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source: kBuild/trunk/src/kmk/variable.c@ 1101

Last change on this file since 1101 was 1101, checked in by bird, 17 years ago

Added md5sum as a builtin tool.

  • Property svn:eol-style set to native
File size: 60.8 KB
Line 
1/* Internals of variables for GNU Make.
2Copyright (C) 1988, 1989, 1990, 1991, 1992, 1993, 1994, 1995, 1996, 1997,
31998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006 Free Software
4Foundation, Inc.
5This file is part of GNU Make.
6
7GNU Make is free software; you can redistribute it and/or modify it under the
8terms of the GNU General Public License as published by the Free Software
9Foundation; either version 2, or (at your option) any later version.
10
11GNU Make is distributed in the hope that it will be useful, but WITHOUT ANY
12WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
13A PARTICULAR PURPOSE. See the GNU General Public License for more details.
14
15You should have received a copy of the GNU General Public License along with
16GNU Make; see the file COPYING. If not, write to the Free Software
17Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. */
18
19#include "make.h"
20
21#include <assert.h>
22
23#include "dep.h"
24#include "filedef.h"
25#include "job.h"
26#include "commands.h"
27#include "variable.h"
28#include "rule.h"
29#ifdef WINDOWS32
30#include "pathstuff.h"
31#endif
32#include "hash.h"
33#ifdef KMK
34# include "kbuild.h"
35#endif
36
37/* Chain of all pattern-specific variables. */
38
39static struct pattern_var *pattern_vars;
40
41/* Pointer to last struct in the chain, so we can add onto the end. */
42
43static struct pattern_var *last_pattern_var;
44
45/* Create a new pattern-specific variable struct. */
46
47struct pattern_var *
48create_pattern_var (const char *target, const char *suffix)
49{
50 register struct pattern_var *p = xmalloc (sizeof (struct pattern_var));
51
52 if (last_pattern_var != 0)
53 last_pattern_var->next = p;
54 else
55 pattern_vars = p;
56 last_pattern_var = p;
57 p->next = 0;
58
59 p->target = target;
60 p->len = strlen (target);
61 p->suffix = suffix + 1;
62
63 return p;
64}
65
66/* Look up a target in the pattern-specific variable list. */
67
68static struct pattern_var *
69lookup_pattern_var (struct pattern_var *start, const char *target)
70{
71 struct pattern_var *p;
72 unsigned int targlen = strlen(target);
73
74 for (p = start ? start->next : pattern_vars; p != 0; p = p->next)
75 {
76 const char *stem;
77 unsigned int stemlen;
78
79 if (p->len > targlen)
80 /* It can't possibly match. */
81 continue;
82
83 /* From the lengths of the filename and the pattern parts,
84 find the stem: the part of the filename that matches the %. */
85 stem = target + (p->suffix - p->target - 1);
86 stemlen = targlen - p->len + 1;
87
88 /* Compare the text in the pattern before the stem, if any. */
89 if (stem > target && !strneq (p->target, target, stem - target))
90 continue;
91
92 /* Compare the text in the pattern after the stem, if any.
93 We could test simply using streq, but this way we compare the
94 first two characters immediately. This saves time in the very
95 common case where the first character matches because it is a
96 period. */
97 if (*p->suffix == stem[stemlen]
98 && (*p->suffix == '\0' || streq (&p->suffix[1], &stem[stemlen+1])))
99 break;
100 }
101
102 return p;
103}
104
105
106/* Hash table of all global variable definitions. */
107
108#ifdef VARIABLE_HASH
109# ifdef _MSC_VER
110# define inline _inline
111typedef signed int int32_t;
112typedef signed short int int16_t;
113# endif
114static inline unsigned long variable_hash_2i(register const unsigned char *var, register int length)
115{
116 register unsigned int hash = 0;
117 var += length;
118 switch (length)
119 {
120 default:
121 case 16: hash = *--var + (hash << 6) + (hash << 16) - hash;
122 case 15: hash = *--var + (hash << 6) + (hash << 16) - hash;
123 case 14: hash = *--var + (hash << 6) + (hash << 16) - hash;
124 case 13: hash = *--var + (hash << 6) + (hash << 16) - hash;
125 case 12: hash = *--var + (hash << 6) + (hash << 16) - hash;
126 case 11: hash = *--var + (hash << 6) + (hash << 16) - hash;
127 case 10: hash = *--var + (hash << 6) + (hash << 16) - hash;
128 case 9: hash = *--var + (hash << 6) + (hash << 16) - hash;
129 case 8: hash = *--var + (hash << 6) + (hash << 16) - hash;
130 case 7: hash = *--var + (hash << 6) + (hash << 16) - hash;
131 case 6: hash = *--var + (hash << 6) + (hash << 16) - hash;
132 case 5: hash = *--var + (hash << 6) + (hash << 16) - hash;
133 case 4: hash = *--var + (hash << 6) + (hash << 16) - hash;
134 case 3: hash = *--var + (hash << 6) + (hash << 16) - hash;
135 case 2: hash = *--var + (hash << 6) + (hash << 16) - hash;
136 case 1: hash = *--var + (hash << 6) + (hash << 16) - hash;
137 case 0:
138 break;
139 }
140 return hash;
141}
142
143static inline unsigned long variable_hash_1i(register const unsigned char *var, register int length)
144{
145 register unsigned int hash = ((5381 << 5) + 5381) + *var;
146 switch (length)
147 {
148 default:
149 case 8: hash = ((hash << 5) + hash) + var[7];
150 case 7: hash = ((hash << 5) + hash) + var[6];
151 case 6: hash = ((hash << 5) + hash) + var[5];
152 case 5: hash = ((hash << 5) + hash) + var[4];
153 case 4: hash = ((hash << 5) + hash) + var[3];
154 case 3: hash = ((hash << 5) + hash) + var[2];
155 case 2: hash = ((hash << 5) + hash) + var[1];
156 case 1: return hash;
157 case 0: return 5381; /* shouldn't happen */
158 }
159}
160#endif /* CONFIG_WITH_OPTIMIZATION_HACKS */
161
162static unsigned long
163variable_hash_1 (const void *keyv)
164{
165 struct variable const *key = (struct variable const *) keyv;
166#ifdef VARIABLE_HASH /* bird */
167# ifdef VARIABLE_HASH_STRICT
168 if (key->hash1 != variable_hash_1i (key->name, key->length))
169 __asm__("int3");
170 if (key->hash2 && key->hash2 != variable_hash_2i (key->name, key->length))
171 __asm__("int3");
172# endif
173 return key->hash1;
174#else
175# ifdef CONFIG_WITH_OPTIMIZATION_HACKS
176 return variable_hash_1i (key->name, key->length);
177# else
178 return_STRING_N_HASH_1 (key->name, key->length);
179# endif
180#endif
181}
182
183static unsigned long
184variable_hash_2 (const void *keyv)
185{
186#ifdef VARIABLE_HASH /* bird */
187 struct variable *key = (struct variable *) keyv;
188 if (!key->hash2)
189 key->hash2 = variable_hash_2i (key->name, key->length);
190 return key->hash2;
191#else
192 struct variable const *key = (struct variable const *) keyv;
193# ifdef CONFIG_WITH_OPTIMIZATION_HACKS
194 return variable_hash_2i (key->name, key->length);
195# else
196 return_STRING_N_HASH_2 (key->name, key->length);
197# endif
198#endif
199}
200
201static int
202variable_hash_cmp (const void *xv, const void *yv)
203{
204 struct variable const *x = (struct variable const *) xv;
205 struct variable const *y = (struct variable const *) yv;
206 int result = x->length - y->length;
207 if (result)
208 return result;
209#ifdef VARIABLE_HASH_STRICT /* bird */
210 if (x->hash1 != variable_hash_1i (x->name, x->length))
211 __asm__("int3");
212 if (x->hash2 && x->hash2 != variable_hash_2i (x->name, x->length))
213 __asm__("int3");
214 if (y->hash1 != variable_hash_1i (y->name, y->length))
215 __asm__("int3");
216 if (y->hash2 && y->hash2 != variable_hash_2i (y->name, y->length))
217 __asm__("int3");
218#endif
219#ifdef VARIABLE_HASH
220 /* hash 1 */
221 result = x->hash1 - y->hash1;
222 if (result)
223 return result;
224#endif
225#ifdef CONFIG_WITH_OPTIMIZATION_HACKS /* bird: speed */
226 {
227 const char *xs = x->name;
228 const char *ys = y->name;
229 switch (x->length)
230 {
231 case 8:
232 result = *(int32_t*)(xs + 4) - *(int32_t*)(ys + 4);
233 if (result)
234 return result;
235 return *(int32_t*)xs - *(int32_t*)ys;
236 case 7:
237 result = xs[6] - ys[6];
238 if (result)
239 return result;
240 case 6:
241 result = *(int32_t*)xs - *(int32_t*)ys;
242 if (result)
243 return result;
244 return *(int16_t*)(xs + 4) - *(int16_t*)(ys + 4);
245 case 5:
246 result = xs[4] - ys[4];
247 if (result)
248 return result;
249 case 4:
250 return *(int32_t*)xs - *(int32_t*)ys;
251 case 3:
252 result = xs[2] - ys[2];
253 if (result)
254 return result;
255 case 2:
256 return *(int16_t*)xs - *(int16_t*)ys;
257 case 1:
258 return *xs - *ys;
259 case 0:
260 return 0;
261 }
262 }
263#endif /* CONFIG_WITH_OPTIMIZATION_HACKS */
264#ifdef VARIABLE_HASH
265 /* hash 2 */
266 if (!x->hash2)
267 ((struct variable *)x)->hash2 = variable_hash_2i (x->name, x->length);
268 if (!y->hash2)
269 ((struct variable *)y)->hash2 = variable_hash_2i (y->name, y->length);
270 result = x->hash2 - y->hash2;
271 if (result)
272 return result;
273#endif
274#ifdef CONFIG_WITH_OPTIMIZATION_HACKS
275 return memcmp (x->name, y->name, x->length);
276#else
277 return_STRING_N_COMPARE (x->name, y->name, x->length);
278#endif
279}
280
281#ifndef VARIABLE_BUCKETS
282# ifdef KMK /* Move to Makefile.kmk? */
283# define VARIABLE_BUCKETS 16384
284# else /*!KMK*/
285#define VARIABLE_BUCKETS 523
286# endif /*!KMK*/
287#endif
288#ifndef PERFILE_VARIABLE_BUCKETS
289#define PERFILE_VARIABLE_BUCKETS 23
290#endif
291#ifndef SMALL_SCOPE_VARIABLE_BUCKETS
292#define SMALL_SCOPE_VARIABLE_BUCKETS 13
293#endif
294
295static struct variable_set global_variable_set;
296static struct variable_set_list global_setlist
297 = { 0, &global_variable_set };
298struct variable_set_list *current_variable_set_list = &global_setlist;
299
300
301/* Implement variables. */
302
303void
304init_hash_global_variable_set (void)
305{
306 hash_init (&global_variable_set.table, VARIABLE_BUCKETS,
307 variable_hash_1, variable_hash_2, variable_hash_cmp);
308}
309
310/* Define variable named NAME with value VALUE in SET. VALUE is copied.
311 LENGTH is the length of NAME, which does not need to be null-terminated.
312 ORIGIN specifies the origin of the variable (makefile, command line
313 or environment).
314 If RECURSIVE is nonzero a flag is set in the variable saying
315 that it should be recursively re-expanded. */
316
317#ifdef CONFIG_WITH_VALUE_LENGTH
318struct variable *
319define_variable_in_set (const char *name, unsigned int length,
320 const char *value, unsigned int value_length, int duplicate_value,
321 enum variable_origin origin, int recursive,
322 struct variable_set *set, const struct floc *flocp)
323#else
324struct variable *
325define_variable_in_set (const char *name, unsigned int length,
326 const char *value, enum variable_origin origin,
327 int recursive, struct variable_set *set,
328 const struct floc *flocp)
329#endif
330{
331 struct variable *v;
332 struct variable **var_slot;
333 struct variable var_key;
334
335 if (set == NULL)
336 set = &global_variable_set;
337
338 var_key.name = (char *) name;
339 var_key.length = length;
340#ifdef VARIABLE_HASH /* bird */
341 var_key.hash1 = variable_hash_1i (name, length);
342 var_key.hash2 = 0;
343#endif
344 var_slot = (struct variable **) hash_find_slot (&set->table, &var_key);
345
346 if (env_overrides && origin == o_env)
347 origin = o_env_override;
348
349 v = *var_slot;
350 if (! HASH_VACANT (v))
351 {
352 if (env_overrides && v->origin == o_env)
353 /* V came from in the environment. Since it was defined
354 before the switches were parsed, it wasn't affected by -e. */
355 v->origin = o_env_override;
356
357 /* A variable of this name is already defined.
358 If the old definition is from a stronger source
359 than this one, don't redefine it. */
360 if ((int) origin >= (int) v->origin)
361 {
362#ifdef CONFIG_WITH_VALUE_LENGTH
363 if (value_length == ~0U)
364 value_length = strlen (value);
365 else
366 assert (value_length == strlen (value));
367 if (!duplicate_value)
368 {
369 if (v->value != 0)
370 free (v->value);
371 v->value = (char *)value;
372 v->value_alloc_len = value_length + 1;
373 }
374 else
375 {
376 if ((unsigned int)v->value_alloc_len <= value_length)
377 {
378 free (v->value);
379 v->value_alloc_len = (value_length + 0x40) & ~0x3f;
380 v->value = xmalloc (v->value_alloc_len);
381 }
382 memcpy (v->value, value, value_length + 1);
383 }
384 v->value_length = value_length;
385#else
386 if (v->value != 0)
387 free (v->value);
388 v->value = xstrdup (value);
389#endif
390 if (flocp != 0)
391 v->fileinfo = *flocp;
392 else
393 v->fileinfo.filenm = 0;
394 v->origin = origin;
395 v->recursive = recursive;
396 }
397 return v;
398 }
399
400 /* Create a new variable definition and add it to the hash table. */
401
402 v = xmalloc (sizeof (struct variable));
403 v->name = savestring (name, length);
404 v->length = length;
405#ifdef VARIABLE_HASH /* bird */
406 v->hash1 = variable_hash_1i (name, length);
407 v->hash2 = 0;
408#endif
409 hash_insert_at (&set->table, v, var_slot);
410#ifdef CONFIG_WITH_VALUE_LENGTH
411 if (value_length == ~0U)
412 value_length = strlen (value);
413 else
414 assert (value_length == strlen (value));
415 v->value_length = value_length;
416 if (!duplicate_value)
417 {
418 v->value_alloc_len = value_length + 1;
419 v->value = (char *)value;
420 }
421 else
422 {
423 v->value_alloc_len = (value_length + 32) & ~31;
424 v->value = xmalloc (v->value_alloc_len);
425 memcpy (v->value, value, value_length + 1);
426 }
427#else
428 v->value = xstrdup (value);
429#endif
430 if (flocp != 0)
431 v->fileinfo = *flocp;
432 else
433 v->fileinfo.filenm = 0;
434 v->origin = origin;
435 v->recursive = recursive;
436 v->special = 0;
437 v->expanding = 0;
438 v->exp_count = 0;
439 v->per_target = 0;
440 v->append = 0;
441 v->export = v_default;
442
443 v->exportable = 1;
444 if (*name != '_' && (*name < 'A' || *name > 'Z')
445 && (*name < 'a' || *name > 'z'))
446 v->exportable = 0;
447 else
448 {
449 for (++name; *name != '\0'; ++name)
450 if (*name != '_' && (*name < 'a' || *name > 'z')
451 && (*name < 'A' || *name > 'Z') && !ISDIGIT(*name))
452 break;
453
454 if (*name != '\0')
455 v->exportable = 0;
456 }
457
458 return v;
459}
460
461
462/* If the variable passed in is "special", handle its special nature.
463 Currently there are two such variables, both used for introspection:
464 .VARIABLES expands to a list of all the variables defined in this instance
465 of make.
466 .TARGETS expands to a list of all the targets defined in this
467 instance of make.
468 Returns the variable reference passed in. */
469
470#define EXPANSION_INCREMENT(_l) ((((_l) / 500) + 1) * 500)
471
472static struct variable *
473handle_special_var (struct variable *var)
474{
475 static unsigned long last_var_count = 0;
476
477
478 /* This one actually turns out to be very hard, due to the way the parser
479 records targets. The way it works is that target information is collected
480 internally until make knows the target is completely specified. It unitl
481 it sees that some new construct (a new target or variable) is defined that
482 it knows the previous one is done. In short, this means that if you do
483 this:
484
485 all:
486
487 TARGS := $(.TARGETS)
488
489 then $(TARGS) won't contain "all", because it's not until after the
490 variable is created that the previous target is completed.
491
492 Changing this would be a major pain. I think a less complex way to do it
493 would be to pre-define the target files as soon as the first line is
494 parsed, then come back and do the rest of the definition as now. That
495 would allow $(.TARGETS) to be correct without a major change to the way
496 the parser works.
497
498 if (streq (var->name, ".TARGETS"))
499 var->value = build_target_list (var->value);
500 else
501 */
502
503 if (streq (var->name, ".VARIABLES")
504 && global_variable_set.table.ht_fill != last_var_count)
505 {
506 unsigned long max = EXPANSION_INCREMENT (strlen (var->value));
507 unsigned long len;
508 char *p;
509 struct variable **vp = (struct variable **) global_variable_set.table.ht_vec;
510 struct variable **end = &vp[global_variable_set.table.ht_size];
511
512 /* Make sure we have at least MAX bytes in the allocated buffer. */
513 var->value = xrealloc (var->value, max);
514
515 /* Walk through the hash of variables, constructing a list of names. */
516 p = var->value;
517 len = 0;
518 for (; vp < end; ++vp)
519 if (!HASH_VACANT (*vp))
520 {
521 struct variable *v = *vp;
522 int l = v->length;
523
524 len += l + 1;
525 if (len > max)
526 {
527 unsigned long off = p - var->value;
528
529 max += EXPANSION_INCREMENT (l + 1);
530 var->value = xrealloc (var->value, max);
531 p = &var->value[off];
532 }
533
534 memcpy (p, v->name, l);
535 p += l;
536 *(p++) = ' ';
537 }
538 *(p-1) = '\0';
539
540 /* Remember how many variables are in our current count. Since we never
541 remove variables from the list, this is a reliable way to know whether
542 the list is up to date or needs to be recomputed. */
543
544 last_var_count = global_variable_set.table.ht_fill;
545 }
546
547 return var;
548}
549
550
551
552/* Lookup a variable whose name is a string starting at NAME
553 and with LENGTH chars. NAME need not be null-terminated.
554 Returns address of the `struct variable' containing all info
555 on the variable, or nil if no such variable is defined. */
556
557struct variable *
558lookup_variable (const char *name, unsigned int length)
559{
560 const struct variable_set_list *setlist;
561 struct variable var_key;
562
563 var_key.name = (char *) name;
564 var_key.length = length;
565#ifdef VARIABLE_HASH /* bird */
566 var_key.hash1 = variable_hash_1i (name, length);
567 var_key.hash2 = 0;
568#endif
569
570 for (setlist = current_variable_set_list;
571 setlist != 0; setlist = setlist->next)
572 {
573#ifdef VARIABLE_HASH /* bird: speed */
574 struct hash_table *ht = &setlist->set->table;
575 unsigned int hash_1 = var_key.hash1;
576 struct variable *v;
577
578 ht->ht_lookups++;
579 for (;;)
580 {
581 hash_1 &= (ht->ht_size - 1);
582 v = (struct variable *)ht->ht_vec[hash_1];
583
584 if (v == 0)
585 break;
586 if ((void *)v != hash_deleted_item)
587 {
588 if (variable_hash_cmp(&var_key, v) == 0)
589 {
590# ifdef VARIABLE_HASH_STRICT /* bird */
591 struct variable *v2 = (struct variable *) hash_find_item ((struct hash_table *) &setlist->set->table, &var_key);
592 assert(v2 == v);
593# endif
594 return v->special ? handle_special_var (v) : v;
595 }
596 ht->ht_collisions++;
597 }
598 if (!var_key.hash2)
599 var_key.hash2 = variable_hash_2i(name, length);
600 hash_1 += (var_key.hash2 | 1);
601 }
602
603#else /* !VARIABLE_HASH */
604 const struct variable_set *set = setlist->set;
605 struct variable *v;
606
607 v = (struct variable *) hash_find_item ((struct hash_table *) &set->table, &var_key);
608 if (v)
609 return v->special ? handle_special_var (v) : v;
610#endif /* !VARIABLE_HASH */
611 }
612
613#ifdef VMS
614 /* since we don't read envp[] on startup, try to get the
615 variable via getenv() here. */
616 {
617 char *vname = alloca (length + 1);
618 char *value;
619 strncpy (vname, name, length);
620 vname[length] = 0;
621 value = getenv (vname);
622 if (value != 0)
623 {
624 char *sptr;
625 int scnt;
626
627 sptr = value;
628 scnt = 0;
629
630 while ((sptr = strchr (sptr, '$')))
631 {
632 scnt++;
633 sptr++;
634 }
635
636 if (scnt > 0)
637 {
638 char *nvalue;
639 char *nptr;
640
641 nvalue = alloca (strlen (value) + scnt + 1);
642 sptr = value;
643 nptr = nvalue;
644
645 while (*sptr)
646 {
647 if (*sptr == '$')
648 {
649 *nptr++ = '$';
650 *nptr++ = '$';
651 }
652 else
653 {
654 *nptr++ = *sptr;
655 }
656 sptr++;
657 }
658
659 *nptr = '\0';
660 return define_variable (vname, length, nvalue, o_env, 1);
661
662 }
663
664 return define_variable (vname, length, value, o_env, 1);
665 }
666 }
667#endif /* VMS */
668
669 return 0;
670}
671
672
673/* Lookup a variable whose name is a string starting at NAME
674 and with LENGTH chars in set SET. NAME need not be null-terminated.
675 Returns address of the `struct variable' containing all info
676 on the variable, or nil if no such variable is defined. */
677
678struct variable *
679lookup_variable_in_set (const char *name, unsigned int length,
680 const struct variable_set *set)
681{
682 struct variable var_key;
683
684 var_key.name = (char *) name;
685 var_key.length = length;
686#ifdef VARIABLE_HASH /* bird */
687 var_key.hash1 = variable_hash_1i (name, length);
688 var_key.hash2 = 0;
689#endif
690
691 return (struct variable *) hash_find_item ((struct hash_table *) &set->table, &var_key);
692}
693
694
695/* Initialize FILE's variable set list. If FILE already has a variable set
696 list, the topmost variable set is left intact, but the the rest of the
697 chain is replaced with FILE->parent's setlist. If FILE is a double-colon
698 rule, then we will use the "root" double-colon target's variable set as the
699 parent of FILE's variable set.
700
701 If we're READING a makefile, don't do the pattern variable search now,
702 since the pattern variable might not have been defined yet. */
703
704void
705initialize_file_variables (struct file *file, int reading)
706{
707 struct variable_set_list *l = file->variables;
708
709 if (l == 0)
710 {
711 l = (struct variable_set_list *)
712 xmalloc (sizeof (struct variable_set_list));
713 l->set = xmalloc (sizeof (struct variable_set));
714 hash_init (&l->set->table, PERFILE_VARIABLE_BUCKETS,
715 variable_hash_1, variable_hash_2, variable_hash_cmp);
716 file->variables = l;
717 }
718
719 /* If this is a double-colon, then our "parent" is the "root" target for
720 this double-colon rule. Since that rule has the same name, parent,
721 etc. we can just use its variables as the "next" for ours. */
722
723 if (file->double_colon && file->double_colon != file)
724 {
725 initialize_file_variables (file->double_colon, reading);
726 l->next = file->double_colon->variables;
727 return;
728 }
729
730 if (file->parent == 0)
731 l->next = &global_setlist;
732 else
733 {
734 initialize_file_variables (file->parent, reading);
735 l->next = file->parent->variables;
736 }
737
738 /* If we're not reading makefiles and we haven't looked yet, see if
739 we can find pattern variables for this target. */
740
741 if (!reading && !file->pat_searched)
742 {
743 struct pattern_var *p;
744
745 p = lookup_pattern_var (0, file->name);
746 if (p != 0)
747 {
748 struct variable_set_list *global = current_variable_set_list;
749
750 /* We found at least one. Set up a new variable set to accumulate
751 all the pattern variables that match this target. */
752
753 file->pat_variables = create_new_variable_set ();
754 current_variable_set_list = file->pat_variables;
755
756 do
757 {
758 /* We found one, so insert it into the set. */
759
760 struct variable *v;
761
762 if (p->variable.flavor == f_simple)
763 {
764 v = define_variable_loc (
765 p->variable.name, strlen (p->variable.name),
766 p->variable.value, p->variable.origin,
767 0, &p->variable.fileinfo);
768
769 v->flavor = f_simple;
770 }
771 else
772 {
773 v = do_variable_definition (
774 &p->variable.fileinfo, p->variable.name,
775 p->variable.value, p->variable.origin,
776 p->variable.flavor, 1);
777 }
778
779 /* Also mark it as a per-target and copy export status. */
780 v->per_target = p->variable.per_target;
781 v->export = p->variable.export;
782 }
783 while ((p = lookup_pattern_var (p, file->name)) != 0);
784
785 current_variable_set_list = global;
786 }
787 file->pat_searched = 1;
788 }
789
790 /* If we have a pattern variable match, set it up. */
791
792 if (file->pat_variables != 0)
793 {
794 file->pat_variables->next = l->next;
795 l->next = file->pat_variables;
796 }
797}
798
799
800/* Pop the top set off the current variable set list,
801 and free all its storage. */
802
803struct variable_set_list *
804create_new_variable_set (void)
805{
806 register struct variable_set_list *setlist;
807 register struct variable_set *set;
808
809 set = xmalloc (sizeof (struct variable_set));
810 hash_init (&set->table, SMALL_SCOPE_VARIABLE_BUCKETS,
811 variable_hash_1, variable_hash_2, variable_hash_cmp);
812
813 setlist = (struct variable_set_list *)
814 xmalloc (sizeof (struct variable_set_list));
815 setlist->set = set;
816 setlist->next = current_variable_set_list;
817
818 return setlist;
819}
820
821static void
822free_variable_name_and_value (const void *item)
823{
824 struct variable *v = (struct variable *) item;
825 free (v->name);
826 free (v->value);
827}
828
829void
830free_variable_set (struct variable_set_list *list)
831{
832 hash_map (&list->set->table, free_variable_name_and_value);
833 hash_free (&list->set->table, 1);
834 free (list->set);
835 free (list);
836}
837
838/* Create a new variable set and push it on the current setlist.
839 If we're pushing a global scope (that is, the current scope is the global
840 scope) then we need to "push" it the other way: file variable sets point
841 directly to the global_setlist so we need to replace that with the new one.
842 */
843
844struct variable_set_list *
845push_new_variable_scope (void)
846{
847 current_variable_set_list = create_new_variable_set();
848 if (current_variable_set_list->next == &global_setlist)
849 {
850 /* It was the global, so instead of new -> &global we want to replace
851 &global with the new one and have &global -> new, with current still
852 pointing to &global */
853 struct variable_set *set = current_variable_set_list->set;
854 current_variable_set_list->set = global_setlist.set;
855 global_setlist.set = set;
856 current_variable_set_list->next = global_setlist.next;
857 global_setlist.next = current_variable_set_list;
858 current_variable_set_list = &global_setlist;
859 }
860 return (current_variable_set_list);
861}
862
863void
864pop_variable_scope (void)
865{
866 struct variable_set_list *setlist;
867 struct variable_set *set;
868
869 /* Can't call this if there's no scope to pop! */
870 assert(current_variable_set_list->next != NULL);
871
872 if (current_variable_set_list != &global_setlist)
873 {
874 /* We're not pointing to the global setlist, so pop this one. */
875 setlist = current_variable_set_list;
876 set = setlist->set;
877 current_variable_set_list = setlist->next;
878 }
879 else
880 {
881 /* This set is the one in the global_setlist, but there is another global
882 set beyond that. We want to copy that set to global_setlist, then
883 delete what used to be in global_setlist. */
884 setlist = global_setlist.next;
885 set = global_setlist.set;
886 global_setlist.set = setlist->set;
887 global_setlist.next = setlist->next;
888 }
889
890 /* Free the one we no longer need. */
891 free (setlist);
892 hash_map (&set->table, free_variable_name_and_value);
893 hash_free (&set->table, 1);
894 free (set);
895}
896
897
898/* Merge FROM_SET into TO_SET, freeing unused storage in FROM_SET. */
899
900static void
901merge_variable_sets (struct variable_set *to_set,
902 struct variable_set *from_set)
903{
904 struct variable **from_var_slot = (struct variable **) from_set->table.ht_vec;
905 struct variable **from_var_end = from_var_slot + from_set->table.ht_size;
906
907 for ( ; from_var_slot < from_var_end; from_var_slot++)
908 if (! HASH_VACANT (*from_var_slot))
909 {
910 struct variable *from_var = *from_var_slot;
911 struct variable **to_var_slot
912 = (struct variable **) hash_find_slot (&to_set->table, *from_var_slot);
913 if (HASH_VACANT (*to_var_slot))
914 hash_insert_at (&to_set->table, from_var, to_var_slot);
915 else
916 {
917 /* GKM FIXME: delete in from_set->table */
918 free (from_var->value);
919 free (from_var);
920 }
921 }
922}
923
924/* Merge SETLIST1 into SETLIST0, freeing unused storage in SETLIST1. */
925
926void
927merge_variable_set_lists (struct variable_set_list **setlist0,
928 struct variable_set_list *setlist1)
929{
930 struct variable_set_list *to = *setlist0;
931 struct variable_set_list *last0 = 0;
932
933 /* If there's nothing to merge, stop now. */
934 if (!setlist1)
935 return;
936
937 /* This loop relies on the fact that all setlists terminate with the global
938 setlist (before NULL). If that's not true, arguably we SHOULD die. */
939 if (to)
940 while (setlist1 != &global_setlist && to != &global_setlist)
941 {
942 struct variable_set_list *from = setlist1;
943 setlist1 = setlist1->next;
944
945 merge_variable_sets (to->set, from->set);
946
947 last0 = to;
948 to = to->next;
949 }
950
951 if (setlist1 != &global_setlist)
952 {
953 if (last0 == 0)
954 *setlist0 = setlist1;
955 else
956 last0->next = setlist1;
957 }
958}
959
960
961/* Define the automatic variables, and record the addresses
962 of their structures so we can change their values quickly. */
963
964void
965define_automatic_variables (void)
966{
967#if defined(WINDOWS32) || defined(__EMX__)
968 extern char* default_shell;
969#else
970 extern char default_shell[];
971#endif
972 register struct variable *v;
973 char buf[200];
974#ifdef KMK
975 const char *envvar;
976#endif
977
978 sprintf (buf, "%u", makelevel);
979 (void) define_variable (MAKELEVEL_NAME, MAKELEVEL_LENGTH, buf, o_env, 0);
980
981 sprintf (buf, "%s%s%s",
982 version_string,
983 (remote_description == 0 || remote_description[0] == '\0')
984 ? "" : "-",
985 (remote_description == 0 || remote_description[0] == '\0')
986 ? "" : remote_description);
987 (void) define_variable ("MAKE_VERSION", 12, buf, o_default, 0);
988
989#ifdef KMK
990 /* Define KMK_VERSION to indicate kMk. */
991 (void) define_variable ("KMK_VERSION", 11, buf, o_default, 0);
992
993 /* Define KBUILD_VERSION* */
994 sprintf (buf, "%d", KBUILD_VERSION_MAJOR);
995 define_variable ("KBUILD_VERSION_MAJOR", sizeof ("KBUILD_VERSION_MAJOR") - 1,
996 buf, o_default, 0);
997 sprintf (buf, "%d", KBUILD_VERSION_MINOR);
998 define_variable ("KBUILD_VERSION_MINOR", sizeof("KBUILD_VERSION_MINOR") - 1,
999 buf, o_default, 0);
1000 sprintf (buf, "%d", KBUILD_VERSION_PATCH);
1001 define_variable ("KBUILD_VERSION_PATCH", sizeof ("KBUILD_VERSION_PATCH") - 1,
1002 buf, o_default, 0);
1003
1004 sprintf (buf, "%d.%d.%d", KBUILD_VERSION_MAJOR, KBUILD_VERSION_MINOR, KBUILD_VERSION_PATCH);
1005 define_variable ("KBUILD_VERSION", sizeof ("KBUILD_VERSION") - 1,
1006 buf, o_default, 0);
1007
1008 /* The build platform defaults. */
1009 envvar = getenv ("BUILD_PLATFORM");
1010 if (!envvar)
1011 define_variable ("BUILD_PLATFORM", sizeof ("BUILD_PLATFORM") - 1,
1012 BUILD_PLATFORM, o_default, 0);
1013 envvar = getenv ("BUILD_PLATFORM_ARCH");
1014 if (!envvar)
1015 define_variable ("BUILD_PLATFORM_ARCH", sizeof ("BUILD_PLATFORM_ARCH") - 1,
1016 BUILD_PLATFORM_ARCH, o_default, 0);
1017 envvar = getenv ("BUILD_PLATFORM_CPU");
1018 if (!envvar)
1019 define_variable ("BUILD_PLATFORM_CPU", sizeof ("BUILD_PLATFORM_CPU") - 1,
1020 BUILD_PLATFORM_CPU, o_default, 0);
1021
1022 /* The kBuild locations. */
1023 define_variable ("PATH_KBUILD", sizeof ("PATH_KBUILD") - 1,
1024 get_path_kbuild (), o_default, 0);
1025 define_variable ("PATH_KBUILD_BIN", sizeof ("PATH_KBUILD_BIN") - 1,
1026 get_path_kbuild_bin (), o_default, 0);
1027
1028 /* Define KMK_FEATURES to indicate various working KMK features. */
1029# if defined(CONFIG_WITH_RSORT) \
1030 && defined(CONFIG_WITH_ABSPATHEX) \
1031 && defined(CONFIG_WITH_TOUPPER_TOLOWER) \
1032 && defined(CONFIG_WITH_VALUE_LENGTH) && defined(CONFIG_WITH_COMPARE) \
1033 && defined(CONFIG_WITH_STACK) \
1034 && defined(CONFIG_WITH_MATH) \
1035 && defined(CONFIG_WITH_XARGS) \
1036 && defined(CONFIG_WITH_EXPLICIT_MULTITARGET) \
1037 && defined(CONFIG_WITH_PREPEND_ASSIGNMENT) \
1038 && defined(KMK_HELPERS)
1039 (void) define_variable ("KMK_FEATURES", 12,
1040 "append-dash-n abspath"
1041 " rsort"
1042 " abspathex"
1043 " toupper tolower"
1044 " comp-vars comp-cmds"
1045 " stack"
1046 " math-int"
1047 " xargs"
1048 " explicit-multitarget"
1049 " prepend-assignment"
1050 " kb-src-tool kb-obj-base kb-obj-suff kb-src-prop kb-src-one "
1051 , o_default, 0);
1052# else /* MSC can't deal with strings mixed with #if/#endif, thus the slow way. */
1053# error "All features should be enabled by default!"
1054 strcpy (buf, "append-dash-n abspath");
1055# if defined (CONFIG_WITH_RSORT)
1056 strcat (buf, " rsort");
1057# endif
1058# if defined (CONFIG_WITH_ABSPATHEX)
1059 strcat (buf, " abspathex");
1060# endif
1061# if defined (CONFIG_WITH_TOUPPER_TOLOWER)
1062 strcat (buf, " toupper tolower");
1063# endif
1064# if defined (CONFIG_WITH_VALUE_LENGTH) && defined(CONFIG_WITH_COMPARE)
1065 strcat (buf, " comp-vars comp-cmds");
1066# endif
1067# if defined (CONFIG_WITH_STACK)
1068 strcat (buf, " stack");
1069# endif
1070# if defined (CONFIG_WITH_MATH)
1071 strcat (buf, " math-int");
1072# endif
1073# if defined (CONFIG_WITH_XARGS)
1074 strcat (buf, " xargs");
1075# endif
1076# if defined (CONFIG_WITH_EXPLICIT_MULTITARGET)
1077 strcat (buf, " explicit-multitarget");
1078# endif
1079# if defined (CONFIG_WITH_PREPEND_ASSIGNMENT) \
1080 strcat (buf, " prepend-assignment");
1081# endif
1082# if defined (KMK_HELPERS)
1083 strcat (buf, " kb-src-tool kb-obj-base kb-obj-suff kb-src-prop kb-src-one");
1084# endif
1085 (void) define_variable ("KMK_FEATURES", 12, buf, o_default, 0);
1086# endif
1087
1088#endif /* KMK */
1089
1090#ifdef CONFIG_WITH_KMK_BUILTIN
1091 /* The supported kMk Builtin commands. */
1092 (void) define_variable ("KMK_BUILTIN", 11, "append cat cp echo install ln md5sum mkdir mv printf rm rmdir", o_default, 0);
1093#endif
1094
1095#ifdef __MSDOS__
1096 /* Allow to specify a special shell just for Make,
1097 and use $COMSPEC as the default $SHELL when appropriate. */
1098 {
1099 static char shell_str[] = "SHELL";
1100 const int shlen = sizeof (shell_str) - 1;
1101 struct variable *mshp = lookup_variable ("MAKESHELL", 9);
1102 struct variable *comp = lookup_variable ("COMSPEC", 7);
1103
1104 /* Make $MAKESHELL override $SHELL even if -e is in effect. */
1105 if (mshp)
1106 (void) define_variable (shell_str, shlen,
1107 mshp->value, o_env_override, 0);
1108 else if (comp)
1109 {
1110 /* $COMSPEC shouldn't override $SHELL. */
1111 struct variable *shp = lookup_variable (shell_str, shlen);
1112
1113 if (!shp)
1114 (void) define_variable (shell_str, shlen, comp->value, o_env, 0);
1115 }
1116 }
1117#elif defined(__EMX__)
1118 {
1119 static char shell_str[] = "SHELL";
1120 const int shlen = sizeof (shell_str) - 1;
1121 struct variable *shell = lookup_variable (shell_str, shlen);
1122 struct variable *replace = lookup_variable ("MAKESHELL", 9);
1123
1124 /* if $MAKESHELL is defined in the environment assume o_env_override */
1125 if (replace && *replace->value && replace->origin == o_env)
1126 replace->origin = o_env_override;
1127
1128 /* if $MAKESHELL is not defined use $SHELL but only if the variable
1129 did not come from the environment */
1130 if (!replace || !*replace->value)
1131 if (shell && *shell->value && (shell->origin == o_env
1132 || shell->origin == o_env_override))
1133 {
1134 /* overwrite whatever we got from the environment */
1135 free(shell->value);
1136 shell->value = xstrdup (default_shell);
1137 shell->origin = o_default;
1138 }
1139
1140 /* Some people do not like cmd to be used as the default
1141 if $SHELL is not defined in the Makefile.
1142 With -DNO_CMD_DEFAULT you can turn off this behaviour */
1143# ifndef NO_CMD_DEFAULT
1144 /* otherwise use $COMSPEC */
1145 if (!replace || !*replace->value)
1146 replace = lookup_variable ("COMSPEC", 7);
1147
1148 /* otherwise use $OS2_SHELL */
1149 if (!replace || !*replace->value)
1150 replace = lookup_variable ("OS2_SHELL", 9);
1151# else
1152# warning NO_CMD_DEFAULT: GNU make will not use CMD.EXE as default shell
1153# endif
1154
1155 if (replace && *replace->value)
1156 /* overwrite $SHELL */
1157 (void) define_variable (shell_str, shlen, replace->value,
1158 replace->origin, 0);
1159 else
1160 /* provide a definition if there is none */
1161 (void) define_variable (shell_str, shlen, default_shell,
1162 o_default, 0);
1163 }
1164
1165#endif
1166
1167 /* This won't override any definition, but it will provide one if there
1168 isn't one there. */
1169 v = define_variable ("SHELL", 5, default_shell, o_default, 0);
1170
1171 /* On MSDOS we do use SHELL from environment, since it isn't a standard
1172 environment variable on MSDOS, so whoever sets it, does that on purpose.
1173 On OS/2 we do not use SHELL from environment but we have already handled
1174 that problem above. */
1175#if !defined(__MSDOS__) && !defined(__EMX__)
1176 /* Don't let SHELL come from the environment. */
1177 if (*v->value == '\0' || v->origin == o_env || v->origin == o_env_override)
1178 {
1179 free (v->value);
1180 v->origin = o_file;
1181 v->value = xstrdup (default_shell);
1182#ifdef CONFIG_WITH_VALUE_LENGTH
1183 v->value_length = strlen (v->value);
1184 v->value_alloc_len = v->value_length + 1;
1185#endif
1186 }
1187#endif
1188
1189 /* Make sure MAKEFILES gets exported if it is set. */
1190 v = define_variable ("MAKEFILES", 9, "", o_default, 0);
1191 v->export = v_ifset;
1192
1193 /* Define the magic D and F variables in terms of
1194 the automatic variables they are variations of. */
1195
1196#ifdef VMS
1197 define_variable ("@D", 2, "$(dir $@)", o_automatic, 1);
1198 define_variable ("%D", 2, "$(dir $%)", o_automatic, 1);
1199 define_variable ("*D", 2, "$(dir $*)", o_automatic, 1);
1200 define_variable ("<D", 2, "$(dir $<)", o_automatic, 1);
1201 define_variable ("?D", 2, "$(dir $?)", o_automatic, 1);
1202 define_variable ("^D", 2, "$(dir $^)", o_automatic, 1);
1203 define_variable ("+D", 2, "$(dir $+)", o_automatic, 1);
1204#else
1205 define_variable ("@D", 2, "$(patsubst %/,%,$(dir $@))", o_automatic, 1);
1206 define_variable ("%D", 2, "$(patsubst %/,%,$(dir $%))", o_automatic, 1);
1207 define_variable ("*D", 2, "$(patsubst %/,%,$(dir $*))", o_automatic, 1);
1208 define_variable ("<D", 2, "$(patsubst %/,%,$(dir $<))", o_automatic, 1);
1209 define_variable ("?D", 2, "$(patsubst %/,%,$(dir $?))", o_automatic, 1);
1210 define_variable ("^D", 2, "$(patsubst %/,%,$(dir $^))", o_automatic, 1);
1211 define_variable ("+D", 2, "$(patsubst %/,%,$(dir $+))", o_automatic, 1);
1212#endif
1213 define_variable ("@F", 2, "$(notdir $@)", o_automatic, 1);
1214 define_variable ("%F", 2, "$(notdir $%)", o_automatic, 1);
1215 define_variable ("*F", 2, "$(notdir $*)", o_automatic, 1);
1216 define_variable ("<F", 2, "$(notdir $<)", o_automatic, 1);
1217 define_variable ("?F", 2, "$(notdir $?)", o_automatic, 1);
1218 define_variable ("^F", 2, "$(notdir $^)", o_automatic, 1);
1219 define_variable ("+F", 2, "$(notdir $+)", o_automatic, 1);
1220}
1221
1222
1223int export_all_variables;
1224
1225/* Create a new environment for FILE's commands.
1226 If FILE is nil, this is for the `shell' function.
1227 The child's MAKELEVEL variable is incremented. */
1228
1229char **
1230target_environment (struct file *file)
1231{
1232 struct variable_set_list *set_list;
1233 register struct variable_set_list *s;
1234 struct hash_table table;
1235 struct variable **v_slot;
1236 struct variable **v_end;
1237 struct variable makelevel_key;
1238 char **result_0;
1239 char **result;
1240
1241 if (file == 0)
1242 set_list = current_variable_set_list;
1243 else
1244 set_list = file->variables;
1245
1246 hash_init (&table, VARIABLE_BUCKETS,
1247 variable_hash_1, variable_hash_2, variable_hash_cmp);
1248
1249 /* Run through all the variable sets in the list,
1250 accumulating variables in TABLE. */
1251 for (s = set_list; s != 0; s = s->next)
1252 {
1253 struct variable_set *set = s->set;
1254 v_slot = (struct variable **) set->table.ht_vec;
1255 v_end = v_slot + set->table.ht_size;
1256 for ( ; v_slot < v_end; v_slot++)
1257 if (! HASH_VACANT (*v_slot))
1258 {
1259 struct variable **new_slot;
1260 struct variable *v = *v_slot;
1261
1262 /* If this is a per-target variable and it hasn't been touched
1263 already then look up the global version and take its export
1264 value. */
1265 if (v->per_target && v->export == v_default)
1266 {
1267 struct variable *gv;
1268
1269 gv = lookup_variable_in_set (v->name, strlen(v->name),
1270 &global_variable_set);
1271 if (gv)
1272 v->export = gv->export;
1273 }
1274
1275 switch (v->export)
1276 {
1277 case v_default:
1278 if (v->origin == o_default || v->origin == o_automatic)
1279 /* Only export default variables by explicit request. */
1280 continue;
1281
1282 /* The variable doesn't have a name that can be exported. */
1283 if (! v->exportable)
1284 continue;
1285
1286 if (! export_all_variables
1287 && v->origin != o_command
1288 && v->origin != o_env && v->origin != o_env_override)
1289 continue;
1290 break;
1291
1292 case v_export:
1293 break;
1294
1295 case v_noexport:
1296 /* If this is the SHELL variable and it's not exported, then
1297 add the value from our original environment. */
1298 if (streq (v->name, "SHELL"))
1299 {
1300 extern struct variable shell_var;
1301 v = &shell_var;
1302 break;
1303 }
1304 continue;
1305
1306 case v_ifset:
1307 if (v->origin == o_default)
1308 continue;
1309 break;
1310 }
1311
1312 new_slot = (struct variable **) hash_find_slot (&table, v);
1313 if (HASH_VACANT (*new_slot))
1314 hash_insert_at (&table, v, new_slot);
1315 }
1316 }
1317
1318 makelevel_key.name = MAKELEVEL_NAME;
1319 makelevel_key.length = MAKELEVEL_LENGTH;
1320#ifdef VARIABLE_HASH /* bird */
1321 makelevel_key.hash1 = variable_hash_1i (MAKELEVEL_NAME, MAKELEVEL_LENGTH);
1322 makelevel_key.hash2 = 0;
1323#endif
1324 hash_delete (&table, &makelevel_key);
1325
1326 result = result_0 = xmalloc ((table.ht_fill + 2) * sizeof (char *));
1327
1328 v_slot = (struct variable **) table.ht_vec;
1329 v_end = v_slot + table.ht_size;
1330 for ( ; v_slot < v_end; v_slot++)
1331 if (! HASH_VACANT (*v_slot))
1332 {
1333 struct variable *v = *v_slot;
1334
1335 /* If V is recursively expanded and didn't come from the environment,
1336 expand its value. If it came from the environment, it should
1337 go back into the environment unchanged. */
1338 if (v->recursive
1339 && v->origin != o_env && v->origin != o_env_override)
1340 {
1341 char *value = recursively_expand_for_file (v, file);
1342#ifdef WINDOWS32
1343 if (strcmp(v->name, "Path") == 0 ||
1344 strcmp(v->name, "PATH") == 0)
1345 convert_Path_to_windows32(value, ';');
1346#endif
1347 *result++ = xstrdup (concat (v->name, "=", value));
1348 free (value);
1349 }
1350 else
1351 {
1352#ifdef WINDOWS32
1353 if (strcmp(v->name, "Path") == 0 ||
1354 strcmp(v->name, "PATH") == 0)
1355 convert_Path_to_windows32(v->value, ';');
1356#endif
1357 *result++ = xstrdup (concat (v->name, "=", v->value));
1358 }
1359 }
1360
1361 *result = xmalloc (100);
1362 sprintf (*result, "%s=%u", MAKELEVEL_NAME, makelevel + 1);
1363 *++result = 0;
1364
1365 hash_free (&table, 0);
1366
1367 return result_0;
1368}
1369
1370
1371#ifdef CONFIG_WITH_VALUE_LENGTH
1372static struct variable *
1373do_variable_definition_append (const struct floc *flocp, struct variable *v, const char *value,
1374 enum variable_origin origin, int append)
1375{
1376 if (env_overrides && origin == o_env)
1377 origin = o_env_override;
1378
1379 if (env_overrides && v->origin == o_env)
1380 /* V came from in the environment. Since it was defined
1381 before the switches were parsed, it wasn't affected by -e. */
1382 v->origin = o_env_override;
1383
1384 /* A variable of this name is already defined.
1385 If the old definition is from a stronger source
1386 than this one, don't redefine it. */
1387 if ((int) origin < (int) v->origin)
1388 return v;
1389 v->origin = origin;
1390
1391 /* location */
1392 if (flocp != 0)
1393 v->fileinfo = *flocp;
1394
1395 /* The juicy bits, append the specified value to the variable
1396 This is a heavily exercied code path in kBuild. */
1397 if (v->recursive)
1398 {
1399 /* The previous definition of the variable was recursive.
1400 The new value is the unexpanded old and new values. */
1401 unsigned int value_len = strlen (value);
1402 unsigned int new_value_len = value_len + (v->value_length != 0 ? 1 + v->value_length : 0);
1403 int done_1st_prepend_copy = 0;
1404
1405 /* adjust the size. */
1406 if ((unsigned)v->value_alloc_len <= new_value_len)
1407 {
1408 /* XXX: anticipating further appends/prepends. */
1409 if (value_len > v->value_alloc_len)
1410 v->value_alloc_len = (new_value_len + 0x80) + 0x7f;
1411 else
1412 v->value_alloc_len = (new_value_len + value_len + 0x80) + 0x7f;
1413 if (append || !v->value_length)
1414 v->value = xrealloc (v->value, v->value_alloc_len);
1415 else
1416 {
1417 /* avoid the extra memcpy the xrealloc may have to do */
1418 char *new_buf = xmalloc (v->value_alloc_len);
1419 memcpy (&new_buf[value_len + 1], v->value, v->value_length + 1);
1420 done_1st_prepend_copy = 1;
1421 free (v->value);
1422 v->value = new_buf;
1423 }
1424 }
1425
1426 /* insert the new bits */
1427 if (v->value_length != 0)
1428 {
1429 if (append)
1430 {
1431 v->value[v->value_length] = ' ';
1432 memcpy (&v->value[v->value_length + 1], value, value_len + 1);
1433 }
1434 else
1435 {
1436 if (!done_1st_prepend_copy)
1437 memmove (&v->value[value_len + 1], v->value, v->value_length + 1);
1438 v->value[value_len] = ' ';
1439 memcpy (v->value, value, value_len);
1440 }
1441 }
1442 else
1443 memcpy (v->value, value, value_len + 1);
1444 v->value_length = new_value_len;
1445 }
1446 else
1447 {
1448 /* The previous definition of the variable was simple.
1449 The new value comes from the old value, which was expanded
1450 when it was set; and from the expanded new value. */
1451 append_expanded_string_to_variable(v, value);
1452 }
1453
1454 /* update the variable */
1455 return v;
1456}
1457#endif /* CONFIG_WITH_VALUE_LENGTH */
1458
1459
1460/* Given a variable, a value, and a flavor, define the variable.
1461 See the try_variable_definition() function for details on the parameters. */
1462
1463struct variable *
1464do_variable_definition (const struct floc *flocp, const char *varname,
1465 const char *value, enum variable_origin origin,
1466 enum variable_flavor flavor, int target_var)
1467{
1468 const char *p;
1469 char *alloc_value = NULL;
1470 struct variable *v;
1471 int append = 0;
1472 int conditional = 0;
1473 const size_t varname_len = strlen (varname); /* bird */
1474#ifdef CONFIG_WITH_VALUE_LENGTH
1475 unsigned int value_len = ~0U;
1476#endif
1477
1478 /* Calculate the variable's new value in VALUE. */
1479
1480 switch (flavor)
1481 {
1482 default:
1483 case f_bogus:
1484 /* Should not be possible. */
1485 abort ();
1486 case f_simple:
1487 /* A simple variable definition "var := value". Expand the value.
1488 We have to allocate memory since otherwise it'll clobber the
1489 variable buffer, and we may still need that if we're looking at a
1490 target-specific variable. */
1491 p = alloc_value = allocated_variable_expand (value);
1492 break;
1493 case f_conditional:
1494 /* A conditional variable definition "var ?= value".
1495 The value is set IFF the variable is not defined yet. */
1496 v = lookup_variable (varname, varname_len);
1497 if (v)
1498 return v;
1499
1500 conditional = 1;
1501 flavor = f_recursive;
1502 /* FALLTHROUGH */
1503 case f_recursive:
1504 /* A recursive variable definition "var = value".
1505 The value is used verbatim. */
1506 p = value;
1507 break;
1508#ifdef CONFIG_WITH_PREPEND_ASSIGNMENT
1509 case f_append:
1510 case f_prepend:
1511 {
1512 const enum variable_flavor org_flavor = flavor;
1513#else
1514 case f_append:
1515 {
1516#endif
1517
1518 /* If we have += but we're in a target variable context, we want to
1519 append only with other variables in the context of this target. */
1520 if (target_var)
1521 {
1522 append = 1;
1523 v = lookup_variable_in_set (varname, varname_len,
1524 current_variable_set_list->set);
1525
1526 /* Don't append from the global set if a previous non-appending
1527 target-specific variable definition exists. */
1528 if (v && !v->append)
1529 append = 0;
1530 }
1531 else
1532 v = lookup_variable (varname, varname_len);
1533
1534 if (v == 0)
1535 {
1536 /* There was no old value.
1537 This becomes a normal recursive definition. */
1538 p = value;
1539 flavor = f_recursive;
1540 }
1541 else
1542 {
1543#ifdef CONFIG_WITH_VALUE_LENGTH
1544 v->append = append;
1545# ifdef CONFIG_WITH_PREPEND_ASSIGNMENT
1546 return do_variable_definition_append (flocp, v, value, origin, org_flavor == f_append);
1547# else
1548 return do_variable_definition_append (flocp, v, value, origin, 1);
1549# endif
1550#else /* !CONFIG_WITH_VALUE_LENGTH */
1551
1552 /* Paste the old and new values together in VALUE. */
1553
1554 unsigned int oldlen, vallen;
1555 const char *val;
1556 char *tp;
1557
1558 val = value;
1559 if (v->recursive)
1560 /* The previous definition of the variable was recursive.
1561 The new value is the unexpanded old and new values. */
1562 flavor = f_recursive;
1563 else
1564 /* The previous definition of the variable was simple.
1565 The new value comes from the old value, which was expanded
1566 when it was set; and from the expanded new value. Allocate
1567 memory for the expansion as we may still need the rest of the
1568 buffer if we're looking at a target-specific variable. */
1569 val = alloc_value = allocated_variable_expand (val);
1570
1571 oldlen = strlen (v->value);
1572 vallen = strlen (val);
1573 tp = alloca (oldlen + 1 + vallen + 1);
1574# ifdef CONFIG_WITH_PREPEND_ASSIGNMENT
1575 if (org_flavor == f_prepend)
1576 {
1577 memcpy (tp, val, vallen);
1578 tp[oldlen] = ' ';
1579 memcpy (&tp[oldlen + 1], v->value, oldlen + 1);
1580 }
1581 else
1582# endif /* CONFIG_WITH_PREPEND_ASSIGNMENT */
1583 {
1584 memcpy (tp, v->value, oldlen);
1585 tp[oldlen] = ' ';
1586 memcpy (&tp[oldlen + 1], val, vallen + 1);
1587 }
1588 p = tp;
1589#endif /* !CONFIG_WITH_VALUE_LENGTH */
1590 }
1591 }
1592 }
1593
1594#ifdef __MSDOS__
1595 /* Many Unix Makefiles include a line saying "SHELL=/bin/sh", but
1596 non-Unix systems don't conform to this default configuration (in
1597 fact, most of them don't even have `/bin'). On the other hand,
1598 $SHELL in the environment, if set, points to the real pathname of
1599 the shell.
1600 Therefore, we generally won't let lines like "SHELL=/bin/sh" from
1601 the Makefile override $SHELL from the environment. But first, we
1602 look for the basename of the shell in the directory where SHELL=
1603 points, and along the $PATH; if it is found in any of these places,
1604 we define $SHELL to be the actual pathname of the shell. Thus, if
1605 you have bash.exe installed as d:/unix/bash.exe, and d:/unix is on
1606 your $PATH, then SHELL=/usr/local/bin/bash will have the effect of
1607 defining SHELL to be "d:/unix/bash.exe". */
1608 if ((origin == o_file || origin == o_override)
1609 && strcmp (varname, "SHELL") == 0)
1610 {
1611 PATH_VAR (shellpath);
1612 extern char * __dosexec_find_on_path (const char *, char *[], char *);
1613
1614 /* See if we can find "/bin/sh.exe", "/bin/sh.com", etc. */
1615 if (__dosexec_find_on_path (p, NULL, shellpath))
1616 {
1617 char *tp;
1618
1619 for (tp = shellpath; *tp; tp++)
1620 if (*tp == '\\')
1621 *tp = '/';
1622
1623 v = define_variable_loc (varname, varname_len,
1624 shellpath, origin, flavor == f_recursive,
1625 flocp);
1626 }
1627 else
1628 {
1629 const char *shellbase, *bslash;
1630 struct variable *pathv = lookup_variable ("PATH", 4);
1631 char *path_string;
1632 char *fake_env[2];
1633 size_t pathlen = 0;
1634
1635 shellbase = strrchr (p, '/');
1636 bslash = strrchr (p, '\\');
1637 if (!shellbase || bslash > shellbase)
1638 shellbase = bslash;
1639 if (!shellbase && p[1] == ':')
1640 shellbase = p + 1;
1641 if (shellbase)
1642 shellbase++;
1643 else
1644 shellbase = p;
1645
1646 /* Search for the basename of the shell (with standard
1647 executable extensions) along the $PATH. */
1648 if (pathv)
1649 pathlen = strlen (pathv->value);
1650 path_string = xmalloc (5 + pathlen + 2 + 1);
1651 /* On MSDOS, current directory is considered as part of $PATH. */
1652 sprintf (path_string, "PATH=.;%s", pathv ? pathv->value : "");
1653 fake_env[0] = path_string;
1654 fake_env[1] = 0;
1655 if (__dosexec_find_on_path (shellbase, fake_env, shellpath))
1656 {
1657 char *tp;
1658
1659 for (tp = shellpath; *tp; tp++)
1660 if (*tp == '\\')
1661 *tp = '/';
1662
1663 v = define_variable_loc (varname, varname_len,
1664 shellpath, origin,
1665 flavor == f_recursive, flocp);
1666 }
1667 else
1668 v = lookup_variable (varname, varname_len);
1669
1670 free (path_string);
1671 }
1672 }
1673 else
1674#endif /* __MSDOS__ */
1675#ifdef WINDOWS32
1676 if ( varname_len == sizeof("SHELL") - 1 /* bird */
1677 && (origin == o_file || origin == o_override || origin == o_command)
1678 && streq (varname, "SHELL"))
1679 {
1680 extern char *default_shell;
1681
1682 /* Call shell locator function. If it returns TRUE, then
1683 set no_default_sh_exe to indicate sh was found and
1684 set new value for SHELL variable. */
1685
1686 if (find_and_set_default_shell (p))
1687 {
1688 v = define_variable_in_set (varname, varname_len, default_shell,
1689# ifdef CONFIG_WITH_VALUE_LENGTH
1690 ~0U, 1 /* duplicate_value */,
1691# endif
1692 origin, flavor == f_recursive,
1693 (target_var
1694 ? current_variable_set_list->set
1695 : NULL),
1696 flocp);
1697 no_default_sh_exe = 0;
1698 }
1699 else
1700 v = lookup_variable (varname, varname_len);
1701# ifdef CONFIG_WITH_VALUE_LENGTH
1702 if (alloc_value)
1703 free (alloc_value);
1704# endif
1705 }
1706 else
1707#endif
1708
1709 /* If we are defining variables inside an $(eval ...), we might have a
1710 different variable context pushed, not the global context (maybe we're
1711 inside a $(call ...) or something. Since this function is only ever
1712 invoked in places where we want to define globally visible variables,
1713 make sure we define this variable in the global set. */
1714
1715 v = define_variable_in_set (varname, varname_len, p,
1716#ifdef CONFIG_WITH_VALUE_LENGTH
1717 value_len, !alloc_value,
1718#endif
1719 origin, flavor == f_recursive,
1720 (target_var
1721 ? current_variable_set_list->set : NULL),
1722 flocp);
1723 v->append = append;
1724 v->conditional = conditional;
1725
1726#ifndef CONFIG_WITH_VALUE_LENGTH
1727 if (alloc_value)
1728 free (alloc_value);
1729#endif
1730
1731 return v;
1732}
1733
1734
1735/* Try to interpret LINE (a null-terminated string) as a variable definition.
1736
1737 ORIGIN may be o_file, o_override, o_env, o_env_override,
1738 or o_command specifying that the variable definition comes
1739 from a makefile, an override directive, the environment with
1740 or without the -e switch, or the command line.
1741
1742 See the comments for parse_variable_definition().
1743
1744 If LINE was recognized as a variable definition, a pointer to its `struct
1745 variable' is returned. If LINE is not a variable definition, NULL is
1746 returned. */
1747
1748struct variable *
1749parse_variable_definition (struct variable *v, char *line)
1750{
1751 register int c;
1752 register char *p = line;
1753 register char *beg;
1754 register char *end;
1755 enum variable_flavor flavor = f_bogus;
1756 char *name;
1757
1758 while (1)
1759 {
1760 c = *p++;
1761 if (c == '\0' || c == '#')
1762 return 0;
1763 if (c == '=')
1764 {
1765 end = p - 1;
1766 flavor = f_recursive;
1767 break;
1768 }
1769 else if (c == ':')
1770 if (*p == '=')
1771 {
1772 end = p++ - 1;
1773 flavor = f_simple;
1774 break;
1775 }
1776 else
1777 /* A colon other than := is a rule line, not a variable defn. */
1778 return 0;
1779 else if (c == '+' && *p == '=')
1780 {
1781 end = p++ - 1;
1782 flavor = f_append;
1783 break;
1784 }
1785#ifdef CONFIG_WITH_PREPEND_ASSIGNMENT
1786 else if (c == '<' && *p == '=')
1787 {
1788 end = p++ - 1;
1789 flavor = f_prepend;
1790 break;
1791 }
1792#endif
1793 else if (c == '?' && *p == '=')
1794 {
1795 end = p++ - 1;
1796 flavor = f_conditional;
1797 break;
1798 }
1799 else if (c == '$')
1800 {
1801 /* This might begin a variable expansion reference. Make sure we
1802 don't misrecognize chars inside the reference as =, := or +=. */
1803 char closeparen;
1804 int count;
1805 c = *p++;
1806 if (c == '(')
1807 closeparen = ')';
1808 else if (c == '{')
1809 closeparen = '}';
1810 else
1811 continue; /* Nope. */
1812
1813 /* P now points past the opening paren or brace.
1814 Count parens or braces until it is matched. */
1815 count = 0;
1816 for (; *p != '\0'; ++p)
1817 {
1818 if (*p == c)
1819 ++count;
1820 else if (*p == closeparen && --count < 0)
1821 {
1822 ++p;
1823 break;
1824 }
1825 }
1826 }
1827 }
1828 v->flavor = flavor;
1829
1830 beg = next_token (line);
1831 while (end > beg && isblank ((unsigned char)end[-1]))
1832 --end;
1833 p = next_token (p);
1834 v->value = p;
1835#ifdef CONFIG_WITH_VALUE_LENGTH
1836 v->value_length = v->value_alloc_len = -1;
1837#endif
1838
1839 /* Expand the name, so "$(foo)bar = baz" works. */
1840 name = alloca (end - beg + 1);
1841 memcpy (name, beg, end - beg);
1842 name[end - beg] = '\0';
1843 v->name = allocated_variable_expand (name);
1844
1845 if (v->name[0] == '\0')
1846 fatal (&v->fileinfo, _("empty variable name"));
1847
1848 return v;
1849}
1850
1851
1852/* Try to interpret LINE (a null-terminated string) as a variable definition.
1853
1854 ORIGIN may be o_file, o_override, o_env, o_env_override,
1855 or o_command specifying that the variable definition comes
1856 from a makefile, an override directive, the environment with
1857 or without the -e switch, or the command line.
1858
1859 See the comments for parse_variable_definition().
1860
1861 If LINE was recognized as a variable definition, a pointer to its `struct
1862 variable' is returned. If LINE is not a variable definition, NULL is
1863 returned. */
1864
1865struct variable *
1866try_variable_definition (const struct floc *flocp, char *line,
1867 enum variable_origin origin, int target_var)
1868{
1869 struct variable v;
1870 struct variable *vp;
1871
1872 if (flocp != 0)
1873 v.fileinfo = *flocp;
1874 else
1875 v.fileinfo.filenm = 0;
1876
1877 if (!parse_variable_definition (&v, line))
1878 return 0;
1879
1880 vp = do_variable_definition (flocp, v.name, v.value,
1881 origin, v.flavor, target_var);
1882
1883 free (v.name);
1884
1885 return vp;
1886}
1887
1888
1889/* Print information for variable V, prefixing it with PREFIX. */
1890
1891static void
1892print_variable (const void *item, void *arg)
1893{
1894 const struct variable *v = item;
1895 const char *prefix = arg;
1896 const char *origin;
1897
1898 switch (v->origin)
1899 {
1900 case o_default:
1901 origin = _("default");
1902 break;
1903 case o_env:
1904 origin = _("environment");
1905 break;
1906 case o_file:
1907 origin = _("makefile");
1908 break;
1909 case o_env_override:
1910 origin = _("environment under -e");
1911 break;
1912 case o_command:
1913 origin = _("command line");
1914 break;
1915 case o_override:
1916 origin = _("`override' directive");
1917 break;
1918 case o_automatic:
1919 origin = _("automatic");
1920 break;
1921 case o_invalid:
1922 default:
1923 abort ();
1924 }
1925 fputs ("# ", stdout);
1926 fputs (origin, stdout);
1927 if (v->fileinfo.filenm)
1928 printf (_(" (from `%s', line %lu)"),
1929 v->fileinfo.filenm, v->fileinfo.lineno);
1930 putchar ('\n');
1931 fputs (prefix, stdout);
1932
1933 /* Is this a `define'? */
1934 if (v->recursive && strchr (v->value, '\n') != 0)
1935 printf ("define %s\n%s\nendef\n", v->name, v->value);
1936 else
1937 {
1938 register char *p;
1939
1940 printf ("%s %s= ", v->name, v->recursive ? v->append ? "+" : "" : ":");
1941
1942 /* Check if the value is just whitespace. */
1943 p = next_token (v->value);
1944 if (p != v->value && *p == '\0')
1945 /* All whitespace. */
1946 printf ("$(subst ,,%s)", v->value);
1947 else if (v->recursive)
1948 fputs (v->value, stdout);
1949 else
1950 /* Double up dollar signs. */
1951 for (p = v->value; *p != '\0'; ++p)
1952 {
1953 if (*p == '$')
1954 putchar ('$');
1955 putchar (*p);
1956 }
1957 putchar ('\n');
1958 }
1959}
1960
1961
1962/* Print all the variables in SET. PREFIX is printed before
1963 the actual variable definitions (everything else is comments). */
1964
1965void
1966print_variable_set (struct variable_set *set, char *prefix)
1967{
1968 hash_map_arg (&set->table, print_variable, prefix);
1969
1970 fputs (_("# variable set hash-table stats:\n"), stdout);
1971 fputs ("# ", stdout);
1972 hash_print_stats (&set->table, stdout);
1973 putc ('\n', stdout);
1974}
1975
1976/* Print the data base of variables. */
1977
1978void
1979print_variable_data_base (void)
1980{
1981 puts (_("\n# Variables\n"));
1982
1983 print_variable_set (&global_variable_set, "");
1984
1985 puts (_("\n# Pattern-specific Variable Values"));
1986
1987 {
1988 struct pattern_var *p;
1989 int rules = 0;
1990
1991 for (p = pattern_vars; p != 0; p = p->next)
1992 {
1993 ++rules;
1994 printf ("\n%s :\n", p->target);
1995 print_variable (&p->variable, "# ");
1996 }
1997
1998 if (rules == 0)
1999 puts (_("\n# No pattern-specific variable values."));
2000 else
2001 printf (_("\n# %u pattern-specific variable values"), rules);
2002 }
2003}
2004
2005
2006/* Print all the local variables of FILE. */
2007
2008void
2009print_file_variables (const struct file *file)
2010{
2011 if (file->variables != 0)
2012 print_variable_set (file->variables->set, "# ");
2013}
2014
2015#ifdef WINDOWS32
2016void
2017sync_Path_environment (void)
2018{
2019 char *path = allocated_variable_expand ("$(PATH)");
2020 static char *environ_path = NULL;
2021
2022 if (!path)
2023 return;
2024
2025 /*
2026 * If done this before, don't leak memory unnecessarily.
2027 * Free the previous entry before allocating new one.
2028 */
2029 if (environ_path)
2030 free (environ_path);
2031
2032 /*
2033 * Create something WINDOWS32 world can grok
2034 */
2035 convert_Path_to_windows32 (path, ';');
2036 environ_path = xstrdup (concat ("PATH", "=", path));
2037 putenv (environ_path);
2038 free (path);
2039}
2040#endif
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