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1/* Functions to support expandable bitsets.
2 Copyright (C) 2002, 2003, 2004, 2005, 2006, 2009 Free Software
3 Foundation, Inc.
4 Contributed by Michael Hayes (m.hayes@elec.canterbury.ac.nz).
5
6 This program is free software: you can redistribute it and/or modify
7 it under the terms of the GNU General Public License as published by
8 the Free Software Foundation, either version 3 of the License, or
9 (at your option) any later version.
10
11 This program is distributed in the hope that it will be useful,
12 but WITHOUT ANY WARRANTY; without even the implied warranty of
13 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 GNU General Public License for more details.
15
16 You should have received a copy of the GNU General Public License
17 along with this program. If not, see <http://www.gnu.org/licenses/>. */
18
19#include <config.h>
20
21#include "ebitset.h"
22
23#include "obstack.h"
24#include <stdlib.h>
25#include <string.h>
26
27/* This file implements expandable bitsets. These bitsets can be of
28 arbitrary length and are more efficient than arrays of bits for
29 large sparse sets.
30
31 Empty elements are represented by a NULL pointer in the table of
32 element pointers. An alternative is to point to a special zero
33 element. Similarly, we could represent an all 1's element with
34 another special ones element pointer.
35
36 Bitsets are commonly empty so we need to ensure that this special
37 case is fast. A zero bitset is indicated when cdata is 0. This is
38 conservative since cdata may be non zero and the bitset may still
39 be zero.
40
41 The bitset cache can be disabled either by setting cindex to
42 BITSET_WINDEX_MAX or by setting csize to 0. Here
43 we use the former approach since cindex needs to be updated whenever
44 cdata is changed.
45*/
46
47
48/* Number of words to use for each element. */
49#define EBITSET_ELT_WORDS 2
50
51/* Number of bits stored in each element. */
52#define EBITSET_ELT_BITS \
53 ((unsigned int) (EBITSET_ELT_WORDS * BITSET_WORD_BITS))
54
55/* Ebitset element. We use an array of bits. */
56typedef struct ebitset_elt_struct
57{
58 union
59 {
60 bitset_word words[EBITSET_ELT_WORDS]; /* Bits that are set. */
61 struct ebitset_elt_struct *next;
62 }
63 u;
64}
65ebitset_elt;
66
67
68typedef ebitset_elt *ebitset_elts;
69
70
71/* Number of elements to initially allocate. */
72
73#ifndef EBITSET_INITIAL_SIZE
74#define EBITSET_INITIAL_SIZE 2
75#endif
76
77
78enum ebitset_find_mode
79 { EBITSET_FIND, EBITSET_CREATE, EBITSET_SUBST };
80
81static ebitset_elt ebitset_zero_elts[1]; /* Elements of all zero bits. */
82
83/* Obstack to allocate bitset elements from. */
84static struct obstack ebitset_obstack;
85static bool ebitset_obstack_init = false;
86static ebitset_elt *ebitset_free_list; /* Free list of bitset elements. */
87
88#define EBITSET_N_ELTS(N) (((N) + EBITSET_ELT_BITS - 1) / EBITSET_ELT_BITS)
89#define EBITSET_ELTS(BSET) ((BSET)->e.elts)
90#define EBITSET_SIZE(BSET) EBITSET_N_ELTS (BITSET_NBITS_ (BSET))
91#define EBITSET_ASIZE(BSET) ((BSET)->e.size)
92
93#define EBITSET_NEXT(ELT) ((ELT)->u.next)
94#define EBITSET_WORDS(ELT) ((ELT)->u.words)
95
96/* Disable bitset cache and mark BSET as being zero. */
97#define EBITSET_ZERO_SET(BSET) ((BSET)->b.cindex = BITSET_WINDEX_MAX, \
98 (BSET)->b.cdata = 0)
99
100#define EBITSET_CACHE_DISABLE(BSET) ((BSET)->b.cindex = BITSET_WINDEX_MAX)
101
102/* Disable bitset cache and mark BSET as being possibly non-zero. */
103#define EBITSET_NONZERO_SET(BSET) \
104 (EBITSET_CACHE_DISABLE (BSET), (BSET)->b.cdata = (bitset_word *)~0)
105
106/* A conservative estimate of whether the bitset is zero.
107 This is non-zero only if we know for sure that the bitset is zero. */
108#define EBITSET_ZERO_P(BSET) ((BSET)->b.cdata == 0)
109
110/* Enable cache to point to element with table index EINDEX.
111 The element must exist. */
112#define EBITSET_CACHE_SET(BSET, EINDEX) \
113 ((BSET)->b.cindex = (EINDEX) * EBITSET_ELT_WORDS, \
114 (BSET)->b.cdata = EBITSET_WORDS (EBITSET_ELTS (BSET) [EINDEX]))
115
116#undef min
117#undef max
118#define min(a, b) ((a) > (b) ? (b) : (a))
119#define max(a, b) ((a) > (b) ? (a) : (b))
120
121static bitset_bindex
122ebitset_resize (bitset src, bitset_bindex n_bits)
123{
124 bitset_windex oldsize;
125 bitset_windex newsize;
126
127 if (n_bits == BITSET_NBITS_ (src))
128 return n_bits;
129
130 oldsize = EBITSET_SIZE (src);
131 newsize = EBITSET_N_ELTS (n_bits);
132
133 if (oldsize < newsize)
134 {
135 bitset_windex size;
136
137 /* The bitset needs to grow. If we already have enough memory
138 allocated, then just zero what we need. */
139 if (newsize > EBITSET_ASIZE (src))
140 {
141 /* We need to allocate more memory. When oldsize is
142 non-zero this means that we are changing the size, so
143 grow the bitset 25% larger than requested to reduce
144 number of reallocations. */
145
146 if (oldsize == 0)
147 size = newsize;
148 else
149 size = newsize + newsize / 4;
150
151 EBITSET_ELTS (src)
152 = realloc (EBITSET_ELTS (src), size * sizeof (ebitset_elt *));
153 EBITSET_ASIZE (src) = size;
154 }
155
156 memset (EBITSET_ELTS (src) + oldsize, 0,
157 (newsize - oldsize) * sizeof (ebitset_elt *));
158 }
159 else
160 {
161 /* The bitset needs to shrink. There's no point deallocating
162 the memory unless it is shrinking by a reasonable amount. */
163 if ((oldsize - newsize) >= oldsize / 2)
164 {
165 EBITSET_ELTS (src)
166 = realloc (EBITSET_ELTS (src), newsize * sizeof (ebitset_elt *));
167 EBITSET_ASIZE (src) = newsize;
168 }
169
170 /* Need to prune any excess bits. FIXME. */
171 }
172
173 BITSET_NBITS_ (src) = n_bits;
174 return n_bits;
175}
176
177
178/* Allocate a ebitset element. The bits are not cleared. */
179static inline ebitset_elt *
180ebitset_elt_alloc (void)
181{
182 ebitset_elt *elt;
183
184 if (ebitset_free_list != 0)
185 {
186 elt = ebitset_free_list;
187 ebitset_free_list = EBITSET_NEXT (elt);
188 }
189 else
190 {
191 if (!ebitset_obstack_init)
192 {
193 ebitset_obstack_init = true;
194
195 /* Let particular systems override the size of a chunk. */
196
197#ifndef OBSTACK_CHUNK_SIZE
198#define OBSTACK_CHUNK_SIZE 0
199#endif
200
201 /* Let them override the alloc and free routines too. */
202
203#ifndef OBSTACK_CHUNK_ALLOC
204#define OBSTACK_CHUNK_ALLOC xmalloc
205#endif
206
207#ifndef OBSTACK_CHUNK_FREE
208#define OBSTACK_CHUNK_FREE free
209#endif
210
211#if ! defined __GNUC__ || __GNUC__ < 2
212#define __alignof__(type) 0
213#endif
214
215 obstack_specify_allocation (&ebitset_obstack, OBSTACK_CHUNK_SIZE,
216 __alignof__ (ebitset_elt),
217 OBSTACK_CHUNK_ALLOC,
218 OBSTACK_CHUNK_FREE);
219 }
220
221 /* Perhaps we should add a number of new elements to the free
222 list. */
223 elt = (ebitset_elt *) obstack_alloc (&ebitset_obstack,
224 sizeof (ebitset_elt));
225 }
226
227 return elt;
228}
229
230
231/* Allocate a ebitset element. The bits are cleared. */
232static inline ebitset_elt *
233ebitset_elt_calloc (void)
234{
235 ebitset_elt *elt;
236
237 elt = ebitset_elt_alloc ();
238 memset (EBITSET_WORDS (elt), 0, sizeof (EBITSET_WORDS (elt)));
239 return elt;
240}
241
242
243static inline void
244ebitset_elt_free (ebitset_elt *elt)
245{
246 EBITSET_NEXT (elt) = ebitset_free_list;
247 ebitset_free_list = elt;
248}
249
250
251/* Remove element with index EINDEX from bitset BSET. */
252static inline void
253ebitset_elt_remove (bitset bset, bitset_windex eindex)
254{
255 ebitset_elts *elts;
256 ebitset_elt *elt;
257
258 elts = EBITSET_ELTS (bset);
259
260 elt = elts[eindex];
261
262 elts[eindex] = 0;
263 ebitset_elt_free (elt);
264}
265
266
267/* Add ELT into elts at index EINDEX of bitset BSET. */
268static inline void
269ebitset_elt_add (bitset bset, ebitset_elt *elt, bitset_windex eindex)
270{
271 ebitset_elts *elts;
272
273 elts = EBITSET_ELTS (bset);
274 /* Assume that the elts entry not allocated. */
275 elts[eindex] = elt;
276}
277
278
279/* Are all bits in an element zero? */
280static inline bool
281ebitset_elt_zero_p (ebitset_elt *elt)
282{
283 int i;
284
285 for (i = 0; i < EBITSET_ELT_WORDS; i++)
286 if (EBITSET_WORDS (elt)[i])
287 return false;
288
289 return true;
290}
291
292
293static ebitset_elt *
294ebitset_elt_find (bitset bset, bitset_bindex bindex,
295 enum ebitset_find_mode mode)
296{
297 ebitset_elt *elt;
298 bitset_windex size;
299 bitset_windex eindex;
300 ebitset_elts *elts;
301
302 eindex = bindex / EBITSET_ELT_BITS;
303
304 elts = EBITSET_ELTS (bset);
305 size = EBITSET_SIZE (bset);
306
307 if (eindex < size)
308 {
309 if ((elt = elts[eindex]))
310 {
311 if (EBITSET_WORDS (elt) == bset->b.cdata)
312 return elt;
313
314 EBITSET_CACHE_SET (bset, eindex);
315 return elt;
316 }
317 }
318
319 /* The element could not be found. */
320
321 switch (mode)
322 {
323 default:
324 abort ();
325
326 case EBITSET_FIND:
327 return 0;
328
329 case EBITSET_CREATE:
330 if (eindex >= size)
331 ebitset_resize (bset, bindex);
332
333 /* Create a new element. */
334 elt = ebitset_elt_calloc ();
335 ebitset_elt_add (bset, elt, eindex);
336 EBITSET_CACHE_SET (bset, eindex);
337 return elt;
338
339 case EBITSET_SUBST:
340 return &ebitset_zero_elts[0];
341 }
342}
343
344
345/* Weed out the zero elements from the elts. */
346static inline bitset_windex
347ebitset_weed (bitset bset)
348{
349 ebitset_elts *elts;
350 bitset_windex j;
351 bitset_windex count;
352
353 if (EBITSET_ZERO_P (bset))
354 return 0;
355
356 elts = EBITSET_ELTS (bset);
357 count = 0;
358 for (j = 0; j < EBITSET_SIZE (bset); j++)
359 {
360 ebitset_elt *elt = elts[j];
361
362 if (elt)
363 {
364 if (ebitset_elt_zero_p (elt))
365 {
366 ebitset_elt_remove (bset, j);
367 count++;
368 }
369 }
370 else
371 count++;
372 }
373
374 count = j - count;
375 if (!count)
376 {
377 /* All the bits are zero. We could shrink the elts.
378 For now just mark BSET as known to be zero. */
379 EBITSET_ZERO_SET (bset);
380 }
381 else
382 EBITSET_NONZERO_SET (bset);
383
384 return count;
385}
386
387
388/* Set all bits in the bitset to zero. */
389static inline void
390ebitset_zero (bitset bset)
391{
392 ebitset_elts *elts;
393 bitset_windex j;
394
395 if (EBITSET_ZERO_P (bset))
396 return;
397
398 elts = EBITSET_ELTS (bset);
399 for (j = 0; j < EBITSET_SIZE (bset); j++)
400 {
401 ebitset_elt *elt = elts[j];
402
403 if (elt)
404 ebitset_elt_remove (bset, j);
405 }
406
407 /* All the bits are zero. We could shrink the elts.
408 For now just mark BSET as known to be zero. */
409 EBITSET_ZERO_SET (bset);
410}
411
412
413static inline bool
414ebitset_equal_p (bitset dst, bitset src)
415{
416 ebitset_elts *selts;
417 ebitset_elts *delts;
418 bitset_windex j;
419
420 if (src == dst)
421 return true;
422
423 ebitset_weed (dst);
424 ebitset_weed (src);
425
426 if (EBITSET_SIZE (src) != EBITSET_SIZE (dst))
427 return false;
428
429 selts = EBITSET_ELTS (src);
430 delts = EBITSET_ELTS (dst);
431
432 for (j = 0; j < EBITSET_SIZE (src); j++)
433 {
434 unsigned int i;
435 ebitset_elt *selt = selts[j];
436 ebitset_elt *delt = delts[j];
437
438 if (!selt && !delt)
439 continue;
440 if ((selt && !delt) || (!selt && delt))
441 return false;
442
443 for (i = 0; i < EBITSET_ELT_WORDS; i++)
444 if (EBITSET_WORDS (selt)[i] != EBITSET_WORDS (delt)[i])
445 return false;
446 }
447 return true;
448}
449
450
451/* Copy bits from bitset SRC to bitset DST. */
452static inline void
453ebitset_copy_ (bitset dst, bitset src)
454{
455 ebitset_elts *selts;
456 ebitset_elts *delts;
457 bitset_windex j;
458
459 if (src == dst)
460 return;
461
462 ebitset_zero (dst);
463
464 if (BITSET_NBITS_ (dst) != BITSET_NBITS_ (src))
465 ebitset_resize (dst, BITSET_NBITS_ (src));
466
467 selts = EBITSET_ELTS (src);
468 delts = EBITSET_ELTS (dst);
469 for (j = 0; j < EBITSET_SIZE (src); j++)
470 {
471 ebitset_elt *selt = selts[j];
472
473 if (selt)
474 {
475 ebitset_elt *tmp;
476
477 tmp = ebitset_elt_alloc ();
478 delts[j] = tmp;
479 memcpy (EBITSET_WORDS (tmp), EBITSET_WORDS (selt),
480 sizeof (EBITSET_WORDS (selt)));
481 }
482 }
483 EBITSET_NONZERO_SET (dst);
484}
485
486
487/* Copy bits from bitset SRC to bitset DST. Return true if
488 bitsets different. */
489static inline bool
490ebitset_copy_cmp (bitset dst, bitset src)
491{
492 if (src == dst)
493 return false;
494
495 if (EBITSET_ZERO_P (dst))
496 {
497 ebitset_copy_ (dst, src);
498 return !EBITSET_ZERO_P (src);
499 }
500
501 if (ebitset_equal_p (dst, src))
502 return false;
503
504 ebitset_copy_ (dst, src);
505 return true;
506}
507
508
509/* Set bit BITNO in bitset DST. */
510static void
511ebitset_set (bitset dst, bitset_bindex bitno)
512{
513 bitset_windex windex = bitno / BITSET_WORD_BITS;
514
515 ebitset_elt_find (dst, bitno, EBITSET_CREATE);
516
517 dst->b.cdata[windex - dst->b.cindex] |=
518 (bitset_word) 1 << (bitno % BITSET_WORD_BITS);
519}
520
521
522/* Reset bit BITNO in bitset DST. */
523static void
524ebitset_reset (bitset dst, bitset_bindex bitno)
525{
526 bitset_windex windex = bitno / BITSET_WORD_BITS;
527
528 if (!ebitset_elt_find (dst, bitno, EBITSET_FIND))
529 return;
530
531 dst->b.cdata[windex - dst->b.cindex] &=
532 ~((bitset_word) 1 << (bitno % BITSET_WORD_BITS));
533
534 /* If all the data is zero, perhaps we should remove it now...
535 However, there is a good chance that the element will be needed
536 again soon. */
537}
538
539
540/* Test bit BITNO in bitset SRC. */
541static bool
542ebitset_test (bitset src, bitset_bindex bitno)
543{
544 bitset_windex windex = bitno / BITSET_WORD_BITS;
545
546 return (ebitset_elt_find (src, bitno, EBITSET_FIND)
547 && ((src->b.cdata[windex - src->b.cindex]
548 >> (bitno % BITSET_WORD_BITS))
549 & 1));
550}
551
552
553static void
554ebitset_free (bitset bset)
555{
556 ebitset_zero (bset);
557 free (EBITSET_ELTS (bset));
558}
559
560
561/* Find list of up to NUM bits set in BSET starting from and including
562 *NEXT and store in array LIST. Return with actual number of bits
563 found and with *NEXT indicating where search stopped. */
564static bitset_bindex
565ebitset_list_reverse (bitset bset, bitset_bindex *list,
566 bitset_bindex num, bitset_bindex *next)
567{
568 bitset_bindex n_bits;
569 bitset_bindex bitno;
570 bitset_bindex rbitno;
571 unsigned int bcount;
572 bitset_bindex boffset;
573 bitset_windex windex;
574 bitset_windex eindex;
575 bitset_windex woffset;
576 bitset_bindex count;
577 bitset_windex size;
578 ebitset_elts *elts;
579
580 if (EBITSET_ZERO_P (bset))
581 return 0;
582
583 size = EBITSET_SIZE (bset);
584 n_bits = size * EBITSET_ELT_BITS;
585 rbitno = *next;
586
587 if (rbitno >= n_bits)
588 return 0;
589
590 elts = EBITSET_ELTS (bset);
591
592 bitno = n_bits - (rbitno + 1);
593
594 windex = bitno / BITSET_WORD_BITS;
595 eindex = bitno / EBITSET_ELT_BITS;
596 woffset = windex - eindex * EBITSET_ELT_WORDS;
597
598 /* If num is 1, we could speed things up with a binary search
599 of the word of interest. */
600
601 count = 0;
602 bcount = bitno % BITSET_WORD_BITS;
603 boffset = windex * BITSET_WORD_BITS;
604
605 do
606 {
607 ebitset_elt *elt;
608 bitset_word *srcp;
609
610 elt = elts[eindex];
611 if (elt)
612 {
613 srcp = EBITSET_WORDS (elt);
614
615 do
616 {
617 bitset_word word;
618
619 word = srcp[woffset] << (BITSET_WORD_BITS - 1 - bcount);
620
621 for (; word; bcount--)
622 {
623 if (word & BITSET_MSB)
624 {
625 list[count++] = boffset + bcount;
626 if (count >= num)
627 {
628 *next = n_bits - (boffset + bcount);
629 return count;
630 }
631 }
632 word <<= 1;
633 }
634 boffset -= BITSET_WORD_BITS;
635 bcount = BITSET_WORD_BITS - 1;
636 }
637 while (woffset--);
638 }
639
640 woffset = EBITSET_ELT_WORDS - 1;
641 boffset = eindex * EBITSET_ELT_BITS - BITSET_WORD_BITS;
642 }
643 while (eindex--);
644
645 *next = n_bits - (boffset + 1);
646 return count;
647}
648
649
650/* Find list of up to NUM bits set in BSET starting from and including
651 *NEXT and store in array LIST. Return with actual number of bits
652 found and with *NEXT indicating where search stopped. */
653static bitset_bindex
654ebitset_list (bitset bset, bitset_bindex *list,
655 bitset_bindex num, bitset_bindex *next)
656{
657 bitset_bindex bitno;
658 bitset_windex windex;
659 bitset_windex eindex;
660 bitset_bindex count;
661 bitset_windex size;
662 ebitset_elt *elt;
663 bitset_word word;
664 ebitset_elts *elts;
665
666 if (EBITSET_ZERO_P (bset))
667 return 0;
668
669 bitno = *next;
670 count = 0;
671
672 elts = EBITSET_ELTS (bset);
673 size = EBITSET_SIZE (bset);
674 eindex = bitno / EBITSET_ELT_BITS;
675
676 if (bitno % EBITSET_ELT_BITS)
677 {
678 /* We need to start within an element. This is not very common. */
679
680 elt = elts[eindex];
681 if (elt)
682 {
683 bitset_windex woffset;
684 bitset_word *srcp = EBITSET_WORDS (elt);
685
686 windex = bitno / BITSET_WORD_BITS;
687 woffset = eindex * EBITSET_ELT_WORDS;
688
689 for (; (windex - woffset) < EBITSET_ELT_WORDS; windex++)
690 {
691 word = srcp[windex - woffset] >> (bitno % BITSET_WORD_BITS);
692
693 for (; word; bitno++)
694 {
695 if (word & 1)
696 {
697 list[count++] = bitno;
698 if (count >= num)
699 {
700 *next = bitno + 1;
701 return count;
702 }
703 }
704 word >>= 1;
705 }
706 bitno = (windex + 1) * BITSET_WORD_BITS;
707 }
708 }
709
710 /* Skip to next element. */
711 eindex++;
712 }
713
714 /* If num is 1, we could speed things up with a binary search
715 of the word of interest. */
716
717 for (; eindex < size; eindex++)
718 {
719 int i;
720 bitset_word *srcp;
721
722 elt = elts[eindex];
723 if (!elt)
724 continue;
725
726 srcp = EBITSET_WORDS (elt);
727 windex = eindex * EBITSET_ELT_WORDS;
728
729 if ((count + EBITSET_ELT_BITS) < num)
730 {
731 /* The coast is clear, plant boot! */
732
733#if EBITSET_ELT_WORDS == 2
734 word = srcp[0];
735 if (word)
736 {
737 if (!(word & 0xffff))
738 {
739 word >>= 16;
740 bitno += 16;
741 }
742 if (!(word & 0xff))
743 {
744 word >>= 8;
745 bitno += 8;
746 }
747 for (; word; bitno++)
748 {
749 if (word & 1)
750 list[count++] = bitno;
751 word >>= 1;
752 }
753 }
754 windex++;
755 bitno = windex * BITSET_WORD_BITS;
756
757 word = srcp[1];
758 if (word)
759 {
760 if (!(word & 0xffff))
761 {
762 word >>= 16;
763 bitno += 16;
764 }
765 for (; word; bitno++)
766 {
767 if (word & 1)
768 list[count++] = bitno;
769 word >>= 1;
770 }
771 }
772 windex++;
773 bitno = windex * BITSET_WORD_BITS;
774#else
775 for (i = 0; i < EBITSET_ELT_WORDS; i++, windex++)
776 {
777 bitno = windex * BITSET_WORD_BITS;
778
779 word = srcp[i];
780 if (word)
781 {
782 if (!(word & 0xffff))
783 {
784 word >>= 16;
785 bitno += 16;
786 }
787 if (!(word & 0xff))
788 {
789 word >>= 8;
790 bitno += 8;
791 }
792 for (; word; bitno++)
793 {
794 if (word & 1)
795 list[count++] = bitno;
796 word >>= 1;
797 }
798 }
799 }
800#endif
801 }
802 else
803 {
804 /* Tread more carefully since we need to check
805 if array overflows. */
806
807 for (i = 0; i < EBITSET_ELT_WORDS; i++, windex++)
808 {
809 bitno = windex * BITSET_WORD_BITS;
810
811 for (word = srcp[i]; word; bitno++)
812 {
813 if (word & 1)
814 {
815 list[count++] = bitno;
816 if (count >= num)
817 {
818 *next = bitno + 1;
819 return count;
820 }
821 }
822 word >>= 1;
823 }
824 }
825 }
826 }
827
828 *next = bitno;
829 return count;
830}
831
832
833/* Ensure that any unused bits within the last element are clear. */
834static inline void
835ebitset_unused_clear (bitset dst)
836{
837 unsigned int last_bit;
838 bitset_bindex n_bits;
839
840 n_bits = BITSET_NBITS_ (dst);
841 last_bit = n_bits % EBITSET_ELT_BITS;
842
843 if (last_bit)
844 {
845 bitset_windex eindex;
846 ebitset_elts *elts;
847 ebitset_elt *elt;
848
849 elts = EBITSET_ELTS (dst);
850
851 eindex = n_bits / EBITSET_ELT_BITS;
852
853 elt = elts[eindex];
854 if (elt)
855 {
856 bitset_windex windex;
857 bitset_windex woffset;
858 bitset_word *srcp = EBITSET_WORDS (elt);
859
860 windex = n_bits / BITSET_WORD_BITS;
861 woffset = eindex * EBITSET_ELT_WORDS;
862
863 srcp[windex - woffset] &= ((bitset_word) 1 << last_bit) - 1;
864 windex++;
865 for (; (windex - woffset) < EBITSET_ELT_WORDS; windex++)
866 srcp[windex - woffset] = 0;
867 }
868 }
869}
870
871
872static void
873ebitset_ones (bitset dst)
874{
875 bitset_windex j;
876 ebitset_elt *elt;
877
878 for (j = 0; j < EBITSET_SIZE (dst); j++)
879 {
880 /* Create new elements if they cannot be found. Perhaps
881 we should just add pointers to a ones element? */
882 elt =
883 ebitset_elt_find (dst, j * EBITSET_ELT_BITS, EBITSET_CREATE);
884 memset (EBITSET_WORDS (elt), -1, sizeof (EBITSET_WORDS (elt)));
885 }
886 EBITSET_NONZERO_SET (dst);
887 ebitset_unused_clear (dst);
888}
889
890
891static bool
892ebitset_empty_p (bitset dst)
893{
894 ebitset_elts *elts;
895 bitset_windex j;
896
897 if (EBITSET_ZERO_P (dst))
898 return 1;
899
900 elts = EBITSET_ELTS (dst);
901 for (j = 0; j < EBITSET_SIZE (dst); j++)
902 {
903 ebitset_elt *elt = elts[j];
904
905 if (elt)
906 {
907 if (!ebitset_elt_zero_p (elt))
908 return 0;
909 /* Do some weeding as we go. */
910 ebitset_elt_remove (dst, j);
911 }
912 }
913
914 /* All the bits are zero. We could shrink the elts.
915 For now just mark DST as known to be zero. */
916 EBITSET_ZERO_SET (dst);
917 return 1;
918}
919
920
921static void
922ebitset_not (bitset dst, bitset src)
923{
924 unsigned int i;
925 ebitset_elt *selt;
926 ebitset_elt *delt;
927 bitset_windex j;
928
929 ebitset_resize (dst, BITSET_NBITS_ (src));
930
931 for (j = 0; j < EBITSET_SIZE (src); j++)
932 {
933 /* Create new elements for dst if they cannot be found
934 or substitute zero elements if src elements not found. */
935 selt =
936 ebitset_elt_find (dst, j * EBITSET_ELT_BITS, EBITSET_SUBST);
937 delt =
938 ebitset_elt_find (dst, j * EBITSET_ELT_BITS, EBITSET_CREATE);
939
940 for (i = 0; i < EBITSET_ELT_WORDS; i++)
941 EBITSET_WORDS (delt)[i] = ~EBITSET_WORDS (selt)[i];
942 }
943 EBITSET_NONZERO_SET (dst);
944 ebitset_unused_clear (dst);
945}
946
947
948/* Is DST == DST | SRC? */
949static bool
950ebitset_subset_p (bitset dst, bitset src)
951{
952 bitset_windex j;
953 ebitset_elts *selts;
954 ebitset_elts *delts;
955 bitset_windex ssize;
956 bitset_windex dsize;
957
958 selts = EBITSET_ELTS (src);
959 delts = EBITSET_ELTS (dst);
960
961 ssize = EBITSET_SIZE (src);
962 dsize = EBITSET_SIZE (dst);
963
964 for (j = 0; j < ssize; j++)
965 {
966 unsigned int i;
967 ebitset_elt *selt;
968 ebitset_elt *delt;
969
970 selt = j < ssize ? selts[j] : 0;
971 delt = j < dsize ? delts[j] : 0;
972
973 if (!selt && !delt)
974 continue;
975
976 if (!selt)
977 selt = &ebitset_zero_elts[0];
978 if (!delt)
979 delt = &ebitset_zero_elts[0];
980
981 for (i = 0; i < EBITSET_ELT_WORDS; i++)
982 if (EBITSET_WORDS (delt)[i]
983 != (EBITSET_WORDS (selt)[i] | EBITSET_WORDS (delt)[i]))
984 return false;
985 }
986 return true;
987}
988
989
990/* Is DST & SRC == 0? */
991static bool
992ebitset_disjoint_p (bitset dst, bitset src)
993{
994 bitset_windex j;
995 ebitset_elts *selts;
996 ebitset_elts *delts;
997 bitset_windex ssize;
998 bitset_windex dsize;
999
1000 selts = EBITSET_ELTS (src);
1001 delts = EBITSET_ELTS (dst);
1002
1003 ssize = EBITSET_SIZE (src);
1004 dsize = EBITSET_SIZE (dst);
1005
1006 for (j = 0; j < ssize; j++)
1007 {
1008 unsigned int i;
1009 ebitset_elt *selt;
1010 ebitset_elt *delt;
1011
1012 selt = j < ssize ? selts[j] : 0;
1013 delt = j < dsize ? delts[j] : 0;
1014
1015 if (!selt || !delt)
1016 continue;
1017
1018 for (i = 0; i < EBITSET_ELT_WORDS; i++)
1019 if ((EBITSET_WORDS (selt)[i] & EBITSET_WORDS (delt)[i]))
1020 return false;
1021 }
1022 return true;
1023}
1024
1025
1026
1027static bool
1028ebitset_op3_cmp (bitset dst, bitset src1, bitset src2, enum bitset_ops op)
1029{
1030 bitset_windex ssize1;
1031 bitset_windex ssize2;
1032 bitset_windex dsize;
1033 bitset_windex size;
1034 ebitset_elts *selts1;
1035 ebitset_elts *selts2;
1036 ebitset_elts *delts;
1037 bitset_word *srcp1;
1038 bitset_word *srcp2;
1039 bitset_word *dstp;
1040 bool changed = false;
1041 unsigned int i;
1042 bitset_windex j;
1043
1044 ebitset_resize (dst, max (BITSET_NBITS_ (src1), BITSET_NBITS_ (src2)));
1045
1046 ssize1 = EBITSET_SIZE (src1);
1047 ssize2 = EBITSET_SIZE (src2);
1048 dsize = EBITSET_SIZE (dst);
1049 size = ssize1;
1050 if (size < ssize2)
1051 size = ssize2;
1052
1053 selts1 = EBITSET_ELTS (src1);
1054 selts2 = EBITSET_ELTS (src2);
1055 delts = EBITSET_ELTS (dst);
1056
1057 for (j = 0; j < size; j++)
1058 {
1059 ebitset_elt *selt1;
1060 ebitset_elt *selt2;
1061 ebitset_elt *delt;
1062
1063 selt1 = j < ssize1 ? selts1[j] : 0;
1064 selt2 = j < ssize2 ? selts2[j] : 0;
1065 delt = j < dsize ? delts[j] : 0;
1066
1067 if (!selt1 && !selt2)
1068 {
1069 if (delt)
1070 {
1071 changed = true;
1072 ebitset_elt_remove (dst, j);
1073 }
1074 continue;
1075 }
1076
1077 if (!selt1)
1078 selt1 = &ebitset_zero_elts[0];
1079 if (!selt2)
1080 selt2 = &ebitset_zero_elts[0];
1081 if (!delt)
1082 delt = ebitset_elt_calloc ();
1083 else
1084 delts[j] = 0;
1085
1086 srcp1 = EBITSET_WORDS (selt1);
1087 srcp2 = EBITSET_WORDS (selt2);
1088 dstp = EBITSET_WORDS (delt);
1089 switch (op)
1090 {
1091 default:
1092 abort ();
1093
1094 case BITSET_OP_OR:
1095 for (i = 0; i < EBITSET_ELT_WORDS; i++, dstp++)
1096 {
1097 bitset_word tmp = *srcp1++ | *srcp2++;
1098
1099 if (*dstp != tmp)
1100 {
1101 changed = true;
1102 *dstp = tmp;
1103 }
1104 }
1105 break;
1106
1107 case BITSET_OP_AND:
1108 for (i = 0; i < EBITSET_ELT_WORDS; i++, dstp++)
1109 {
1110 bitset_word tmp = *srcp1++ & *srcp2++;
1111
1112 if (*dstp != tmp)
1113 {
1114 changed = true;
1115 *dstp = tmp;
1116 }
1117 }
1118 break;
1119
1120 case BITSET_OP_XOR:
1121 for (i = 0; i < EBITSET_ELT_WORDS; i++, dstp++)
1122 {
1123 bitset_word tmp = *srcp1++ ^ *srcp2++;
1124
1125 if (*dstp != tmp)
1126 {
1127 changed = true;
1128 *dstp = tmp;
1129 }
1130 }
1131 break;
1132
1133 case BITSET_OP_ANDN:
1134 for (i = 0; i < EBITSET_ELT_WORDS; i++, dstp++)
1135 {
1136 bitset_word tmp = *srcp1++ & ~(*srcp2++);
1137
1138 if (*dstp != tmp)
1139 {
1140 changed = true;
1141 *dstp = tmp;
1142 }
1143 }
1144 break;
1145 }
1146
1147 if (!ebitset_elt_zero_p (delt))
1148 {
1149 ebitset_elt_add (dst, delt, j);
1150 }
1151 else
1152 {
1153 ebitset_elt_free (delt);
1154 }
1155 }
1156
1157 /* If we have elements of DST left over, free them all. */
1158 for (; j < dsize; j++)
1159 {
1160 ebitset_elt *delt;
1161
1162 changed = true;
1163
1164 delt = delts[j];
1165
1166 if (delt)
1167 ebitset_elt_remove (dst, j);
1168 }
1169
1170 EBITSET_NONZERO_SET (dst);
1171 return changed;
1172}
1173
1174
1175static bool
1176ebitset_and_cmp (bitset dst, bitset src1, bitset src2)
1177{
1178 bool changed;
1179
1180 if (EBITSET_ZERO_P (src2))
1181 {
1182 ebitset_weed (dst);
1183 changed = EBITSET_ZERO_P (dst);
1184 ebitset_zero (dst);
1185 return changed;
1186 }
1187 else if (EBITSET_ZERO_P (src1))
1188 {
1189 ebitset_weed (dst);
1190 changed = EBITSET_ZERO_P (dst);
1191 ebitset_zero (dst);
1192 return changed;
1193 }
1194 return ebitset_op3_cmp (dst, src1, src2, BITSET_OP_AND);
1195}
1196
1197
1198static void
1199ebitset_and (bitset dst, bitset src1, bitset src2)
1200{
1201 ebitset_and_cmp (dst, src1, src2);
1202}
1203
1204
1205static bool
1206ebitset_andn_cmp (bitset dst, bitset src1, bitset src2)
1207{
1208 bool changed;
1209
1210 if (EBITSET_ZERO_P (src2))
1211 {
1212 return ebitset_copy_cmp (dst, src1);
1213 }
1214 else if (EBITSET_ZERO_P (src1))
1215 {
1216 ebitset_weed (dst);
1217 changed = EBITSET_ZERO_P (dst);
1218 ebitset_zero (dst);
1219 return changed;
1220 }
1221 return ebitset_op3_cmp (dst, src1, src2, BITSET_OP_ANDN);
1222}
1223
1224
1225static void
1226ebitset_andn (bitset dst, bitset src1, bitset src2)
1227{
1228 ebitset_andn_cmp (dst, src1, src2);
1229}
1230
1231
1232static bool
1233ebitset_or_cmp (bitset dst, bitset src1, bitset src2)
1234{
1235 if (EBITSET_ZERO_P (src2))
1236 {
1237 return ebitset_copy_cmp (dst, src1);
1238 }
1239 else if (EBITSET_ZERO_P (src1))
1240 {
1241 return ebitset_copy_cmp (dst, src2);
1242 }
1243 return ebitset_op3_cmp (dst, src1, src2, BITSET_OP_OR);
1244}
1245
1246
1247static void
1248ebitset_or (bitset dst, bitset src1, bitset src2)
1249{
1250 ebitset_or_cmp (dst, src1, src2);
1251}
1252
1253
1254static bool
1255ebitset_xor_cmp (bitset dst, bitset src1, bitset src2)
1256{
1257 if (EBITSET_ZERO_P (src2))
1258 {
1259 return ebitset_copy_cmp (dst, src1);
1260 }
1261 else if (EBITSET_ZERO_P (src1))
1262 {
1263 return ebitset_copy_cmp (dst, src2);
1264 }
1265 return ebitset_op3_cmp (dst, src1, src2, BITSET_OP_XOR);
1266}
1267
1268
1269static void
1270ebitset_xor (bitset dst, bitset src1, bitset src2)
1271{
1272 ebitset_xor_cmp (dst, src1, src2);
1273}
1274
1275
1276static void
1277ebitset_copy (bitset dst, bitset src)
1278{
1279 if (BITSET_COMPATIBLE_ (dst, src))
1280 ebitset_copy_ (dst, src);
1281 else
1282 bitset_copy_ (dst, src);
1283}
1284
1285
1286/* Vector of operations for linked-list bitsets. */
1287struct bitset_vtable ebitset_vtable = {
1288 ebitset_set,
1289 ebitset_reset,
1290 bitset_toggle_,
1291 ebitset_test,
1292 ebitset_resize,
1293 bitset_size_,
1294 bitset_count_,
1295 ebitset_empty_p,
1296 ebitset_ones,
1297 ebitset_zero,
1298 ebitset_copy,
1299 ebitset_disjoint_p,
1300 ebitset_equal_p,
1301 ebitset_not,
1302 ebitset_subset_p,
1303 ebitset_and,
1304 ebitset_and_cmp,
1305 ebitset_andn,
1306 ebitset_andn_cmp,
1307 ebitset_or,
1308 ebitset_or_cmp,
1309 ebitset_xor,
1310 ebitset_xor_cmp,
1311 bitset_and_or_,
1312 bitset_and_or_cmp_,
1313 bitset_andn_or_,
1314 bitset_andn_or_cmp_,
1315 bitset_or_and_,
1316 bitset_or_and_cmp_,
1317 ebitset_list,
1318 ebitset_list_reverse,
1319 ebitset_free,
1320 BITSET_TABLE
1321};
1322
1323
1324/* Return size of initial structure. */
1325size_t
1326ebitset_bytes (bitset_bindex n_bits ATTRIBUTE_UNUSED)
1327{
1328 return sizeof (struct ebitset_struct);
1329}
1330
1331
1332/* Initialize a bitset. */
1333
1334bitset
1335ebitset_init (bitset bset, bitset_bindex n_bits)
1336{
1337 bitset_windex size;
1338
1339 bset->b.vtable = &ebitset_vtable;
1340
1341 bset->b.csize = EBITSET_ELT_WORDS;
1342
1343 EBITSET_ZERO_SET (bset);
1344
1345 size = n_bits ? (n_bits + EBITSET_ELT_BITS - 1) / EBITSET_ELT_BITS
1346 : EBITSET_INITIAL_SIZE;
1347
1348 EBITSET_ASIZE (bset) = 0;
1349 EBITSET_ELTS (bset) = 0;
1350 ebitset_resize (bset, n_bits);
1351
1352 return bset;
1353}
1354
1355
1356void
1357ebitset_release_memory (void)
1358{
1359 ebitset_free_list = 0;
1360 if (ebitset_obstack_init)
1361 {
1362 ebitset_obstack_init = false;
1363 obstack_free (&ebitset_obstack, NULL);
1364 }
1365}