen + 1 + commands_idx) * 2;
530 commands = xrealloc (commands, commands_len);
532 bcopy (line, &commands[commands_idx], linelen);
533 commands_idx += linelen;
534 commands[commands_idx++] = '\n';
536 continue;
540 /* This line is not a shell command line. Don't worry about tabs. */
542 if (collapsed_length < linelen+1)
544 collapsed_length = linelen+1;
545 if (collapsed != 0)
546 free (collapsed);
547 collapsed = (char *) xmalloc (collapsed_length);
549 strcpy (collapsed, line);
550 /* Collapse continuation lines. */
551 collapse_continuations (collapsed);
552 remove_comments (collapsed);
554 /* Compare a word, both length and contents. */
555 #define word1eq(s) (len == sizeof(s)-1 && strneq (s, p, sizeof(s)-1))
556 p = collapsed;
557 while (isspace ((unsigned char)*p))
558 ++p;
560 if (*p == '\0')
561 /* This line is completely empty--ignore it. */
562 continue;
564 /* Find the end of the first token. Note we don't need to worry about
565 * ":" here since we compare tokens by length (so "export" will never
566 * be equal to "export:").
568 for (p2 = p+1; *p2 != '\0' && !isspace ((unsigned char)*p2); ++p2)
570 len = p2 - p;
572 /* Find the start of the second token. If it looks like a target or
573 variable definition it can't be a preprocessor token so skip
574 them--this allows variables/targets named `ifdef', `export', etc. */
575 while (isspace ((unsigned char)*p2))
576 ++p2;
578 if ((p2[0] == ':' || p2[0] == '+' || p2[0] == '=') && p2[1] == '\0')
580 /* It can't be a preprocessor token so skip it if we're ignoring */
581 if (ignoring)
582 continue;
584 goto skip_conditionals;
587 /* We must first check for conditional and `define' directives before
588 ignoring anything, since they control what we will do with
589 following lines. */
591 if (!in_ignored_define
592 && (word1eq ("ifdef") || word1eq ("ifndef")
593 || word1eq ("ifeq") || word1eq ("ifneq")
594 || word1eq ("else") || word1eq ("endif")))
596 int i = conditional_line (p, fstart);
597 if (i < 0)
598 fatal (fstart, _("invalid syntax in conditional"));
600 ignoring = i;
601 continue;
604 if (word1eq ("endef"))
606 if (!in_ignored_define)
607 fatal (fstart, _("extraneous `endef'"));
608 in_ignored_define = 0;
609 continue;
612 if (word1eq ("define"))
614 if (ignoring)
615 in_ignored_define = 1;
616 else
618 if (*p2 == '\0')
619 fatal (fstart, _("empty variable name"));
621 /* Let the variable name be the whole rest of the line,
622 with trailing blanks stripped (comments have already been
623 removed), so it could be a complex variable/function
624 reference that might contain blanks. */
625 p = strchr (p2, '\0');
626 while (isblank ((unsigned char)p[-1]))
627 --p;
628 do_define (p2, p - p2, o_file, ebuf);
630 continue;
633 if (word1eq ("override"))
635 if (*p2 == '\0')
636 error (fstart, _("empty `override' directive"));
638 if (strneq (p2, "define", 6)
639 && (isblank ((unsigned char)p2[6]) || p2[6] == '\0'))
641 if (ignoring)
642 in_ignored_define = 1;
643 else
645 p2 = next_token (p2 + 6);
646 if (*p2 == '\0')
647 fatal (fstart, _("empty variable name"));
649 /* Let the variable name be the whole rest of the line,
650 with trailing blanks stripped (comments have already been
651 removed), so it could be a complex variable/function
652 reference that might contain blanks. */
653 p = strchr (p2, '\0');
654 while (isblank ((unsigned char)p[-1]))
655 --p;
656 do_define (p2, p - p2, o_override, ebuf);
659 else if (!ignoring
660 && !try_variable_definition (fstart, p2, o_override, 0))
661 error (fstart, _("invalid `override' directive"));
663 continue;
666 if (ignoring)
667 /* Ignore the line. We continue here so conditionals
668 can appear in the middle of a rule. */
669 continue;
671 if (word1eq ("export"))
673 /* 'export' by itself causes everything to be exported. */
674 if (*p2 == '\0')
675 export_all_variables = 1;
676 else
678 struct variable *v;
680 v = try_variable_definition (fstart, p2, o_file, 0);
681 if (v != 0)
682 v->export = v_export;
683 else
685 unsigned int len;
686 char *ap;
688 /* Expand the line so we can use indirect and constructed
689 variable names in an export command. */
690 p2 = ap = allocated_variable_expand (p2);
692 for (p = find_next_token (&p2, &len); p != 0;
693 p = find_next_token (&p2, &len))
695 v = lookup_variable (p, len);
696 if (v == 0)
697 v = define_variable_loc (p, len, "", o_file, 0,
698 fstart);
699 v->export = v_export;
702 free (ap);
705 goto rule_complete;
708 if (word1eq ("unexport"))
710 if (*p2 == '\0')
711 export_all_variables = 0;
712 else
714 unsigned int len;
715 struct variable *v;
716 char *ap;
718 /* Expand the line so we can use indirect and constructed
719 variable names in an unexport command. */
720 p2 = ap = allocated_variable_expand (p2);
722 for (p = find_next_token (&p2, &len); p != 0;
723 p = find_next_token (&p2, &len))
725 v = lookup_variable (p, len);
726 if (v == 0)
727 v = define_variable_loc (p, len, "", o_file, 0, fstart);
729 v->export = v_noexport;
732 free (ap);
734 goto rule_complete;
737 skip_conditionals:
738 if (word1eq ("vpath"))
740 char *pattern;
741 unsigned int len;
742 p2 = variable_expand (p2);
743 p = find_next_token (&p2, &len);
744 if (p != 0)
746 pattern = savestring (p, len);
747 p = find_next_token (&p2, &len);
748 /* No searchpath means remove all previous
749 selective VPATH's with the same pattern. */
751 else
752 /* No pattern means remove all previous selective VPATH's. */
753 pattern = 0;
754 construct_vpath_list (pattern, p);
755 if (pattern != 0)
756 free (pattern);
758 goto rule_complete;
761 if (word1eq ("include") || word1eq ("-include") || word1eq ("sinclude"))
763 /* We have found an `include' line specifying a nested
764 makefile to be read at this point. */
765 struct conditionals *save;
766 struct conditionals new_conditionals;
767 struct nameseq *files;
768 /* "-include" (vs "include") says no error if the file does not
769 exist. "sinclude" is an alias for this from SGI. */
770 int noerror = (p[0] != 'i');
772 p = allocated_variable_expand (p2);
773 if (*p == '\0')
775 error (fstart,
776 _("no file name for `%sinclude'"), noerror ? "-" : "");
777 continue;
780 /* Parse the list of file names. */
781 p2 = p;
782 files = multi_glob (parse_file_seq (&p2, '\0',
783 sizeof (struct nameseq),
785 sizeof (struct nameseq));
786 free (p);
788 /* Save the state of conditionals and start
789 the included makefile with a clean slate. */
790 save = conditionals;
791 bzero ((char *) &new_conditionals, sizeof new_conditionals);
792 conditionals = &new_conditionals;
794 /* Record the rules that are waiting so they will determine
795 the default goal before those in the included makefile. */
796 record_waiting_files ();
798 /* Read each included makefile. */
799 while (files != 0)
801 struct nameseq *next = files->next;
802 char *name = files->name;
803 int r;
805 free ((char *)files);
806 files = next;
808 r = eval_makefile (name, (RM_INCLUDED | RM_NO_TILDE
809 | (noerror ? RM_DONTCARE : 0)));
810 if (!r)
812 if (!noerror)
813 error (fstart, "%s: %s", name, strerror (errno));
814 free (name);
818 /* Free any space allocated by conditional_line. */
819 if (conditionals->ignoring)
820 free (conditionals->ignoring);
821 if (conditionals->seen_else)
822 free (conditionals->seen_else);
824 /* Restore state. */
825 conditionals = save;
827 goto rule_complete;
830 if (try_variable_definition (fstart, p, o_file, 0))
831 /* This line has been dealt with. */
832 goto rule_complete;
834 if (line[0] == '\t')
836 p = collapsed; /* Ignore comments, etc. */
837 while (isblank ((unsigned char)*p))
838 ++p;
839 if (*p == '\0')
840 /* The line is completely blank; that is harmless. */
841 continue;
843 /* This line starts with a tab but was not caught above
844 because there was no preceding target, and the line
845 might have been usable as a variable definition.
846 But now we know it is definitely lossage. */
847 fatal(fstart, _("commands commence before first target"));
850 /* This line describes some target files. This is complicated by
851 the existence of target-specific variables, because we can't
852 expand the entire line until we know if we have one or not. So
853 we expand the line word by word until we find the first `:',
854 then check to see if it's a target-specific variable.
856 In this algorithm, `lb_next' will point to the beginning of the
857 unexpanded parts of the input buffer, while `p2' points to the
858 parts of the expanded buffer we haven't searched yet. */
861 enum make_word_type wtype;
862 enum variable_origin v_origin;
863 char *cmdleft, *semip, *lb_next;
864 unsigned int len, plen = 0;
865 char *colonp;
867 /* Record the previous rule. */
869 record_waiting_files ();
870 tgts_started = fstart->lineno;
872 /* Search the line for an unquoted ; that is not after an
873 unquoted #. */
874 cmdleft = find_char_unquote (line, ';', '#', 0);
875 if (cmdleft != 0 && *cmdleft == '#')
877 /* We found a comment before a semicolon. */
878 *cmdleft = '\0';
879 cmdleft = 0;
881 else if (cmdleft != 0)
882 /* Found one. Cut the line short there before expanding it. */
883 *(cmdleft++) = '\0';
884 semip = cmdleft;
886 collapse_continuations (line);
888 /* We can't expand the entire line, since if it's a per-target
889 variable we don't want to expand it. So, walk from the
890 beginning, expanding as we go, and looking for "interesting"
891 chars. The first word is always expandable. */
892 wtype = get_next_mword(line, NULL, &lb_next, &len);
893 switch (wtype)
895 case w_eol:
896 if (cmdleft != 0)
897 fatal(fstart, _("missing rule before commands"));
898 /* This line contained something but turned out to be nothing
899 but whitespace (a comment?). */
900 continue;
902 case w_colon:
903 case w_dcolon:
904 /* We accept and ignore rules without targets for
905 compatibility with SunOS 4 make. */
906 no_targets = 1;
907 continue;
909 default:
910 break;
913 p2 = variable_expand_string(NULL, lb_next, len);
914 while (1)
916 lb_next += len;
917 if (cmdleft == 0)
919 /* Look for a semicolon in the expanded line. */
920 cmdleft = find_char_unquote (p2, ';', 0, 0);
922 if (cmdleft != 0)
924 unsigned long p2_off = p2 - variable_buffer;
925 unsigned long cmd_off = cmdleft - variable_buffer;
926 char *pend = p2 + strlen(p2);
928 /* Append any remnants of lb, then cut the line short
929 at the semicolon. */
930 *cmdleft = '\0';
932 /* One school of thought says that you shouldn't expand
933 here, but merely copy, since now you're beyond a ";"
934 and into a command script. However, the old parser
935 expanded the whole line, so we continue that for
936 backwards-compatiblity. Also, it wouldn't be
937 entirely consistent, since we do an unconditional
938 expand below once we know we don't have a
939 target-specific variable. */
940 (void)variable_expand_string(pend, lb_next, (long)-1);
941 lb_next += strlen(lb_next);
942 p2 = variable_buffer + p2_off;
943 cmdleft = variable_buffer + cmd_off + 1;
947 colonp = find_char_unquote(p2, ':', 0, 0);
948 #ifdef HAVE_DOS_PATHS
949 /* The drive spec brain-damage strikes again... */
950 /* Note that the only separators of targets in this context
951 are whitespace and a left paren. If others are possible,
952 they should be added to the string in the call to index. */
953 while (colonp && (colonp[1] == '/' || colonp[1] == '\\') &&
954 colonp > p2 && isalpha ((unsigned char)colonp[-1]) &&
955 (colonp == p2 + 1 || strchr (" \t(", colonp[-2]) != 0))
956 colonp = find_char_unquote(colonp + 1, ':', 0, 0);
957 #endif
958 if (colonp != 0)
959 break;
961 wtype = get_next_mword(lb_next, NULL, &lb_next, &len);
962 if (wtype == w_eol)
963 break;
965 p2 += strlen(p2);
966 *(p2++) = ' ';
967 p2 = variable_expand_string(p2, lb_next, len);
968 /* We don't need to worry about cmdleft here, because if it was
969 found in the variable_buffer the entire buffer has already
970 been expanded... we'll never get here. */
973 p2 = next_token (variable_buffer);
975 /* If the word we're looking at is EOL, see if there's _anything_
976 on the line. If not, a variable expanded to nothing, so ignore
977 it. If so, we can't parse this line so punt. */
978 if (wtype == w_eol)
980 if (*p2 != '\0')
981 /* There's no need to be ivory-tower about this: check for
982 one of the most common bugs found in makefiles... */
983 fatal (fstart, _("missing separator%s"),
984 !strneq(line, " ", 8) ? ""
985 : _(" (did you mean TAB instead of 8 spaces?)"));
986 continue;
989 /* Make the colon the end-of-string so we know where to stop
990 looking for targets. */
991 *colonp = '\0';
992 filenames = multi_glob (parse_file_seq (&p2, '\0',
993 sizeof (struct nameseq),
995 sizeof (struct nameseq));
996 *p2 = ':';
998 if (!filenames)
1000 /* We accept and ignore rules without targets for
1001 compatibility with SunOS 4 make. */
1002 no_targets = 1;
1003 continue;
1005 /* This should never be possible; we handled it above. */
1006 assert (*p2 != '\0');
1007 ++p2;
1009 /* Is this a one-colon or two-colon entry? */
1010 two_colon = *p2 == ':';
1011 if (two_colon)
1012 p2++;
1014 /* Test to see if it's a target-specific variable. Copy the rest
1015 of the buffer over, possibly temporarily (we'll expand it later
1016 if it's not a target-specific variable). PLEN saves the length
1017 of the unparsed section of p2, for later. */
1018 if (*lb_next != '\0')
1020 unsigned int l = p2 - variable_buffer;
1021 plen = strlen (p2);
1022 (void) variable_buffer_output (p2+plen,
1023 lb_next, strlen (lb_next)+1);
1024 p2 = variable_buffer + l;
1027 /* See if it's an "override" keyword; if so see if what comes after
1028 it looks like a variable definition. */
1030 wtype = get_next_mword (p2, NULL, &p, &len);
1032 v_origin = o_file;
1033 if (wtype == w_static && word1eq ("override"))
1035 v_origin = o_override;
1036 wtype = get_next_mword (p+len, NULL, &p, &len);
1039 if (wtype != w_eol)
1040 wtype = get_next_mword (p+len, NULL, NULL, NULL);
1042 if (wtype == w_varassign)
1044 /* If there was a semicolon found, add it back, plus anything
1045 after it. */
1046 if (semip)
1048 *(--semip) = ';';
1049 variable_buffer_output (p2 + strlen (p2),
1050 semip, strlen (semip)+1);
1052 record_target_var (filenames, p, two_colon, v_origin, fstart);
1053 filenames = 0;
1054 continue;
1057 /* This is a normal target, _not_ a target-specific variable.
1058 Unquote any = in the dependency list. */
1059 find_char_unquote (lb_next, '=', 0, 0);
1061 /* We have some targets, so don't ignore the following commands. */
1062 no_targets = 0;
1064 /* Expand the dependencies, etc. */
1065 if (*lb_next != '\0')
1067 unsigned int l = p2 - variable_buffer;
1068 (void) variable_expand_string (p2 + plen, lb_next, (long)-1);
1069 p2 = variable_buffer + l;
1071 /* Look for a semicolon in the expanded line. */
1072 if (cmdleft == 0)
1074 cmdleft = find_char_unquote (p2, ';', 0, 0);
1075 if (cmdleft != 0)
1076 *(cmdleft++) = '\0';
1080 /* Do any of the prerequisites appear to have $@ etc.? */
1081 have_sysv_atvar = 0;
1082 if (!posix_pedantic)
1083 for (p = strchr (p2, '$'); p != 0; p = strchr (p+1, '$'))
1084 if (p[1] == '@' || (p[1] == '(' && p[2] == '@'))
1086 have_sysv_atvar = 1;
1087 break;
1090 /* Is this a static pattern rule: `target: %targ: %dep; ...'? */
1091 p = strchr (p2, ':');
1092 while (p != 0 && p[-1] == '\\')
1094 register char *q = &p[-1];
1095 register int backslash = 0;
1096 while (*q-- == '\\')
1097 backslash = !backslash;
1098 if (backslash)
1099 p = strchr (p + 1, ':');
1100 else
1101 break;
1103 #ifdef _AMIGA
1104 /* Here, the situation is quite complicated. Let's have a look
1105 at a couple of targets:
1107 install: dev:make
1109 dev:make: make
1111 dev:make:: xyz
1113 The rule is that it's only a target, if there are TWO :'s
1114 OR a space around the :.
1116 if (p && !(isspace ((unsigned char)p[1]) || !p[1]
1117 || isspace ((unsigned char)p[-1])))
1118 p = 0;
1119 #endif
1120 #ifdef HAVE_DOS_PATHS
1122 int check_again;
1124 do {
1125 check_again = 0;
1126 /* For DOS paths, skip a "C:\..." or a "C:/..." */
1127 if (p != 0 && (p[1] == '\\' || p[1] == '/') &&
1128 isalpha ((unsigned char)p[-1]) &&
1129 (p == p2 + 1 || strchr (" \t:(", p[-2]) != 0)) {
1130 p = strchr (p + 1, ':');
1131 check_again = 1;
1133 } while (check_again);
1135 #endif
1136 if (p != 0)
1138 struct nameseq *target;
1139 target = parse_file_seq (&p2, ':', sizeof (struct nameseq), 1);
1140 ++p2;
1141 if (target == 0)
1142 fatal (fstart, _("missing target pattern"));
1143 else if (target->next != 0)
1144 fatal (fstart, _("multiple target patterns"));
1145 pattern = target->name;
1146 pattern_percent = find_percent (pattern);
1147 if (pattern_percent == 0)
1148 fatal (fstart, _("target pattern contains no `%%'"));
1149 free((char *)target);
1151 else
1152 pattern = 0;
1154 /* Parse the dependencies. */
1155 deps = (struct dep *)
1156 multi_glob (parse_file_seq (&p2, '|', sizeof (struct dep), 1),
1157 sizeof (struct dep));
1158 if (*p2)
1160 /* Files that follow '|' are special prerequisites that
1161 need only exist in order to satisfy the dependency.
1162 Their modification times are irrelevant. */
1163 struct dep **deps_ptr = &deps;
1164 struct dep *d;
1165 for (deps_ptr = &deps; *deps_ptr; deps_ptr = &(*deps_ptr)->next)
1167 ++p2;
1168 *deps_ptr = (struct dep *)
1169 multi_glob (parse_file_seq (&p2, '\0', sizeof (struct dep), 1),
1170 sizeof (struct dep));
1171 for (d = *deps_ptr; d != 0; d = d->next)
1172 d->ignore_mtime = 1;
1175 commands_idx = 0;
1176 if (cmdleft != 0)
1178 /* Semicolon means rest of line is a command. */
1179 unsigned int len = strlen (cmdleft);
1181 cmds_started = fstart->lineno;
1183 /* Add this command line to the buffer. */
1184 if (len + 2 > commands_len)
1186 commands_len = (len + 2) * 2;
1187 commands = (char *) xrealloc (commands, commands_len);
1189 bcopy (cmdleft, commands, len);
1190 commands_idx += len;
1191 commands[commands_idx++] = '\n';
1194 continue;
1197 /* We get here except in the case that we just read a rule line.
1198 Record now the last rule we read, so following spurious
1199 commands are properly diagnosed. */
1200 rule_complete:
1201 record_waiting_files ();
1204 #undef word1eq
1206 if (conditionals->if_cmds)
1207 fatal (fstart, _("missing `endif'"));
1209 /* At eof, record the last rule. */
1210 record_waiting_files ();
1212 free ((char *) commands);
1214 return 1;
1218 /* Execute a `define' directive.
1219 The first line has already been read, and NAME is the name of
1220 the variable to be defined. The following lines remain to be read. */
1222 static void
1223 do_define (name, namelen, origin, ebuf)
1224 char *name;
1225 unsigned int namelen;
1226 enum variable_origin origin;
1227 struct ebuffer *ebuf;
1229 struct floc defstart;
1230 long nlines = 0;
1231 int nlevels = 1;
1232 unsigned int length = 100;
1233 char *definition = (char *) xmalloc (length);
1234 unsigned int idx = 0;
1235 char *p;
1237 /* Expand the variable name. */
1238 char *var = (char *) alloca (namelen + 1);
1239 bcopy (name, var, namelen);
1240 var[namelen] = '\0';
1241 var = variable_expand (var);
1243 defstart = ebuf->floc;
1245 while (1)
1247 unsigned int len;
1248 char *line;
1250 ebuf->floc.lineno += nlines;
1251 nlines = readline (ebuf);
1253 /* If there is nothing left to eval, we're done. */
1254 if (nlines < 0)
1255 break;
1257 line = ebuf->buffer;
1259 collapse_continuations (line);
1261 /* If the line doesn't begin with a tab, test to see if it introduces
1262 another define, or ends one. */
1264 /* Stop if we find an 'endef' */
1265 if (line[0] != '\t')
1267 p = next_token (line);
1268 len = strlen (p);
1270 /* If this is another 'define', increment the level count. */
1271 if ((len == 6 || (len > 6 && isblank ((unsigned char)p[6])))
1272 && strneq (p, "define", 6))
1273 ++nlevels;
1275 /* If this is an 'endef', decrement the count. If it's now 0,
1276 we've found the last one. */
1277 else if ((len == 5 || (len > 5 && isblank ((unsigned char)p[5])))
1278 && strneq (p, "endef", 5))
1280 p += 5;
1281 remove_comments (p);
1282 if (*next_token (p) != '\0')
1283 error (&ebuf->floc,
1284 _("Extraneous text after `endef' directive"));
1286 if (--nlevels == 0)
1288 /* Define the variable. */
1289 if (idx == 0)
1290 definition[0] = '\0';
1291 else
1292 definition[idx - 1] = '\0';
1294 /* Always define these variables in the global set. */
1295 define_variable_global (var, strlen (var), definition,
1296 origin, 1, &defstart);
1297 free (definition);
1298 return;
1303 /* Otherwise add this line to the variable definition. */
1304 len = strlen (line);
1305 if (idx + len + 1 > length)
1307 length = (idx + len) * 2;
1308 definition = (char *) xrealloc (definition, length + 1);
1311 bcopy (line, &definition[idx], len);
1312 idx += len;
1313 /* Separate lines with a newline. */
1314 definition[idx++] = '\n';
1317 /* No `endef'!! */
1318 fatal (&defstart, _("missing `endef', unterminated `define'"));
1320 /* NOTREACHED */
1321 return;
1324 /* Interpret conditional commands "ifdef", "ifndef", "ifeq",
1325 "ifneq", "else" and "endif".
1326 LINE is the input line, with the command as its first word.
1328 FILENAME and LINENO are the filename and line number in the
1329 current makefile. They are used for error messages.
1331 Value is -1 if the line is invalid,
1332 0 if following text should be interpreted,
1333 1 if following text should be ignored. */
1335 static int
1336 conditional_line (line, flocp)
1337 char *line;
1338 const struct floc *flocp;
1340 int notdef;
1341 char *cmdname;
1342 register unsigned int i;
1344 if (*line == 'i')
1346 /* It's an "if..." command. */
1347 notdef = line[2] == 'n';
1348 if (notdef)
1350 cmdname = line[3] == 'd' ? "ifndef" : "ifneq";
1351 line += cmdname[3] == 'd' ? 7 : 6;
1353 else
1355 cmdname = line[2] == 'd' ? "ifdef" : "ifeq";
1356 line += cmdname[2] == 'd' ? 6 : 5;
1359 else
1361 /* It's an "else" or "endif" command. */
1362 notdef = line[1] == 'n';
1363 cmdname = notdef ? "endif" : "else";
1364 line += notdef ? 5 : 4;
1367 line = next_token (line);
1369 if (*cmdname == 'e')
1371 if (*line != '\0')
1372 error (flocp, _("Extraneous text after `%s' directive"), cmdname);
1373 /* "Else" or "endif". */
1374 if (conditionals->if_cmds == 0)
1375 fatal (flocp, _("extraneous `%s'"), cmdname);
1376 /* NOTDEF indicates an `endif' command. */
1377 if (notdef)
1378 --conditionals->if_cmds;
1379 else if (conditionals->seen_else[conditionals->if_cmds - 1])
1380 fatal (flocp, _("only one `else' per conditional"));
1381 else
1383 /* Toggle the state of ignorance. */
1384 conditionals->ignoring[conditionals->if_cmds - 1]
1385 = !conditionals->ignoring[conditionals->if_cmds - 1];
1386 /* Record that we have seen an `else' in this conditional.
1387 A second `else' will be erroneous. */
1388 conditionals->seen_else[conditionals->if_cmds - 1] = 1;
1390 for (i = 0; i < conditionals->if_cmds; ++i)
1391 if (conditionals->ignoring[i])
1392 return 1;
1393 return 0;
1396 if (conditionals->allocated == 0)
1398 conditionals->allocated = 5;
1399 conditionals->ignoring = (char *) xmalloc (conditionals->allocated);
1400 conditionals->seen_else = (char *) xmalloc (conditionals->allocated);
1403 ++conditionals->if_cmds;
1404 if (conditionals->if_cmds > conditionals->allocated)
1406 conditionals->allocated += 5;
1407 conditionals->ignoring = (char *)
1408 xrealloc (conditionals->ignoring, conditionals->allocated);
1409 conditionals->seen_else = (char *)
1410 xrealloc (conditionals->seen_else, conditionals->allocated);
1413 /* Record that we have seen an `if...' but no `else' so far. */
1414 conditionals->seen_else[conditionals->if_cmds - 1] = 0;
1416 /* Search through the stack to see if we're already ignoring. */
1417 for (i = 0; i < conditionals->if_cmds - 1; ++i)
1418 if (conditionals->ignoring[i])
1420 /* We are already ignoring, so just push a level
1421 to match the next "else" or "endif", and keep ignoring.
1422 We don't want to expand variables in the condition. */
1423 conditionals->ignoring[conditionals->if_cmds - 1] = 1;
1424 return 1;
1427 if (cmdname[notdef ? 3 : 2] == 'd')
1429 /* "Ifdef" or "ifndef". */
1430 char *var;
1431 struct variable *v;
1432 register char *p = end_of_token (line);
1433 i = p - line;
1434 p = next_token (p);
1435 if (*p != '\0')
1436 return -1;
1438 /* Expand the thing we're looking up, so we can use indirect and
1439 constructed variable names. */
1440 line[i] = '\0';
1441 var = allocated_variable_expand (line);
1443 v = lookup_variable (var, strlen (var));
1444 conditionals->ignoring[conditionals->if_cmds - 1]
1445 = (v != 0 && *v->value != '\0') == notdef;
1447 free (var);
1449 else
1451 /* "Ifeq" or "ifneq". */
1452 char *s1, *s2;
1453 unsigned int len;
1454 char termin = *line == '(' ? ',' : *line;
1456 if (termin != ',' && termin != '"' && termin != '\'')
1457 return -1;
1459 s1 = ++line;
1460 /* Find the end of the first string. */
1461 if (termin == ',')
1463 register int count = 0;
1464 for (; *line != '\0'; ++line)
1465 if (*line == '(')
1466 ++count;
1467 else if (*line == ')')
1468 --count;
1469 else if (*line == ',' && count <= 0)
1470 break;
1472 else
1473 while (*line != '\0' && *line != termin)
1474 ++line;
1476 if (*line == '\0')
1477 return -1;
1479 if (termin == ',')
1481 /* Strip blanks after the first string. */
1482 char *p = line++;
1483 while (isblank ((unsigned char)p[-1]))
1484 --p;
1485 *p = '\0';
1487 else
1488 *line++ = '\0';
1490 s2 = variable_expand (s1);
1491 /* We must allocate a new copy of the expanded string because
1492 variable_expand re-uses the same buffer. */
1493 len = strlen (s2);
1494 s1 = (char *) alloca (len + 1);
1495 bcopy (s2, s1, len + 1);
1497 if (termin != ',')
1498 /* Find the start of the second string. */
1499 line = next_token (line);
1501 termin = termin == ',' ? ')' : *line;
1502 if (termin != ')' && termin != '"' && termin != '\'')
1503 return -1;
1505 /* Find the end of the second string. */
1506 if (termin == ')')
1508 register int count = 0;
1509 s2 = next_token (line);
1510 for (line = s2; *line != '\0'; ++line)
1512 if (*line == '(')
1513 ++count;
1514 else if (*line == ')')
1516 if (count <= 0)
1517 break;
1518 else
1519 --count;
1523 else
1525 ++line;
1526 s2 = line;
1527 while (*line != '\0' && *line != termin)
1528 ++line;
1531 if (*line == '\0')
1532 return -1;
1534 *line = '\0';
1535 line = next_token (++line);
1536 if (*line != '\0')
1537 error (flocp, _("Extraneous text after `%s' directive"), cmdname);
1539 s2 = variable_expand (s2);
1540 conditionals->ignoring[conditionals->if_cmds - 1]
1541 = streq (s1, s2) == notdef;
1544 /* Search through the stack to see if we're ignoring. */
1545 for (i = 0; i < conditionals->if_cmds; ++i)
1546 if (conditionals->ignoring[i])
1547 return 1;
1548 return 0;
1551 /* Remove duplicate dependencies in CHAIN. */
1553 static unsigned long
1554 dep_hash_1 (key)
1555 const void *key;
1557 return_STRING_HASH_1 (dep_name ((struct dep const *) key));
1560 static unsigned long
1561 dep_hash_2 (key)
1562 const void *key;
1564 return_STRING_HASH_2 (dep_name ((struct dep const *) key));
1567 static int
1568 dep_hash_cmp (x, y)
1569 const void *x;
1570 const void *y;
1572 struct dep *dx = (struct dep *) x;
1573 struct dep *dy = (struct dep *) y;
1574 int cmp = strcmp (dep_name (dx), dep_name (dy));
1576 /* If the names are the same but ignore_mtimes are not equal, one of these
1577 is an order-only prerequisite and one isn't. That means that we should
1578 remove the one that isn't and keep the one that is. */
1580 if (!cmp && dx->ignore_mtime != dy->ignore_mtime)
1581 dx->ignore_mtime = dy->ignore_mtime = 0;
1583 return cmp;
1587 void
1588 uniquize_deps (chain)
1589 struct dep *chain;
1591 struct hash_table deps;
1592 register struct dep **depp;
1594 hash_init (&deps, 500, dep_hash_1, dep_hash_2, dep_hash_cmp);
1596 /* Make sure that no dependencies are repeated. This does not
1597 really matter for the purpose of updating targets, but it
1598 might make some names be listed twice for $^ and $?. */
1600 depp = &chain;
1601 while (*depp)
1603 struct dep *dep = *depp;
1604 struct dep **dep_slot = (struct dep **) hash_find_slot (&deps, dep);
1605 if (HASH_VACANT (*dep_slot))
1607 hash_insert_at (&deps, dep, dep_slot);
1608 depp = &dep->next;
1610 else
1612 /* Don't bother freeing duplicates.
1613 It's dangerous and little benefit accrues. */
1614 *depp = dep->next;
1618 hash_free (&deps, 0);
1621 /* Record target-specific variable values for files FILENAMES.
1622 TWO_COLON is nonzero if a double colon was used.
1624 The links of FILENAMES are freed, and so are any names in it
1625 that are not incorporated into other data structures.
1627 If the target is a pattern, add the variable to the pattern-specific
1628 variable value list. */
1630 static void
1631 record_target_var (filenames, defn, two_colon, origin, flocp)
1632 struct nameseq *filenames;
1633 char *defn;
1634 int two_colon;
1635 enum variable_origin origin;
1636 const struct floc *flocp;
1638 struct nameseq *nextf;
1639 struct variable_set_list *global;
1641 global = current_variable_set_list;
1643 /* If the variable is an append version, store that but treat it as a
1644 normal recursive variable. */
1646 for (; filenames != 0; filenames = nextf)
1648 struct variable *v;
1649 register char *name = filenames->name;
1650 struct variable_set_list *vlist;
1651 char *fname;
1652 char *percent;
1654 nextf = filenames->next;
1655 free ((char *) filenames);
1657 /* If it's a pattern target, then add it to the pattern-specific
1658 variable list. */
1659 percent = find_percent (name);
1660 if (percent)
1662 struct pattern_var *p;
1664 /* Get a reference for this pattern-specific variable struct. */
1665 p = create_pattern_var(name, percent);
1666 vlist = p->vars;
1667 fname = p->target;
1669 else
1671 struct file *f;
1673 /* Get a file reference for this file, and initialize it.
1674 We don't want to just call enter_file() because that allocates a
1675 new entry if the file is a double-colon, which we don't want in
1676 this situation. */
1677 f = lookup_file (name);
1678 if (!f)
1679 f = enter_file (name);
1680 else if (f->double_colon)
1681 f = f->double_colon;
1683 initialize_file_variables (f, 1);
1684 vlist = f->variables;
1685 fname = f->name;
1688 /* Make the new variable context current and define the variable. */
1689 current_variable_set_list = vlist;
1690 v = try_variable_definition (flocp, defn, origin, 1);
1691 if (!v)
1692 error (flocp, _("Malformed per-target variable definition"));
1693 v->per_target = 1;
1695 /* If it's not an override, check to see if there was a command-line
1696 setting. If so, reset the value. */
1697 if (origin != o_override)
1699 struct variable *gv;
1700 int len = strlen(v->name);
1702 current_variable_set_list = global;
1703 gv = lookup_variable (v->name, len);
1704 if (gv && (gv->origin == o_env_override || gv->origin == o_command))
1706 v = define_variable_in_set (v->name, len, gv->value, gv->origin,
1707 gv->recursive, vlist->set, flocp);
1708 v->append = 0;
1712 /* Free name if not needed further. */
1713 if (name != fname && (name < fname || name > fname + strlen (fname)))
1714 free (name);
1717 current_variable_set_list = global;
1720 /* Record a description line for files FILENAMES,
1721 with dependencies DEPS, commands to execute described
1722 by COMMANDS and COMMANDS_IDX, coming from FILENAME:COMMANDS_STARTED.
1723 TWO_COLON is nonzero if a double colon was used.
1724 If not nil, PATTERN is the `%' pattern to make this
1725 a static pattern rule, and PATTERN_PERCENT is a pointer
1726 to the `%' within it.
1728 The links of FILENAMES are freed, and so are any names in it
1729 that are not incorporated into other data structures. */
1731 static void
1732 record_files (filenames, pattern, pattern_percent, deps, cmds_started,
1733 commands, commands_idx, two_colon, have_sysv_atvar,
1734 flocp, set_default)
1735 struct nameseq *filenames;
1736 char *pattern, *pattern_percent;
1737 struct dep *deps;
1738 unsigned int cmds_started;
1739 char *commands;
1740 unsigned int commands_idx;
1741 int two_colon;
1742 int have_sysv_atvar;
1743 const struct floc *flocp;
1744 int set_default;
1746 struct nameseq *nextf;
1747 int implicit = 0;
1748 unsigned int max_targets = 0, target_idx = 0;
1749 char **targets = 0, **target_percents = 0;
1750 struct commands *cmds;
1752 if (commands_idx > 0)
1754 cmds = (struct commands *) xmalloc (sizeof (struct commands));
1755 cmds->fileinfo.filenm = flocp->filenm;
1756 cmds->fileinfo.lineno = cmds_started;
1757 cmds->commands = savestring (commands, commands_idx);
1758 cmds->command_lines = 0;
1760 else
1761 cmds = 0;
1763 for (; filenames != 0; filenames = nextf)
1765 char *name = filenames->name;
1766 struct file *f;
1767 struct dep *d;
1768 struct dep *this;
1769 char *implicit_percent;
1771 nextf = filenames->next;
1772 free (filenames);
1774 /* Check for .POSIX. We used to do this in snap_deps() but that's not
1775 good enough: it doesn't happen until after the makefile is read,
1776 which means we cannot use its value during parsing. */
1778 if (streq (name, ".POSIX"))
1779 posix_pedantic = 1;
1781 implicit_percent = find_percent (name);
1782 implicit |= implicit_percent != 0;
1784 if (implicit && pattern != 0)
1785 fatal (flocp, _("mixed implicit and static pattern rules"));
1787 if (implicit && implicit_percent == 0)
1788 fatal (flocp, _("mixed implicit and normal rules"));
1790 if (implicit)
1792 if (targets == 0)
1794 max_targets = 5;
1795 targets = (char **) xmalloc (5 * sizeof (char *));
1796 target_percents = (char **) xmalloc (5 * sizeof (char *));
1797 target_idx = 0;
1799 else if (target_idx == max_targets - 1)
1801 max_targets += 5;
1802 targets = (char **) xrealloc ((char *) targets,
1803 max_targets * sizeof (char *));
1804 target_percents
1805 = (char **) xrealloc ((char *) target_percents,
1806 max_targets * sizeof (char *));
1808 targets[target_idx] = name;
1809 target_percents[target_idx] = implicit_percent;
1810 ++target_idx;
1811 continue;
1814 /* If there are multiple filenames, copy the chain DEPS
1815 for all but the last one. It is not safe for the same deps
1816 to go in more than one place in the data base. */
1817 this = nextf != 0 ? copy_dep_chain (deps) : deps;
1819 if (pattern != 0)
1821 /* If this is an extended static rule:
1822 `targets: target%pattern: dep%pattern; cmds',
1823 translate each dependency pattern into a plain filename
1824 using the target pattern and this target's name. */
1825 if (!pattern_matches (pattern, pattern_percent, name))
1827 /* Give a warning if the rule is meaningless. */
1828 error (flocp,
1829 _("target `%s' doesn't match the target pattern"), name);
1830 this = 0;
1832 else
1834 /* We use patsubst_expand to do the work of translating
1835 the target pattern, the target's name and the dependencies'
1836 patterns into plain dependency names. */
1837 char *buffer = variable_expand ("");
1839 for (d = this; d != 0; d = d->next)
1841 char *o;
1842 char *percent = find_percent (d->name);
1843 if (percent == 0)
1844 continue;
1845 o = patsubst_expand (buffer, name, pattern, d->name,
1846 pattern_percent, percent);
1847 /* If the name expanded to the empty string, that's
1848 illegal. */
1849 if (o == buffer)
1850 fatal (flocp,
1851 _("target `%s' leaves prerequisite pattern empty"),
1852 name);
1853 free (d->name);
1854 d->name = savestring (buffer, o - buffer);
1859 /* If at least one of the dependencies uses $$@ etc. deal with that.
1860 It would be very nice and very simple to just expand everything, but
1861 it would break a lot of backward compatibility. Maybe that's OK
1862 since we're just emulating a SysV function, and if we do that then
1863 why not emulate it completely (that's what SysV make does: it
1864 re-expands the entire prerequisite list, all the time, with $@
1865 etc. in scope. But, it would be a pain indeed to document this
1866 ("iff you use $$@, your prerequisite lists is expanded twice...")
1867 Ouch. Maybe better to make the code more complex. */
1869 if (have_sysv_atvar)
1871 char *p;
1872 int tlen = strlen (name);
1873 char *fnp = strrchr (name, '/');
1874 int dlen;
1875 int flen;
1877 if (fnp)
1879 dlen = fnp - name;
1880 ++fnp;
1881 flen = strlen (fnp);
1883 else
1885 dlen = 0;
1886 fnp = name;
1887 flen = tlen;
1891 for (d = this; d != 0; d = d->next)
1892 for (p = strchr (d->name, '$'); p != 0; p = strchr (p+1, '$'))
1894 char *s = p;
1895 char *at;
1896 int atlen;
1898 /* If it's a '$@' or '$(@', it's escaped */
1899 if ((++p)[0] == '$'
1900 && (p[1] == '@' || (p[1] == '(' && p[2] == '@')))
1902 bcopy (p, s, strlen (p)+1);
1903 continue;
1906 /* Maybe found one. Check. p will point to '@' [for $@] or
1907 ')' [for $(@)] or 'D' [for $(@D)] or 'F' [for $(@F)]. */
1908 if (p[0] != '@'
1909 && (p[0] != '(' || (++p)[0] != '@'
1910 || ((++p)[0] != ')'
1911 && (p[1] != ')' || (p[0] != 'D' && p[0] != 'F')))))
1912 continue;
1914 /* Found one. Compute the length and string ptr. Move p
1915 past the variable reference. */
1916 switch (p[0])
1918 case 'D':
1919 atlen = dlen;
1920 at = name;
1921 p += 2;
1922 break;
1924 case 'F':
1925 atlen = flen;
1926 at = fnp;
1927 p += 2;
1928 break;
1930 default:
1931 atlen = tlen;
1932 at = name;
1933 ++p;
1934 break;
1937 /* Get more space. */
1939 int soff = s - d->name;
1940 int poff = p - d->name;
1941 d->name = (char *) xrealloc (d->name,
1942 strlen (d->name) + atlen + 1);
1943 s = d->name + soff;
1944 p = d->name + poff;
1947 /* Copy the string over. */
1948 bcopy(p, s+atlen, strlen (p)+1);
1949 bcopy(at, s, atlen);
1950 p = s + atlen - 1;
1954 if (!two_colon)
1956 /* Single-colon. Combine these dependencies
1957 with others in file's existing record, if any. */
1958 f = enter_file (name);
1960 if (f->double_colon)
1961 fatal (flocp,
1962 _("target file `%s' has both : and :: entries"), f->name);
1964 /* If CMDS == F->CMDS, this target was listed in this rule
1965 more than once. Just give a warning since this is harmless. */
1966 if (cmds != 0 && cmds == f->cmds)
1967 error (flocp,
1968 _("target `%s' given more than once in the same rule."),
1969 f->name);
1971 /* Check for two single-colon entries both with commands.
1972 Check is_target so that we don't lose on files such as .c.o
1973 whose commands were preinitialized. */
1974 else if (cmds != 0 && f->cmds != 0 && f->is_target)
1976 error (&cmds->fileinfo,
1977 _("warning: overriding commands for target `%s'"),
1978 f->name);
1979 error (&f->cmds->fileinfo,
1980 _("warning: ignoring old commands for target `%s'"),
1981 f->name);
1984 f->is_target = 1;
1986 /* Defining .DEFAULT with no deps or cmds clears it. */
1987 if (f == default_file && this == 0 && cmds == 0)
1988 f->cmds = 0;
1989 if (cmds != 0)
1990 f->cmds = cmds;
1991 /* Defining .SUFFIXES with no dependencies
1992 clears out the list of suffixes. */
1993 if (f == suffix_file && this == 0)
1995 d = f->deps;
1996 while (d != 0)
1998 struct dep *nextd = d->next;
1999 free (d->name);
2000 free ((char *)d);
2001 d = nextd;
2003 f->deps = 0;
2005 else if (f->deps != 0)
2007 /* Add the file's old deps and the new ones in THIS together. */
2009 struct dep *firstdeps, *moredeps;
2010 if (cmds != 0)
2012 /* This is the rule with commands, so put its deps first.
2013 The rationale behind this is that $< expands to the
2014 first dep in the chain, and commands use $< expecting
2015 to get the dep that rule specifies. */
2016 firstdeps = this;
2017 moredeps = f->deps;
2019 else
2021 /* Append the new deps to the old ones. */
2022 firstdeps = f->deps;
2023 moredeps = this;
2026 if (firstdeps == 0)
2027 firstdeps = moredeps;
2028 else
2030 d = firstdeps;
2031 while (d->next != 0)
2032 d = d->next;
2033 d->next = moredeps;
2036 f->deps = firstdeps;
2038 else
2039 f->deps = this;
2041 /* If this is a static pattern rule, set the file's stem to
2042 the part of its name that matched the `%' in the pattern,
2043 so you can use $* in the commands. */
2044 if (pattern != 0)
2046 static char *percent = "%";
2047 char *buffer = variable_expand ("");
2048 char *o = patsubst_expand (buffer, name, pattern, percent,
2049 pattern_percent, percent);
2050 f->stem = savestring (buffer, o - buffer);
2053 else
2055 /* Double-colon. Make a new record
2056 even if the file already has one. */
2057 f = lookup_file (name);
2058 /* Check for both : and :: rules. Check is_target so
2059 we don't lose on default suffix rules or makefiles. */
2060 if (f != 0 && f->is_target && !f->double_colon)
2061 fatal (flocp,
2062 _("target file `%s' has both : and :: entries"), f->name);
2063 f = enter_file (name);
2064 /* If there was an existing entry and it was a double-colon
2065 entry, enter_file will have returned a new one, making it the
2066 prev pointer of the old one, and setting its double_colon
2067 pointer to the first one. */
2068 if (f->double_colon == 0)
2069 /* This is the first entry for this name, so we must
2070 set its double_colon pointer to itself. */
2071 f->double_colon = f;
2072 f->is_target = 1;
2073 f->deps = this;
2074 f->cmds = cmds;
2077 /* Free name if not needed further. */
2078 if (f != 0 && name != f->name
2079 && (name < f->name || name > f->name + strlen (f->name)))
2081 free (name);
2082 name = f->name;
2085 /* See if this is first target seen whose name does
2086 not start with a `.', unless it contains a slash. */
2087 if (default_goal_file == 0 && set_default
2088 && (*name != '.' || strchr (name, '/') != 0
2089 #ifdef HAVE_DOS_PATHS
2090 || strchr (name, '\\') != 0
2091 #endif
2094 int reject = 0;
2096 /* If this file is a suffix, don't
2097 let it be the default goal file. */
2099 for (d = suffix_file->deps; d != 0; d = d->next)
2101 register struct dep *d2;
2102 if (*dep_name (d) != '.' && streq (name, dep_name (d)))
2104 reject = 1;
2105 break;
2107 for (d2 = suffix_file->deps; d2 != 0; d2 = d2->next)
2109 register unsigned int len = strlen (dep_name (d2));
2110 if (!strneq (name, dep_name (d2), len))
2111 continue;
2112 if (streq (name + len, dep_name (d)))
2114 reject = 1;
2115 break;
2118 if (reject)
2119 break;
2122 if (!reject)
2123 default_goal_file = f;
2127 if (implicit)
2129 targets[target_idx] = 0;
2130 target_percents[target_idx] = 0;
2131 create_pattern_rule (targets, target_percents, two_colon, deps, cmds, 1);
2132 free ((char *) target_percents);
2136 /* Search STRING for an unquoted STOPCHAR or blank (if BLANK is nonzero).
2137 Backslashes quote STOPCHAR, blanks if BLANK is nonzero, and backslash.
2138 Quoting backslashes are removed from STRING by compacting it into
2139 itself. Returns a pointer to the first unquoted STOPCHAR if there is
2140 one, or nil if there are none. */
2142 char *
2143 find_char_unquote (string, stop1, stop2, blank)
2144 char *string;
2145 int stop1;
2146 int stop2;
2147 int blank;
2149 unsigned int string_len = 0;
2150 register char *p = string;
2152 while (1)
2154 if (stop2 && blank)
2155 while (*p != '\0' && *p != stop1 && *p != stop2
2156 && ! isblank ((unsigned char) *p))
2157 ++p;
2158 else if (stop2)
2159 while (*p != '\0' && *p != stop1 && *p != stop2)
2160 ++p;
2161 else if (blank)
2162 while (*p != '\0' && *p != stop1
2163 && ! isblank ((unsigned char) *p))
2164 ++p;
2165 else
2166 while (*p != '\0' && *p != stop1)
2167 ++p;
2169 if (*p == '\0')
2170 break;
2172 if (p > string && p[-1] == '\\')
2174 /* Search for more backslashes. */
2175 register int i = -2;
2176 while (&p[i] >= string && p[i] == '\\')
2177 --i;
2178 ++i;
2179 /* Only compute the length if really needed. */
2180 if (string_len == 0)
2181 string_len = strlen (string);
2182 /* The number of backslashes is now -I.
2183 Copy P over itself to swallow half of them. */
2184 bcopy (&p[i / 2], &p[i], (string_len - (p - string)) - (i / 2) + 1);
2185 p += i / 2;
2186 if (i % 2 == 0)
2187 /* All the backslashes quoted each other; the STOPCHAR was
2188 unquoted. */
2189 return p;
2191 /* The STOPCHAR was quoted by a backslash. Look for another. */
2193 else
2194 /* No backslash in sight. */
2195 return p;
2198 /* Never hit a STOPCHAR or blank (with BLANK nonzero). */
2199 return 0;
2202 /* Search PATTERN for an unquoted %. */
2204 char *
2205 find_percent (pattern)
2206 char *pattern;
2208 return find_char_unquote (pattern, '%', 0, 0);
2211 /* Parse a string into a sequence of filenames represented as a
2212 chain of struct nameseq's in reverse order and return that chain.
2214 The string is passed as STRINGP, the address of a string pointer.
2215 The string pointer is updated to point at the first character
2216 not parsed, which either is a null char or equals STOPCHAR.
2218 SIZE is how big to construct chain elements.
2219 This is useful if we want them actually to be other structures
2220 that have room for additional info.
2222 If STRIP is nonzero, strip `./'s off the beginning. */
2224 struct nameseq *
2225 parse_file_seq (stringp, stopchar, size, strip)
2226 char **stringp;
2227 int stopchar;
2228 unsigned int size;
2229 int strip;
2231 register struct nameseq *new = 0;
2232 register struct nameseq *new1, *lastnew1;
2233 register char *p = *stringp;
2234 char *q;
2235 char *name;
2237 #ifdef VMS
2238 # define VMS_COMMA ','
2239 #else
2240 # define VMS_COMMA 0
2241 #endif
2243 while (1)
2245 /* Skip whitespace; see if any more names are left. */
2246 p = next_token (p);
2247 if (*p == '\0')
2248 break;
2249 if (*p == stopchar)
2250 break;
2252 /* Yes, find end of next name. */
2253 q = p;
2254 p = find_char_unquote (q, stopchar, VMS_COMMA, 1);
2255 #ifdef VMS
2256 /* convert comma separated list to space separated */
2257 if (p && *p == ',')
2258 *p =' ';
2259 #endif
2260 #ifdef _AMIGA
2261 if (stopchar == ':' && p && *p == ':'
2262 && !(isspace ((unsigned char)p[1]) || !p[1]
2263 || isspace ((unsigned char)p[-1])))
2265 p = find_char_unquote (p+1, stopchar, VMS_COMMA, 1);
2267 #endif
2268 #ifdef HAVE_DOS_PATHS
2269 /* For DOS paths, skip a "C:\..." or a "C:/..." until we find the
2270 first colon which isn't followed by a slash or a backslash.
2271 Note that tokens separated by spaces should be treated as separate
2272 tokens since make doesn't allow path names with spaces */
2273 if (stopchar == ':')
2274 while (p != 0 && !isspace ((unsigned char)*p) &&
2275 (p[1] == '\\' || p[1] == '/') && isalpha ((unsigned char)p[-1]))
2276 p = find_char_unquote (p + 1, stopchar, VMS_COMMA, 1);
2277 #endif
2278 if (p == 0)
2279 p = q + strlen (q);
2281 if (strip)
2282 #ifdef VMS
2283 /* Skip leading `[]'s. */
2284 while (p - q > 2 && q[0] == '[' && q[1] == ']')
2285 #else
2286 /* Skip leading `./'s. */
2287 while (p - q > 2 && q[0] == '.' && q[1] == '/')
2288 #endif
2290 q += 2; /* Skip "./". */
2291 while (q < p && *q == '/')
2292 /* Skip following slashes: ".//foo" is "foo", not "/foo". */
2293 ++q;
2296 /* Extract the filename just found, and skip it. */
2298 if (q == p)
2299 /* ".///" was stripped to "". */
2300 #ifdef VMS
2301 continue;
2302 #else
2303 #ifdef _AMIGA
2304 name = savestring ("", 0);
2305 #else
2306 name = savestring ("./", 2);
2307 #endif
2308 #endif
2309 else
2310 #ifdef VMS
2311 /* VMS filenames can have a ':' in them but they have to be '\'ed but we need
2312 * to remove this '\' before we can use the filename.
2313 * Savestring called because q may be read-only string constant.
2316 char *qbase = xstrdup (q);
2317 char *pbase = qbase + (p-q);
2318 char *q1 = qbase;
2319 char *q2 = q1;
2320 char *p1 = pbase;
2322 while (q1 != pbase)
2324 if (*q1 == '\\' && *(q1+1) == ':')
2326 q1++;
2327 p1--;
2329 *q2++ = *q1++;
2331 name = savestring (qbase, p1 - qbase);
2332 free (qbase);
2334 #else
2335 name = savestring (q, p - q);
2336 #endif
2338 /* Add it to the front of the chain. */
2339 new1 = (struct nameseq *) xmalloc (size);
2340 new1->name = name;
2341 new1->next = new;
2342 new = new1;
2345 #ifndef NO_ARCHIVES
2347 /* Look for multi-word archive references.
2348 They are indicated by a elt ending with an unmatched `)' and
2349 an elt further down the chain (i.e., previous in the file list)
2350 with an unmatched `(' (e.g., "lib(mem"). */
2352 new1 = new;
2353 lastnew1 = 0;
2354 while (new1 != 0)
2355 if (new1->name[0] != '(' /* Don't catch "(%)" and suchlike. */
2356 && new1->name[strlen (new1->name) - 1] == ')'
2357 && strchr (new1->name, '(') == 0)
2359 /* NEW1 ends with a `)' but does not contain a `('.
2360 Look back for an elt with an opening `(' but no closing `)'. */
2362 struct nameseq *n = new1->next, *lastn = new1;
2363 char *paren = 0;
2364 while (n != 0 && (paren = strchr (n->name, '(')) == 0)
2366 lastn = n;
2367 n = n->next;
2369 if (n != 0
2370 /* Ignore something starting with `(', as that cannot actually
2371 be an archive-member reference (and treating it as such
2372 results in an empty file name, which causes much lossage). */
2373 && n->name[0] != '(')
2375 /* N is the first element in the archive group.
2376 Its name looks like "lib(mem" (with no closing `)'). */
2378 char *libname;
2380 /* Copy "lib(" into LIBNAME. */
2381 ++paren;
2382 libname = (char *) alloca (paren - n->name + 1);
2383 bcopy (n->name, libname, paren - n->name);
2384 libname[paren - n->name] = '\0';
2386 if (*paren == '\0')
2388 /* N was just "lib(", part of something like "lib( a b)".
2389 Edit it out of the chain and free its storage. */
2390 lastn->next = n->next;
2391 free (n->name);
2392 free ((char *) n);
2393 /* LASTN->next is the new stopping elt for the loop below. */
2394 n = lastn->next;
2396 else
2398 /* Replace N's name with the full archive reference. */
2399 name = concat (libname, paren, ")");
2400 free (n->name);
2401 n->name = name;
2404 if (new1->name[1] == '\0')
2406 /* NEW1 is just ")", part of something like "lib(a b )".
2407 Omit it from the chain and free its storage. */
2408 if (lastnew1 == 0)
2409 new = new1->next;
2410 else
2411 lastnew1->next = new1->next;
2412 lastn = new1;
2413 new1 = new1->next;
2414 free (lastn->name);
2415 free ((char *) lastn);
2417 else
2419 /* Replace also NEW1->name, which already has closing `)'. */
2420 name = concat (libname, new1->name, "");
2421 free (new1->name);
2422 new1->name = name;
2423 new1 = new1->next;
2426 /* Trace back from NEW1 (the end of the list) until N
2427 (the beginning of the list), rewriting each name
2428 with the full archive reference. */
2430 while (new1 != n)
2432 name = concat (libname, new1->name, ")");
2433 free (new1->name);
2434 new1->name = name;
2435 lastnew1 = new1;
2436 new1 = new1->next;
2439 else
2441 /* No frobnication happening. Just step down the list. */
2442 lastnew1 = new1;
2443 new1 = new1->next;
2446 else
2448 lastnew1 = new1;
2449 new1 = new1->next;
2452 #endif
2454 *stringp = p;
2455 return new;
2458 /* Find the next line of text in an eval buffer, combining continuation lines
2459 into one line.
2460 Return the number of actual lines read (> 1 if continuation lines).
2461 Returns -1 if there's nothing left in the buffer.
2463 After this function, ebuf->buffer points to the first character of the
2464 line we just found.
2467 /* Read a line of text from a STRING.
2468 Since we aren't really reading from a file, don't bother with linenumbers.
2471 static unsigned long
2472 readstring (ebuf)
2473 struct ebuffer *ebuf;
2475 char *p;
2477 /* If there is nothing left in this buffer, return 0. */
2478 if (ebuf->bufnext > ebuf->bufstart + ebuf->size)
2479 return -1;
2481 /* Set up a new starting point for the buffer, and find the end of the
2482 next logical line (taking into account backslash/newline pairs). */
2484 p = ebuf->buffer = ebuf->bufnext;
2486 while (1)
2488 int backslash = 0;
2490 /* Find the next newline. Keep track of backslashes as we look. */
2491 for (; *p != '\n' && *p != '\0'; ++p)
2492 if (*p == '\\')
2493 backslash = !backslash;
2495 /* If we got to the end of the string or a newline with no backslash,
2496 we're done. */
2497 if (*p == '\0' || !backslash)
2498 break;
2501 /* Overwrite the newline char. */
2502 *p = '\0';
2503 ebuf->bufnext = p+1;
2505 return 0;
2508 static long
2509 readline (ebuf)
2510 struct ebuffer *ebuf;
2512 char *p;
2513 char *end;
2514 char *start;
2515 long nlines = 0;
2517 /* The behaviors between string and stream buffers are different enough to
2518 warrant different functions. Do the Right Thing. */
2520 if (!ebuf->fp)
2521 return readstring (ebuf);
2523 /* When reading from a file, we always start over at the beginning of the
2524 buffer for each new line. */
2526 p = start = ebuf->bufstart;
2527 end = p + ebuf->size;
2528 *p = '\0';
2530 while (fgets (p, end - p, ebuf->fp) != 0)
2532 char *p2;
2533 unsigned long len;
2534 int backslash;
2536 len = strlen (p);
2537 if (len == 0)
2539 /* This only happens when the first thing on the line is a '\0'.
2540 It is a pretty hopeless case, but (wonder of wonders) Athena
2541 lossage strikes again! (xmkmf puts NULs in its makefiles.)
2542 There is nothing really to be done; we synthesize a newline so
2543 the following line doesn't appear to be part of this line. */
2544 error (&ebuf->floc,
2545 _("warning: NUL character seen; rest of line ignored"));
2546 p[0] = '\n';
2547 len = 1;
2550 /* Jump past the text we just read. */
2551 p += len;
2553 /* If the last char isn't a newline, the whole line didn't fit into the
2554 buffer. Get some more buffer and try again. */
2555 if (p[-1] != '\n')
2556 goto more_buffer;
2558 /* We got a newline, so add one to the count of lines. */
2559 ++nlines;
2561 #if !defined(WINDOWS32) && !defined(__MSDOS__)
2562 /* Check to see if the line was really ended with CRLF; if so ignore
2563 the CR. */
2564 if ((p - start) > 1 && p[-2] == '\r')
2566 --p;
2567 p[-1] = '\n';
2569 #endif
2571 backslash = 0;
2572 for (p2 = p - 2; p2 >= start; --p2)
2574 if (*p2 != '\\')
2575 break;
2576 backslash = !backslash;
2579 if (!backslash)
2581 p[-1] = '\0';
2582 break;
2585 /* It was a backslash/newline combo. If we have more space, read
2586 another line. */
2587 if (end - p >= 80)
2588 continue;
2590 /* We need more space at the end of our buffer, so realloc it.
2591 Make sure to preserve the current offset of p. */
2592 more_buffer:
2594 unsigned long off = p - start;
2595 ebuf->size *= 2;
2596 start = ebuf->buffer = ebuf->bufstart = (char *) xrealloc (start,
2597 ebuf->size);
2598 p = start + off;
2599 end = start + ebuf->size;
2600 *p = '\0';
2604 if (ferror (ebuf->fp))
2605 pfatal_with_name (ebuf->floc.filenm);
2607 /* If we found some lines, return how many.
2608 If we didn't, but we did find _something_, that indicates we read the last
2609 line of a file with no final newline; return 1.
2610 If we read nothing, we're at EOF; return -1. */
2612 return nlines ? nlines : p == ebuf->bufstart ? -1 : 1;
2615 /* Parse the next "makefile word" from the input buffer, and return info
2616 about it.
2618 A "makefile word" is one of:
2620 w_bogus Should never happen
2621 w_eol End of input
2622 w_static A static word; cannot be expanded
2623 w_variable A word containing one or more variables/functions
2624 w_colon A colon
2625 w_dcolon A double-colon
2626 w_semicolon A semicolon
2627 w_varassign A variable assignment operator (=, :=, +=, or ?=)
2629 Note that this function is only used when reading certain parts of the
2630 makefile. Don't use it where special rules hold sway (RHS of a variable,
2631 in a command list, etc.) */
2633 static enum make_word_type
2634 get_next_mword (buffer, delim, startp, length)
2635 char *buffer;
2636 char *delim;
2637 char **startp;
2638 unsigned int *length;
2640 enum make_word_type wtype = w_bogus;
2641 char *p = buffer, *beg;
2642 char c;
2644 /* Skip any leading whitespace. */
2645 while (isblank ((unsigned char)*p))
2646 ++p;
2648 beg = p;
2649 c = *(p++);
2650 switch (c)
2652 case '\0':
2653 wtype = w_eol;
2654 break;
2656 case ';':
2657 wtype = w_semicolon;
2658 break;
2660 case '=':
2661 wtype = w_varassign;
2662 break;
2664 case ':':
2665 wtype = w_colon;
2666 switch (*p)
2668 case ':':
2669 ++p;
2670 wtype = w_dcolon;
2671 break;
2673 case '=':
2674 ++p;
2675 wtype = w_varassign;
2676 break;
2678 break;
2680 case '+':
2681 case '?':
2682 if (*p == '=')
2684 ++p;
2685 wtype = w_varassign;
2686 break;
2689 default:
2690 if (delim && strchr (delim, c))
2691 wtype = w_static;
2692 break;
2695 /* Did we find something? If so, return now. */
2696 if (wtype != w_bogus)
2697 goto done;
2699 /* This is some non-operator word. A word consists of the longest
2700 string of characters that doesn't contain whitespace, one of [:=#],
2701 or [?+]=, or one of the chars in the DELIM string. */
2703 /* We start out assuming a static word; if we see a variable we'll
2704 adjust our assumptions then. */
2705 wtype = w_static;
2707 /* We already found the first value of "c", above. */
2708 while (1)
2710 char closeparen;
2711 int count;
2713 switch (c)
2715 case '\0':
2716 case ' ':
2717 case '\t':
2718 case '=':
2719 goto done_word;
2721 case ':':
2722 #ifdef HAVE_DOS_PATHS
2723 /* A word CAN include a colon in its drive spec. The drive
2724 spec is allowed either at the beginning of a word, or as part
2725 of the archive member name, like in "libfoo.a(d:/foo/bar.o)". */
2726 if (!(p - beg >= 2
2727 && (*p == '/' || *p == '\\') && isalpha ((unsigned char)p[-2])
2728 && (p - beg == 2 || p[-3] == '(')))
2729 #endif
2730 goto done_word;
2732 case '$':
2733 c = *(p++);
2734 if (c == '$')
2735 break;
2737 /* This is a variable reference, so note that it's expandable.
2738 Then read it to the matching close paren. */
2739 wtype = w_variable;
2741 if (c == '(')
2742 closeparen = ')';
2743 else if (c == '{')
2744 closeparen = '}';
2745 else
2746 /* This is a single-letter variable reference. */
2747 break;
2749 for (count=0; *p != '\0'; ++p)
2751 if (*p == c)
2752 ++count;
2753 else if (*p == closeparen && --count < 0)
2755 ++p;
2756 break;
2759 break;
2761 case '?':
2762 case '+':
2763 if (*p == '=')
2764 goto done_word;
2765 break;
2767 case '\\':
2768 switch (*p)
2770 case ':':
2771 case ';':
2772 case '=':
2773 case '\\':
2774 ++p;
2775 break;
2777 break;
2779 default:
2780 if (delim && strchr (delim, c))
2781 goto done_word;
2782 break;
2785 c = *(p++);
2787 done_word:
2788 --p;
2790 done:
2791 if (startp)
2792 *startp = beg;
2793 if (length)
2794 *length = p - beg;
2795 return wtype;
2798 /* Construct the list of include directories
2799 from the arguments and the default list. */
2801 void
2802 construct_include_path (arg_dirs)
2803 char **arg_dirs;
2805 register unsigned int i;
2806 #ifdef VAXC /* just don't ask ... */
2807 stat_t stbuf;
2808 #else
2809 struct stat stbuf;
2810 #endif
2811 /* Table to hold the dirs. */
2813 register unsigned int defsize = (sizeof (default_include_directories)
2814 / sizeof (default_include_directories[0]));
2815 register unsigned int max = 5;
2816 register char **dirs = (char **) xmalloc ((5 + defsize) * sizeof (char *));
2817 register unsigned int idx = 0;
2819 #ifdef __MSDOS__
2820 defsize++;
2821 #endif
2823 /* First consider any dirs specified with -I switches.
2824 Ignore dirs that don't exist. */
2826 if (arg_dirs != 0)
2827 while (*arg_dirs != 0)
2829 char *dir = *arg_dirs++;
2831 if (dir[0] == '~')
2833 char *expanded = tilde_expand (dir);
2834 if (expanded != 0)
2835 dir = expanded;
2838 if (stat (dir, &stbuf) == 0 && S_ISDIR (stbuf.st_mode))
2840 if (idx == max - 1)
2842 max += 5;
2843 dirs = (char **)
2844 xrealloc ((char *) dirs, (max + defsize) * sizeof (char *));
2846 dirs[idx++] = dir;
2848 else if (dir != arg_dirs[-1])
2849 free (dir);
2852 /* Now add at the end the standard default dirs. */
2854 #ifdef __MSDOS__
2856 /* The environment variable $DJDIR holds the root of the
2857 DJGPP directory tree; add ${DJDIR}/include. */
2858 struct variable *djdir = lookup_variable ("DJDIR", 5);
2860 if (djdir)
2862 char *defdir = (char *) xmalloc (strlen (djdir->value) + 8 + 1);
2864 strcat (strcpy (defdir, djdir->value), "/include");
2865 dirs[idx++] = defdir;
2868 #endif
2870 for (i = 0; default_include_directories[i] != 0; ++i)
2871 if (stat (default_include_directories[i], &stbuf) == 0
2872 && S_ISDIR (stbuf.st_mode))
2873 dirs[idx++] = default_include_directories[i];
2875 dirs[idx] = 0;
2877 /* Now compute the maximum length of any name in it. */
2879 max_incl_len = 0;
2880 for (i = 0; i < idx; ++i)
2882 unsigned int len = strlen (dirs[i]);
2883 /* If dir name is written with a trailing slash, discard it. */
2884 if (dirs[i][len - 1] == '/')
2885 /* We can't just clobber a null in because it may have come from
2886 a literal string and literal strings may not be writable. */
2887 dirs[i] = savestring (dirs[i], len - 1);
2888 if (len > max_incl_len)
2889 max_incl_len = len;
2892 include_directories = dirs;
2895 /* Expand ~ or ~USER at the beginning of NAME.
2896 Return a newly malloc'd string or 0. */
2898 char *
2899 tilde_expand (name)
2900 char *name;
2902 #ifndef VMS
2903 if (name[1] == '/' || name[1] == '\0')
2905 extern char *getenv ();
2906 char *home_dir;
2907 int is_variable;
2910 /* Turn off --warn-undefined-variables while we expand HOME. */
2911 int save = warn_undefined_variables_flag;
2912 warn_undefined_variables_flag = 0;
2914 home_dir = allocated_variable_expand ("$(HOME)");
2916 warn_undefined_variables_flag = save;
2919 is_variable = home_dir[0] != '\0';
2920 if (!is_variable)
2922 free (home_dir);
2923 home_dir = getenv ("HOME");
2925 #if !defined(_AMIGA) && !defined(WINDOWS32)
2926 if (home_dir == 0 || home_dir[0] == '\0')
2928 extern char *getlogin ();
2929 char *logname = getlogin ();
2930 home_dir = 0;
2931 if (logname != 0)
2933 struct passwd *p = getpwnam (logname);
2934 if (p != 0)
2935 home_dir = p->pw_dir;
2938 #endif /* !AMIGA && !WINDOWS32 */
2939 if (home_dir != 0)
2941 char *new = concat (home_dir, "", name + 1);
2942 if (is_variable)
2943 free (home_dir);
2944 return new;
2947 #if !defined(_AMIGA) && !defined(WINDOWS32)
2948 else
2950 struct passwd *pwent;
2951 char *userend = strchr (name + 1, '/');
2952 if (userend != 0)
2953 *userend = '\0';
2954 pwent = getpwnam (name + 1);
2955 if (pwent != 0)
2957 if (userend == 0)
2958 return xstrdup (pwent->pw_dir);
2959 else
2960 return concat (pwent->pw_dir, "/", userend + 1);
2962 else if (userend != 0)
2963 *userend = '/';
2965 #endif /* !AMIGA && !WINDOWS32 */
2966 #endif /* !VMS */
2967 return 0;
2970 /* Given a chain of struct nameseq's describing a sequence of filenames,
2971 in reverse of the intended order, return a new chain describing the
2972 result of globbing the filenames. The new chain is in forward order.
2973 The links of the old chain are freed or used in the new chain.
2974 Likewise for the names in the old chain.
2976 SIZE is how big to construct chain elements.
2977 This is useful if we want them actually to be other structures
2978 that have room for additional info. */
2980 struct nameseq *
2981 multi_glob (chain, size)
2982 struct nameseq *chain;
2983 unsigned int size;
2985 extern void dir_setup_glob ();
2986 register struct nameseq *new = 0;
2987 register struct nameseq *old;
2988 struct nameseq *nexto;
2989 glob_t gl;
2991 dir_setup_glob (&gl);
2993 for (old = chain; old != 0; old = nexto)
2995 #ifndef NO_ARCHIVES
2996 char *memname;
2997 #endif
2999 nexto = old->next;
3001 if (old->name[0] == '~')
3003 char *newname = tilde_expand (old->name);
3004 if (newname != 0)
3006 free (old->name);
3007 old->name = newname;
3011 #ifndef NO_ARCHIVES
3012 if (ar_name (old->name))
3014 /* OLD->name is an archive member reference.
3015 Replace it with the archive file name,
3016 and save the member name in MEMNAME.
3017 We will glob on the archive name and then
3018 reattach MEMNAME later. */
3019 char *arname;
3020 ar_parse_name (old->name, &arname, &memname);
3021 free (old->name);
3022 old->name = arname;
3024 else
3025 memname = 0;
3026 #endif /* !NO_ARCHIVES */
3028 switch (glob (old->name, GLOB_NOCHECK|GLOB_ALTDIRFUNC, NULL, &gl))
3030 case 0: /* Success. */
3032 register int i = gl.gl_pathc;
3033 while (i-- > 0)
3035 #ifndef NO_ARCHIVES
3036 if (memname != 0)
3038 /* Try to glob on MEMNAME within the archive. */
3039 struct nameseq *found
3040 = ar_glob (gl.gl_pathv[i], memname, size);
3041 if (found == 0)
3043 /* No matches. Use MEMNAME as-is. */
3044 unsigned int alen = strlen (gl.gl_pathv[i]);
3045 unsigned int mlen = strlen (memname);
3046 struct nameseq *elt
3047 = (struct nameseq *) xmalloc (size);
3048 if (size > sizeof (struct nameseq))
3049 bzero (((char *) elt) + sizeof (struct nameseq),
3050 size - sizeof (struct nameseq));
3051 elt->name = (char *) xmalloc (alen + 1 + mlen + 2);
3052 bcopy (gl.gl_pathv[i], elt->name, alen);
3053 elt->name[alen] = '(';
3054 bcopy (memname, &elt->name[alen + 1], mlen);
3055 elt->name[alen + 1 + mlen] = ')';
3056 elt->name[alen + 1 + mlen + 1] = '\0';
3057 elt->next = new;
3058 new = elt;
3060 else
3062 /* Find the end of the FOUND chain. */
3063 struct nameseq *f = found;
3064 while (f->next != 0)
3065 f = f->next;
3067 /* Attach the chain being built to the end of the FOUND
3068 chain, and make FOUND the new NEW chain. */
3069 f->next = new;
3070 new = found;
3073 free (memname);
3075 else
3076 #endif /* !NO_ARCHIVES */
3078 struct nameseq *elt = (struct nameseq *) xmalloc (size);
3079 if (size > sizeof (struct nameseq))
3080 bzero (((char *) elt) + sizeof (struct nameseq),
3081 size - sizeof (struct nameseq));
3082 elt->name = xstrdup (gl.gl_pathv[i]);
3083 elt->next = new;
3084 new = elt;
3087 globfree (&gl);
3088 free (old->name);
3089 free ((char *)old);
3090 break;
3093 case GLOB_NOSPACE:
3094 fatal (NILF, _("virtual memory exhausted"));
3095 break;
3097 default:
3098 old->next = new;
3099 new = old;
3100 break;
3104 return new;