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1 /* Functions to support link list bitsets.
2 Copyright (C) 2002 Free Software Foundation, Inc.
3 Contributed by Michael Hayes (m.hayes@elec.canterbury.ac.nz).
4
5 This program is free software; you can redistribute it and/or modify
6 it under the terms of the GNU General Public License as published by
7 the Free Software Foundation; either version 2 of the License, or
8 (at your option) any later version.
9
10 This program is distributed in the hope that it will be useful,
11 but WITHOUT ANY WARRANTY; without even the implied warranty of
12 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 GNU General Public License for more details.
14
15 You should have received a copy of the GNU General Public License
16 along with this program; if not, write to the Free Software
17 Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
18 */
19
20 #ifdef HAVE_CONFIG_H
21 #include "config.h"
22 #endif
23
24 #include "lbitset.h"
25 #include "obstack.h"
26 #include <stddef.h>
27 #include <stdlib.h>
28 #include <stdio.h>
29
30 /* This file implements linked-list bitsets. These bitsets can be of
31 arbitrary length and are more efficient than arrays of bits for
32 large sparse sets.
33
34 Usually if all the bits in an element are zero we remove the element
35 from the list. However, a side effect of the bit caching is that we
36 do not always notice when an element becomes zero. Hence the
37 lbitset_weed function which removes zero elements. */
38
39
40 /* Number of words to use for each element. The larger the value the
41 greater the size of the cache and the shorter the time to find a given bit
42 but the more memory wasted for sparse bitsets and the longer the time
43 to search for set bits. */
44
45 #define LBITSET_ELT_WORDS 2
46
47 typedef bitset_word lbitset_word;
48
49 #define LBITSET_WORD_BITS BITSET_WORD_BITS
50
51 /* Number of bits stored in each element. */
52 #define LBITSET_ELT_BITS \
53 ((unsigned) (LBITSET_ELT_WORDS * LBITSET_WORD_BITS))
54
55 /* Lbitset element. We use an array of bits for each element.
56 These are linked together in a doubly-linked list. */
57 typedef struct lbitset_elt_struct
58 {
59 struct lbitset_elt_struct *next; /* Next element. */
60 struct lbitset_elt_struct *prev; /* Previous element. */
61 bitset_windex index; /* bitno / BITSET_WORD_BITS. */
62 bitset_word words[LBITSET_ELT_WORDS]; /* Bits that are set. */
63 }
64 lbitset_elt;
65
66
67 enum lbitset_find_mode
68 { LBITSET_FIND, LBITSET_CREATE, LBITSET_SUBST };
69
70 static lbitset_elt lbitset_zero_elts[3]; /* Elements of all zero bits. */
71
72 /* Obstack to allocate bitset elements from. */
73 static struct obstack lbitset_obstack;
74 static int lbitset_obstack_init = 0;
75 static lbitset_elt *lbitset_free_list; /* Free list of bitset elements. */
76
77 extern void debug_lbitset PARAMS ((bitset));
78
79 #define LBITSET_CURRENT1(X) \
80 ((lbitset_elt *) (void *) ((char *) (X) - offsetof (lbitset_elt, words)))
81
82 #define LBITSET_CURRENT(X) LBITSET_CURRENT1((X)->b.cdata)
83
84 #define LBITSET_HEAD(X) ((X)->l.head)
85 #define LBITSET_TAIL(X) ((X)->l.tail)
86
87 /* Allocate a lbitset element. The bits are not cleared. */
88 static inline lbitset_elt *
89 lbitset_elt_alloc (void)
90 {
91 lbitset_elt *elt;
92
93 if (lbitset_free_list != 0)
94 {
95 elt = lbitset_free_list;
96 lbitset_free_list = elt->next;
97 }
98 else
99 {
100 if (!lbitset_obstack_init)
101 {
102 lbitset_obstack_init = 1;
103
104 /* Let particular systems override the size of a chunk. */
105
106 #ifndef OBSTACK_CHUNK_SIZE
107 #define OBSTACK_CHUNK_SIZE 0
108 #endif
109
110 /* Let them override the alloc and free routines too. */
111
112 #ifndef OBSTACK_CHUNK_ALLOC
113 #define OBSTACK_CHUNK_ALLOC xmalloc
114 #endif
115
116 #ifndef OBSTACK_CHUNK_FREE
117 #define OBSTACK_CHUNK_FREE free
118 #endif
119
120 #if !defined(__GNUC__) || (__GNUC__ < 2)
121 #define __alignof__(type) 0
122 #endif
123
124 obstack_specify_allocation (&lbitset_obstack, OBSTACK_CHUNK_SIZE,
125 __alignof__ (lbitset_elt),
126 (void *(*)PARAMS ((long)))
127 OBSTACK_CHUNK_ALLOC,
128 (void (*)PARAMS ((void *)))
129 OBSTACK_CHUNK_FREE);
130 }
131
132 /* Perhaps we should add a number of new elements to the free
133 list. */
134 elt = (lbitset_elt *) obstack_alloc (&lbitset_obstack,
135 sizeof (lbitset_elt));
136 }
137
138 return elt;
139 }
140
141
142 /* Allocate a lbitset element. The bits are cleared. */
143 static inline lbitset_elt *
144 lbitset_elt_calloc (void)
145 {
146 lbitset_elt *elt;
147
148 elt = lbitset_elt_alloc ();
149 memset (elt->words, 0, sizeof (elt->words));
150 return elt;
151 }
152
153
154 static inline void
155 lbitset_elt_free (lbitset_elt *elt)
156 {
157 elt->next = lbitset_free_list;
158 lbitset_free_list = elt;
159 }
160
161
162 /* Unlink element ELT from bitset BSET. */
163 static inline void
164 lbitset_elt_unlink (bitset bset, lbitset_elt *elt)
165 {
166 lbitset_elt *next = elt->next;
167 lbitset_elt *prev = elt->prev;
168
169 if (prev)
170 prev->next = next;
171
172 if (next)
173 next->prev = prev;
174
175 if (LBITSET_HEAD (bset) == elt)
176 LBITSET_HEAD (bset) = next;
177 if (LBITSET_TAIL (bset) == elt)
178 LBITSET_TAIL (bset) = prev;
179
180 /* Update cache pointer. Since the first thing we try is to insert
181 before current, make current the next entry in preference to the
182 previous. */
183 if (LBITSET_CURRENT (bset) == elt)
184 {
185 if (next)
186 {
187 bset->b.cdata = next->words;
188 bset->b.cindex = next->index;
189 }
190 else if (prev)
191 {
192 bset->b.cdata = prev->words;
193 bset->b.cindex = prev->index;
194 }
195 else
196 {
197 bset->b.csize = 0;
198 bset->b.cdata = 0;
199 }
200 }
201
202 lbitset_elt_free (elt);
203 }
204
205
206 /* Cut the chain of bitset BSET before element ELT and free the
207 elements. */
208 static inline void
209 lbitset_prune (bitset bset, lbitset_elt *elt)
210 {
211 lbitset_elt *next;
212
213 if (!elt)
214 return;
215
216 if (elt->prev)
217 {
218 LBITSET_TAIL (bset) = elt->prev;
219 bset->b.cdata = elt->prev->words;
220 bset->b.cindex = elt->prev->index;
221 elt->prev->next = 0;
222 }
223 else
224 {
225 LBITSET_HEAD (bset) = 0;
226 LBITSET_TAIL (bset) = 0;
227 bset->b.cdata = 0;
228 bset->b.csize = 0;
229 }
230
231 for (; elt; elt = next)
232 {
233 next = elt->next;
234 lbitset_elt_free (elt);
235 }
236 }
237
238
239 /* Return nonzero if all bits in an element are zero. */
240 static inline int
241 lbitset_elt_zero_p (lbitset_elt *elt)
242 {
243 int i;
244
245 for (i = 0; i < LBITSET_ELT_WORDS; i++)
246 if (elt->words[i])
247 return 0;
248
249 return 1;
250 }
251
252
253 /* Link the bitset element into the current bitset linked list. */
254 static inline void
255 lbitset_elt_link (bitset bset, lbitset_elt *elt)
256 {
257 bitset_windex windex = elt->index;
258 lbitset_elt *ptr;
259 lbitset_elt *current;
260
261 if (bset->b.csize)
262 current = LBITSET_CURRENT (bset);
263 else
264 current = LBITSET_HEAD (bset);
265
266 /* If this is the first and only element, add it in. */
267 if (LBITSET_HEAD (bset) == 0)
268 {
269 elt->next = elt->prev = 0;
270 LBITSET_HEAD (bset) = elt;
271 LBITSET_TAIL (bset) = elt;
272 }
273
274 /* If this index is less than that of the current element, it goes
275 somewhere before the current element. */
276 else if (windex < bset->b.cindex)
277 {
278 for (ptr = current;
279 ptr->prev && ptr->prev->index > windex; ptr = ptr->prev)
280 continue;
281
282 if (ptr->prev)
283 ptr->prev->next = elt;
284 else
285 LBITSET_HEAD (bset) = elt;
286
287 elt->prev = ptr->prev;
288 elt->next = ptr;
289 ptr->prev = elt;
290 }
291
292 /* Otherwise, it must go somewhere after the current element. */
293 else
294 {
295 for (ptr = current;
296 ptr->next && ptr->next->index < windex; ptr = ptr->next)
297 continue;
298
299 if (ptr->next)
300 ptr->next->prev = elt;
301 else
302 LBITSET_TAIL (bset) = elt;
303
304 elt->next = ptr->next;
305 elt->prev = ptr;
306 ptr->next = elt;
307 }
308
309 /* Set up so this is the first element searched. */
310 bset->b.cindex = windex;
311 bset->b.csize = LBITSET_ELT_WORDS;
312 bset->b.cdata = elt->words;
313 }
314
315
316 static lbitset_elt *
317 lbitset_elt_find (bitset bset, bitset_windex windex,
318 enum lbitset_find_mode mode)
319 {
320 lbitset_elt *elt;
321 lbitset_elt *current;
322
323 if (bset->b.csize)
324 {
325 current = LBITSET_CURRENT (bset);
326 /* Check if element is the cached element. */
327 if ((windex - bset->b.cindex) < bset->b.csize)
328 return current;
329 }
330 else
331 {
332 current = LBITSET_HEAD (bset);
333 }
334
335 if (current)
336 {
337 if (windex < bset->b.cindex)
338 {
339 for (elt = current;
340 elt->prev && elt->index > windex; elt = elt->prev)
341 continue;
342 }
343 else
344 {
345 for (elt = current;
346 elt->next && (elt->index + LBITSET_ELT_WORDS - 1) < windex;
347 elt = elt->next)
348 continue;
349 }
350
351 /* ELT is the nearest to the one we want. If it's not the one
352 we want, the one we want does not exist. */
353 if (elt && (windex - elt->index) < LBITSET_ELT_WORDS)
354 {
355 bset->b.cindex = elt->index;
356 bset->b.csize = LBITSET_ELT_WORDS;
357 bset->b.cdata = elt->words;
358 return elt;
359 }
360 }
361
362 switch (mode)
363 {
364 case LBITSET_FIND:
365 return 0;
366
367 case LBITSET_CREATE:
368 windex -= windex % LBITSET_ELT_WORDS;
369
370 elt = lbitset_elt_calloc ();
371 elt->index = windex;
372 lbitset_elt_link (bset, elt);
373 return elt;
374
375 case LBITSET_SUBST:
376 return &lbitset_zero_elts[0];
377
378 default:
379 abort ();
380 }
381 }
382
383
384 /* Weed out the zero elements from the list. */
385 static inline void
386 lbitset_weed (bitset bset)
387 {
388 lbitset_elt *elt;
389 lbitset_elt *next;
390
391 for (elt = LBITSET_HEAD (bset); elt; elt = next)
392 {
393 next = elt->next;
394 if (lbitset_elt_zero_p (elt))
395 lbitset_elt_unlink (bset, elt);
396 }
397 }
398
399
400 /* Set all bits in the bitset to zero. */
401 static void
402 lbitset_zero (bitset bset)
403 {
404 lbitset_elt *head;
405
406 head = LBITSET_HEAD (bset);
407 if (!head)
408 return;
409
410 /* Clear a bitset by freeing the linked list at the head element. */
411 lbitset_prune (bset, head);
412 }
413
414
415 /* Return 1 if DST == SRC. */
416 static inline int
417 lbitset_equal_p (bitset dst, bitset src)
418 {
419 lbitset_elt *selt;
420 lbitset_elt *delt;
421 int j;
422
423 if (src == dst)
424 return 1;
425
426 lbitset_weed (src);
427 lbitset_weed (dst);
428 for (selt = LBITSET_HEAD (src), delt = LBITSET_HEAD (dst);
429 selt && delt; selt = selt->next, delt = delt->next)
430 {
431 if (selt->index != delt->index)
432 return 0;
433
434 for (j = 0; j < LBITSET_ELT_WORDS; j++)
435 if (delt->words[j] != selt->words[j])
436 return 0;
437 }
438 return !selt && !delt;
439 }
440
441
442 /* Copy bits from bitset SRC to bitset DST. */
443 static inline void
444 lbitset_copy (bitset dst, bitset src)
445 {
446 lbitset_elt *elt;
447 lbitset_elt *head;
448 lbitset_elt *prev;
449 lbitset_elt *tmp;
450
451 if (src == dst)
452 return;
453
454 lbitset_zero (dst);
455
456 head = LBITSET_HEAD (src);
457 if (!head)
458 return;
459
460 prev = 0;
461 for (elt = head; elt; elt = elt->next)
462 {
463 tmp = lbitset_elt_alloc ();
464 tmp->index = elt->index;
465 tmp->prev = prev;
466 tmp->next = 0;
467 if (prev)
468 prev->next = tmp;
469 else
470 LBITSET_HEAD (dst) = tmp;
471 prev = tmp;
472
473 memcpy (tmp->words, elt->words, sizeof (elt->words));
474 }
475 LBITSET_TAIL (dst) = tmp;
476
477 dst->b.csize = LBITSET_ELT_WORDS;
478 dst->b.cdata = LBITSET_HEAD (dst)->words;
479 dst->b.cindex = LBITSET_HEAD (dst)->index;
480 }
481
482
483 /* Copy bits from bitset SRC to bitset DST. Return non-zero if
484 bitsets different. */
485 static inline int
486 lbitset_copy_cmp (bitset dst, bitset src)
487 {
488 if (src == dst)
489 return 0;
490
491 if (!LBITSET_HEAD (dst))
492 {
493 lbitset_copy (dst, src);
494 return LBITSET_HEAD (src) != 0;
495 }
496
497 if (lbitset_equal_p (dst, src))
498 return 0;
499
500 lbitset_copy (dst, src);
501 return 1;
502 }
503
504
505 /* Return size in bits of bitset SRC. */
506 static bitset_bindex
507 lbitset_size (bitset src)
508 {
509 lbitset_elt *elt;
510
511 elt = LBITSET_TAIL (src);
512 if (!elt)
513 return 0;
514
515 /* Return current size of bitset in bits. */
516 return (elt->index + LBITSET_ELT_WORDS) * BITSET_WORD_BITS;
517 }
518
519
520 /* Set bit BITNO in bitset DST. */
521 static void
522 lbitset_set (bitset dst, bitset_bindex bitno)
523 {
524 bitset_windex windex = bitno / BITSET_WORD_BITS;
525
526 lbitset_elt_find (dst, windex, LBITSET_CREATE);
527
528 dst->b.cdata[windex - dst->b.cindex] |=
529 (bitset_word) 1 << (bitno % BITSET_WORD_BITS);
530 }
531
532
533 /* Reset bit BITNO in bitset DST. */
534 static void
535 lbitset_reset (bitset dst, bitset_bindex bitno)
536 {
537 bitset_windex windex = bitno / BITSET_WORD_BITS;
538
539 if (!lbitset_elt_find (dst, windex, LBITSET_FIND))
540 return;
541
542 dst->b.cdata[windex - dst->b.cindex] &=
543 ~((bitset_word) 1 << (bitno % BITSET_WORD_BITS));
544
545 /* If all the data is zero, perhaps we should unlink it now... */
546 }
547
548
549 /* Test bit BITNO in bitset SRC. */
550 static int
551 lbitset_test (bitset src, bitset_bindex bitno)
552 {
553 bitset_windex windex = bitno / BITSET_WORD_BITS;
554
555 if (!lbitset_elt_find (src, windex, LBITSET_FIND))
556 return 0;
557
558 return (src->b.cdata[windex - src->b.cindex]
559 >> (bitno % BITSET_WORD_BITS)) & 1;
560 }
561
562
563 static void
564 lbitset_free (bitset bset)
565 {
566 lbitset_zero (bset);
567 }
568
569
570 /* Find list of up to NUM bits set in BSET starting from and including
571 *NEXT and store in array LIST. Return with actual number of bits
572 found and with *NEXT indicating where search stopped. */
573 static bitset_bindex
574 lbitset_list_reverse (bitset bset, bitset_bindex *list,
575 bitset_bindex num, bitset_bindex *next)
576 {
577 bitset_bindex rbitno;
578 bitset_bindex bitno;
579 unsigned int bcount;
580 bitset_bindex boffset;
581 bitset_windex windex;
582 bitset_bindex count;
583 lbitset_elt *elt;
584 bitset_word word;
585 bitset_bindex n_bits;
586
587 elt = LBITSET_TAIL (bset);
588 if (!elt)
589 return 0;
590
591 n_bits = (elt->index + LBITSET_ELT_WORDS) * BITSET_WORD_BITS;
592 rbitno = *next;
593
594 if (rbitno >= n_bits)
595 return 0;
596
597 bitno = n_bits - (rbitno + 1);
598
599 windex = bitno / BITSET_WORD_BITS;
600
601 /* Skip back to starting element. */
602 for (; elt && elt->index > windex; elt = elt->prev)
603 continue;
604
605 if (!elt)
606 return 0;
607
608 if (windex >= elt->index + LBITSET_ELT_WORDS)
609 {
610 /* We are trying to start in no-mans land so start
611 at end of current elt. */
612 bcount = BITSET_WORD_BITS - 1;
613 windex = elt->index + LBITSET_ELT_WORDS - 1;
614 }
615 else
616 {
617 bcount = bitno % BITSET_WORD_BITS;
618 }
619
620 count = 0;
621 boffset = windex * BITSET_WORD_BITS;
622
623 /* If num is 1, we could speed things up with a binary search
624 of the word of interest. */
625
626 while (elt)
627 {
628 bitset_word *srcp = elt->words;
629
630 for (; (windex - elt->index) < LBITSET_ELT_WORDS;
631 windex--, boffset -= BITSET_WORD_BITS,
632 bcount = BITSET_WORD_BITS - 1)
633 {
634 word =
635 srcp[windex - elt->index] << (BITSET_WORD_BITS - 1 - bcount);
636
637 for (; word; bcount--)
638 {
639 if (word & BITSET_MSB)
640 {
641 list[count++] = boffset + bcount;
642 if (count >= num)
643 {
644 *next = n_bits - (boffset + bcount);
645 return count;
646 }
647 }
648 word <<= 1;
649 }
650 }
651
652 elt = elt->prev;
653 if (elt)
654 {
655 windex = elt->index + LBITSET_ELT_WORDS - 1;
656 boffset = windex * BITSET_WORD_BITS;
657 }
658 }
659
660 *next = n_bits - (boffset + 1);
661 return count;
662 }
663
664
665 /* Find list of up to NUM bits set in BSET starting from and including
666 *NEXT and store in array LIST. Return with actual number of bits
667 found and with *NEXT indicating where search stopped. */
668 static bitset_bindex
669 lbitset_list (bitset bset, bitset_bindex *list,
670 bitset_bindex num, bitset_bindex *next)
671 {
672 bitset_bindex bitno;
673 bitset_windex windex;
674 bitset_bindex count;
675 lbitset_elt *elt;
676 lbitset_elt *head;
677 bitset_word word;
678
679 head = LBITSET_HEAD (bset);
680 if (!head)
681 return 0;
682
683 bitno = *next;
684 count = 0;
685
686 if (!bitno)
687 {
688 /* This is the most common case. */
689
690 /* Start with the first element. */
691 elt = head;
692 windex = elt->index;
693 bitno = windex * BITSET_WORD_BITS;
694 }
695 else
696 {
697 windex = bitno / BITSET_WORD_BITS;
698
699 /* Skip to starting element. */
700 for (elt = head;
701 elt && (elt->index + LBITSET_ELT_WORDS - 1) < windex;
702 elt = elt->next)
703 continue;
704
705 if (!elt)
706 return 0;
707
708 if (windex < elt->index)
709 {
710 windex = elt->index;
711 bitno = windex * BITSET_WORD_BITS;
712 }
713 else
714 {
715 bitset_word *srcp = elt->words;
716
717 /* We are starting within an element. */
718
719 for (; (windex - elt->index) < LBITSET_ELT_WORDS; windex++)
720 {
721 word = srcp[windex - elt->index] >> (bitno % BITSET_WORD_BITS);
722
723 for (; word; bitno++)
724 {
725 if (word & 1)
726 {
727 list[count++] = bitno;
728 if (count >= num)
729 {
730 *next = bitno + 1;
731 return count;
732 }
733 }
734 word >>= 1;
735 }
736 bitno = (windex + 1) * BITSET_WORD_BITS;
737 }
738
739 elt = elt->next;
740 if (elt)
741 {
742 windex = elt->index;
743 bitno = windex * BITSET_WORD_BITS;
744 }
745 }
746 }
747
748
749 /* If num is 1, we could speed things up with a binary search
750 of the word of interest. */
751
752 while (elt)
753 {
754 int i;
755 bitset_word *srcp = elt->words;
756
757 if ((count + LBITSET_ELT_BITS) < num)
758 {
759 /* The coast is clear, plant boot! */
760
761 #if LBITSET_ELT_WORDS == 2
762 word = srcp[0];
763 if (word)
764 {
765 if (!(word & 0xffff))
766 {
767 word >>= 16;
768 bitno += 16;
769 }
770 if (!(word & 0xff))
771 {
772 word >>= 8;
773 bitno += 8;
774 }
775 for (; word; bitno++)
776 {
777 if (word & 1)
778 list[count++] = bitno;
779 word >>= 1;
780 }
781 }
782 windex++;
783 bitno = windex * BITSET_WORD_BITS;
784
785 word = srcp[1];
786 if (word)
787 {
788 if (!(word & 0xffff))
789 {
790 word >>= 16;
791 bitno += 16;
792 }
793 for (; word; bitno++)
794 {
795 if (word & 1)
796 list[count++] = bitno;
797 word >>= 1;
798 }
799 }
800 windex++;
801 bitno = windex * BITSET_WORD_BITS;
802 #else
803 for (i = 0; i < LBITSET_ELT_WORDS; i++)
804 {
805 word = srcp[i];
806 if (word)
807 {
808 if (!(word & 0xffff))
809 {
810 word >>= 16;
811 bitno += 16;
812 }
813 if (!(word & 0xff))
814 {
815 word >>= 8;
816 bitno += 8;
817 }
818 for (; word; bitno++)
819 {
820 if (word & 1)
821 list[count++] = bitno;
822 word >>= 1;
823 }
824 }
825 windex++;
826 bitno = windex * BITSET_WORD_BITS;
827 }
828 #endif
829 }
830 else
831 {
832 /* Tread more carefully since we need to check
833 if array overflows. */
834
835 for (i = 0; i < LBITSET_ELT_WORDS; i++)
836 {
837 for (word = srcp[i]; word; bitno++)
838 {
839 if (word & 1)
840 {
841 list[count++] = bitno;
842 if (count >= num)
843 {
844 *next = bitno + 1;
845 return count;
846 }
847 }
848 word >>= 1;
849 }
850 windex++;
851 bitno = windex * BITSET_WORD_BITS;
852 }
853 }
854
855 elt = elt->next;
856 if (elt)
857 {
858 windex = elt->index;
859 bitno = windex * BITSET_WORD_BITS;
860 }
861 }
862
863 *next = bitno;
864 return count;
865 }
866
867
868 static int
869 lbitset_empty_p (bitset dst)
870 {
871 lbitset_weed (dst);
872 if (LBITSET_HEAD (dst))
873 return 0;
874 return 1;
875 }
876
877
878 static void
879 lbitset_ones (bitset dst)
880 {
881 bitset_windex i;
882 bitset_windex windex;
883 lbitset_elt *elt;
884
885 /* This is a decidedly unfriendly operation for a linked list
886 bitset! It makes a sparse bitset become dense. An alternative
887 is to have a flag that indicates that the bitset stores the
888 complement of what it indicates. */
889 elt = LBITSET_TAIL (dst);
890 /* Ignore empty set. */
891 if (!elt)
892 return;
893
894 windex = elt->index;
895 for (i = 0; i < windex; i += LBITSET_ELT_WORDS)
896 {
897 /* Create new elements if they cannot be found. */
898 elt = lbitset_elt_find (dst, i, LBITSET_CREATE);
899 memset (elt->words, -1, sizeof (elt->words));
900 }
901 }
902
903
904 static void
905 lbitset_not (bitset dst, bitset src)
906 {
907 lbitset_elt *elt;
908 lbitset_elt *selt;
909 lbitset_elt *delt;
910 bitset_windex i;
911 unsigned int j;
912 bitset_windex windex;
913
914 /* This is another unfriendly operation for a linked list
915 bitset! */
916 elt = LBITSET_TAIL (dst);
917 /* Ignore empty set. */
918 if (!elt)
919 return;
920
921 windex = elt->index;
922 for (i = 0; i < windex; i += LBITSET_ELT_WORDS)
923 {
924 /* Create new elements for dst if they cannot be found
925 or substitute zero elements if src elements not found. */
926 selt = lbitset_elt_find (src, i, LBITSET_SUBST);
927 delt = lbitset_elt_find (dst, i, LBITSET_CREATE);
928
929 for (j = 0; j < LBITSET_ELT_WORDS; j++)
930 delt->words[j] = ~selt->words[j];
931 }
932 lbitset_weed (dst);
933 return;
934 }
935
936
937 /* Return 1 if DST == DST | SRC. */
938 static int
939 lbitset_subset_p (bitset dst, bitset src)
940 {
941 lbitset_elt *selt;
942 lbitset_elt *delt;
943 unsigned int j;
944
945 for (selt = LBITSET_HEAD (src), delt = LBITSET_HEAD (dst);
946 selt || delt; selt = selt->next, delt = delt->next)
947 {
948 if (!selt)
949 selt = &lbitset_zero_elts[0];
950 else if (!delt)
951 delt = &lbitset_zero_elts[0];
952 else if (selt->index != delt->index)
953 {
954 if (selt->index < delt->index)
955 {
956 lbitset_zero_elts[2].next = delt;
957 delt = &lbitset_zero_elts[2];
958 }
959 else
960 {
961 lbitset_zero_elts[1].next = selt;
962 selt = &lbitset_zero_elts[1];
963 }
964 }
965
966 for (j = 0; j < LBITSET_ELT_WORDS; j++)
967 if (delt->words[j] != (selt->words[j] | delt->words[j]))
968 return 0;
969 }
970 return 1;
971 }
972
973
974 /* Return 1 if DST & SRC == 0. */
975 static int
976 lbitset_disjoint_p (bitset dst, bitset src)
977 {
978 lbitset_elt *selt;
979 lbitset_elt *delt;
980 unsigned int j;
981
982 for (selt = LBITSET_HEAD (src), delt = LBITSET_HEAD (dst);
983 selt && delt; selt = selt->next, delt = delt->next)
984 {
985 if (selt->index != delt->index)
986 {
987 if (selt->index < delt->index)
988 {
989 lbitset_zero_elts[2].next = delt;
990 delt = &lbitset_zero_elts[2];
991 }
992 else
993 {
994 lbitset_zero_elts[1].next = selt;
995 selt = &lbitset_zero_elts[1];
996 }
997 /* Since the elements are different, there is no
998 intersection of these elements. */
999 continue;
1000 }
1001
1002 for (j = 0; j < LBITSET_ELT_WORDS; j++)
1003 if (selt->words[j] & delt->words[j])
1004 return 0;
1005 }
1006 return 1;
1007 }
1008
1009
1010 static int
1011 lbitset_op3_cmp (bitset dst, bitset src1, bitset src2, enum bitset_ops op)
1012 {
1013 lbitset_elt *selt1 = LBITSET_HEAD (src1);
1014 lbitset_elt *selt2 = LBITSET_HEAD (src2);
1015 lbitset_elt *delt = LBITSET_HEAD (dst);
1016 bitset_windex windex1;
1017 bitset_windex windex2;
1018 bitset_windex windex;
1019 lbitset_elt *stmp1;
1020 lbitset_elt *stmp2;
1021 lbitset_elt *dtmp;
1022 bitset_word *srcp1;
1023 bitset_word *srcp2;
1024 bitset_word *dstp;
1025 int changed = 0;
1026 unsigned int i;
1027
1028 LBITSET_HEAD (dst) = 0;
1029 dst->b.csize = 0;
1030
1031 windex1 = (selt1) ? selt1->index : BITSET_WINDEX_MAX;
1032 windex2 = (selt2) ? selt2->index : BITSET_WINDEX_MAX;
1033
1034 while (selt1 || selt2)
1035 {
1036 /* Figure out whether we need to substitute zero elements for
1037 missing links. */
1038 if (windex1 == windex2)
1039 {
1040 windex = windex1;
1041 stmp1 = selt1;
1042 stmp2 = selt2;
1043 selt1 = selt1->next;
1044 windex1 = (selt1) ? selt1->index : BITSET_WINDEX_MAX;
1045 selt2 = selt2->next;
1046 windex2 = (selt2) ? selt2->index : BITSET_WINDEX_MAX;
1047 }
1048 else if (windex1 < windex2)
1049 {
1050 windex = windex1;
1051 stmp1 = selt1;
1052 stmp2 = &lbitset_zero_elts[0];
1053 selt1 = selt1->next;
1054 windex1 = (selt1) ? selt1->index : BITSET_WINDEX_MAX;
1055 }
1056 else
1057 {
1058 windex = windex2;
1059 stmp1 = &lbitset_zero_elts[0];
1060 stmp2 = selt2;
1061 selt2 = selt2->next;
1062 windex2 = (selt2) ? selt2->index : BITSET_WINDEX_MAX;
1063 }
1064
1065 /* Find the appropriate element from DST. Begin by discarding
1066 elements that we've skipped. */
1067 while (delt && delt->index < windex)
1068 {
1069 changed = 1;
1070 dtmp = delt;
1071 delt = delt->next;
1072 lbitset_elt_free (dtmp);
1073 }
1074 if (delt && delt->index == windex)
1075 {
1076 dtmp = delt;
1077 delt = delt->next;
1078 }
1079 else
1080 dtmp = lbitset_elt_calloc ();
1081
1082 /* Do the operation, and if any bits are set, link it into the
1083 linked list. */
1084 srcp1 = stmp1->words;
1085 srcp2 = stmp2->words;
1086 dstp = dtmp->words;
1087 switch (op)
1088 {
1089 case BITSET_OP_OR:
1090 for (i = 0; i < LBITSET_ELT_WORDS; i++, dstp++)
1091 {
1092 bitset_word tmp = *srcp1++ | *srcp2++;
1093
1094 if (*dstp != tmp)
1095 {
1096 changed = 1;
1097 *dstp = tmp;
1098 }
1099 }
1100 break;
1101
1102 case BITSET_OP_AND:
1103 for (i = 0; i < LBITSET_ELT_WORDS; i++, dstp++)
1104 {
1105 bitset_word tmp = *srcp1++ & *srcp2++;
1106
1107 if (*dstp != tmp)
1108 {
1109 changed = 1;
1110 *dstp = tmp;
1111 }
1112 }
1113 break;
1114
1115 case BITSET_OP_XOR:
1116 for (i = 0; i < LBITSET_ELT_WORDS; i++, dstp++)
1117 {
1118 bitset_word tmp = *srcp1++ ^ *srcp2++;
1119
1120 if (*dstp != tmp)
1121 {
1122 changed = 1;
1123 *dstp = tmp;
1124 }
1125 }
1126 break;
1127
1128 case BITSET_OP_ANDN:
1129 for (i = 0; i < LBITSET_ELT_WORDS; i++, dstp++)
1130 {
1131 bitset_word tmp = *srcp1++ & ~(*srcp2++);
1132
1133 if (*dstp != tmp)
1134 {
1135 changed = 1;
1136 *dstp = tmp;
1137 }
1138 }
1139 break;
1140
1141 default:
1142 abort ();
1143 }
1144
1145 if (!lbitset_elt_zero_p (dtmp))
1146 {
1147 dtmp->index = windex;
1148 /* Perhaps this could be optimised... */
1149 lbitset_elt_link (dst, dtmp);
1150 }
1151 else
1152 {
1153 lbitset_elt_free (dtmp);
1154 }
1155 }
1156
1157 /* If we have elements of DST left over, free them all. */
1158 if (delt)
1159 {
1160 changed = 1;
1161 lbitset_prune (dst, delt);
1162 }
1163
1164 return changed;
1165 }
1166
1167
1168 static int
1169 lbitset_and_cmp (bitset dst, bitset src1, bitset src2)
1170 {
1171 lbitset_elt *selt1 = LBITSET_HEAD (src1);
1172 lbitset_elt *selt2 = LBITSET_HEAD (src2);
1173 int changed;
1174
1175 if (!selt2)
1176 {
1177 lbitset_weed (dst);
1178 changed = !LBITSET_HEAD (dst);
1179 lbitset_zero (dst);
1180 return changed;
1181 }
1182 else if (!selt1)
1183 {
1184 lbitset_weed (dst);
1185 changed = !LBITSET_HEAD (dst);
1186 lbitset_zero (dst);
1187 return changed;
1188 }
1189 return lbitset_op3_cmp (dst, src1, src2, BITSET_OP_AND);
1190 }
1191
1192
1193 static void
1194 lbitset_and (bitset dst, bitset src1, bitset src2)
1195 {
1196 lbitset_and_cmp (dst, src1, src2);
1197 }
1198
1199
1200 static int
1201 lbitset_andn_cmp (bitset dst, bitset src1, bitset src2)
1202 {
1203 lbitset_elt *selt1 = LBITSET_HEAD (src1);
1204 lbitset_elt *selt2 = LBITSET_HEAD (src2);
1205 int changed;
1206
1207 if (!selt2)
1208 {
1209 return lbitset_copy_cmp (dst, src1);
1210 }
1211 else if (!selt1)
1212 {
1213 lbitset_weed (dst);
1214 changed = !LBITSET_HEAD (dst);
1215 lbitset_zero (dst);
1216 return changed;
1217 }
1218 return lbitset_op3_cmp (dst, src1, src2, BITSET_OP_ANDN);
1219 }
1220
1221
1222 static void
1223 lbitset_andn (bitset dst, bitset src1, bitset src2)
1224 {
1225 lbitset_andn_cmp (dst, src1, src2);
1226 }
1227
1228
1229 static int
1230 lbitset_or_cmp (bitset dst, bitset src1, bitset src2)
1231 {
1232 lbitset_elt *selt1 = LBITSET_HEAD (src1);
1233 lbitset_elt *selt2 = LBITSET_HEAD (src2);
1234
1235 if (!selt2)
1236 {
1237 return lbitset_copy_cmp (dst, src1);
1238 }
1239 else if (!selt1)
1240 {
1241 return lbitset_copy_cmp (dst, src2);
1242 }
1243 return lbitset_op3_cmp (dst, src1, src2, BITSET_OP_OR);
1244 }
1245
1246
1247 static void
1248 lbitset_or (bitset dst, bitset src1, bitset src2)
1249 {
1250 lbitset_or_cmp (dst, src1, src2);
1251 }
1252
1253
1254 static int
1255 lbitset_xor_cmp (bitset dst, bitset src1, bitset src2)
1256 {
1257 lbitset_elt *selt1 = LBITSET_HEAD (src1);
1258 lbitset_elt *selt2 = LBITSET_HEAD (src2);
1259
1260 if (!selt2)
1261 {
1262 return lbitset_copy_cmp (dst, src1);
1263 }
1264 else if (!selt1)
1265 {
1266 return lbitset_copy_cmp (dst, src2);
1267 }
1268 return lbitset_op3_cmp (dst, src1, src2, BITSET_OP_XOR);
1269 }
1270
1271
1272 static void
1273 lbitset_xor (bitset dst, bitset src1, bitset src2)
1274 {
1275 lbitset_xor_cmp (dst, src1, src2);
1276 }
1277
1278
1279
1280 /* Vector of operations for linked-list bitsets. */
1281 struct bitset_vtable lbitset_vtable = {
1282 lbitset_set,
1283 lbitset_reset,
1284 bitset_toggle_,
1285 lbitset_test,
1286 lbitset_size,
1287 bitset_count_,
1288 lbitset_empty_p,
1289 lbitset_ones,
1290 lbitset_zero,
1291 lbitset_copy,
1292 lbitset_disjoint_p,
1293 lbitset_equal_p,
1294 lbitset_not,
1295 lbitset_subset_p,
1296 lbitset_and,
1297 lbitset_and_cmp,
1298 lbitset_andn,
1299 lbitset_andn_cmp,
1300 lbitset_or,
1301 lbitset_or_cmp,
1302 lbitset_xor,
1303 lbitset_xor_cmp,
1304 bitset_and_or_,
1305 bitset_and_or_cmp_,
1306 bitset_andn_or_,
1307 bitset_andn_or_cmp_,
1308 bitset_or_and_,
1309 bitset_or_and_cmp_,
1310 lbitset_list,
1311 lbitset_list_reverse,
1312 lbitset_free,
1313 BITSET_LIST
1314 };
1315
1316
1317 /* Return size of initial structure. */
1318 size_t
1319 lbitset_bytes (bitset_bindex n_bits ATTRIBUTE_UNUSED)
1320 {
1321 return sizeof (struct lbitset_struct);
1322 }
1323
1324
1325 /* Initialize a bitset. */
1326 bitset
1327 lbitset_init (bitset bset, bitset_bindex n_bits ATTRIBUTE_UNUSED)
1328 {
1329 bset->b.vtable = &lbitset_vtable;
1330 return bset;
1331 }
1332
1333
1334 void
1335 lbitset_release_memory (void)
1336 {
1337 lbitset_free_list = 0;
1338 if (lbitset_obstack_init)
1339 {
1340 lbitset_obstack_init = 0;
1341 obstack_free (&lbitset_obstack, NULL);
1342 }
1343 }
1344
1345
1346 /* Function to be called from debugger to debug lbitset. */
1347 void
1348 debug_lbitset (bitset bset)
1349 {
1350 lbitset_elt *elt;
1351 unsigned int i;
1352
1353 if (!bset)
1354 return;
1355
1356 for (elt = LBITSET_HEAD (bset); elt; elt = elt->next)
1357 {
1358 fprintf (stderr, "Elt %lu\n", (unsigned long) elt->index);
1359 for (i = 0; i < LBITSET_ELT_WORDS; i++)
1360 {
1361 unsigned int j;
1362 bitset_word word;
1363
1364 word = elt->words[i];
1365
1366 fprintf (stderr, " Word %u:", i);
1367 for (j = 0; j < LBITSET_WORD_BITS; j++)
1368 if ((word & ((bitset_word) 1 << j)))
1369 fprintf (stderr, " %u", j);
1370 fprintf (stderr, "\n");
1371 }
1372 }
1373 }