tree-ssa-phiprop.c: use gimple_phi
[official-gcc.git] / gcc / bitmap.c
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1 /* Functions to support general ended bitmaps.
2 Copyright (C) 1997-2014 Free Software Foundation, Inc.
4 This file is part of GCC.
6 GCC is free software; you can redistribute it and/or modify it under
7 the terms of the GNU General Public License as published by the Free
8 Software Foundation; either version 3, or (at your option) any later
9 version.
11 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
12 WARRANTY; without even the implied warranty of MERCHANTABILITY or
13 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
14 for more details.
16 You should have received a copy of the GNU General Public License
17 along with GCC; see the file COPYING3. If not see
18 <http://www.gnu.org/licenses/>. */
20 #include "config.h"
21 #include "system.h"
22 #include "coretypes.h"
23 #include "obstack.h"
24 #include "ggc.h"
25 #include "bitmap.h"
26 #include "hash-table.h"
27 #include "vec.h"
29 /* Store information about each particular bitmap, per allocation site. */
30 struct bitmap_descriptor_d
32 int id;
33 const char *function;
34 const char *file;
35 int line;
36 int created;
37 uint64_t allocated;
38 uint64_t peak;
39 uint64_t current;
40 uint64_t nsearches;
41 uint64_t search_iter;
44 typedef struct bitmap_descriptor_d *bitmap_descriptor;
45 typedef const struct bitmap_descriptor_d *const_bitmap_descriptor;
47 /* Next available unique id number for bitmap desciptors. */
48 static int next_bitmap_desc_id = 0;
50 /* Vector mapping descriptor ids to descriptors. */
51 static vec<bitmap_descriptor> bitmap_descriptors;
53 /* Hashtable helpers. */
55 struct loc
57 const char *file;
58 const char *function;
59 int line;
62 struct bitmap_desc_hasher : typed_noop_remove <bitmap_descriptor_d>
64 typedef bitmap_descriptor_d value_type;
65 typedef loc compare_type;
66 static inline hashval_t hash (const value_type *);
67 static inline bool equal (const value_type *, const compare_type *);
70 inline hashval_t
71 bitmap_desc_hasher::hash (const value_type *d)
73 return htab_hash_pointer (d->file) + d->line;
76 inline bool
77 bitmap_desc_hasher::equal (const value_type *d, const compare_type *l)
79 return d->file == l->file && d->function == l->function && d->line == l->line;
82 /* Hashtable mapping bitmap names to descriptors. */
83 static hash_table<bitmap_desc_hasher> *bitmap_desc_hash;
85 /* For given file and line, return descriptor, create new if needed. */
86 static bitmap_descriptor
87 get_bitmap_descriptor (const char *file, int line, const char *function)
89 bitmap_descriptor_d **slot;
90 struct loc loc;
92 loc.file = file;
93 loc.function = function;
94 loc.line = line;
96 if (!bitmap_desc_hash)
97 bitmap_desc_hash = new hash_table<bitmap_desc_hasher> (10);
99 slot
100 = bitmap_desc_hash->find_slot_with_hash (&loc,
101 htab_hash_pointer (file) + line,
102 INSERT);
103 if (*slot)
104 return *slot;
106 *slot = XCNEW (struct bitmap_descriptor_d);
107 bitmap_descriptors.safe_push (*slot);
108 (*slot)->id = next_bitmap_desc_id++;
109 (*slot)->file = file;
110 (*slot)->function = function;
111 (*slot)->line = line;
112 return *slot;
115 /* Register new bitmap. */
116 void
117 bitmap_register (bitmap b MEM_STAT_DECL)
119 bitmap_descriptor desc = get_bitmap_descriptor (ALONE_FINAL_PASS_MEM_STAT);
120 desc->created++;
121 b->descriptor_id = desc->id;
124 /* Account the overhead. */
125 static void
126 register_overhead (bitmap b, int amount)
128 bitmap_descriptor desc = bitmap_descriptors[b->descriptor_id];
129 desc->current += amount;
130 if (amount > 0)
131 desc->allocated += amount;
132 if (desc->peak < desc->current)
133 desc->peak = desc->current;
136 /* Global data */
137 bitmap_element bitmap_zero_bits; /* An element of all zero bits. */
138 bitmap_obstack bitmap_default_obstack; /* The default bitmap obstack. */
139 static int bitmap_default_obstack_depth;
140 static GTY((deletable)) bitmap_element *bitmap_ggc_free; /* Freelist of
141 GC'd elements. */
143 static void bitmap_elem_to_freelist (bitmap, bitmap_element *);
144 static void bitmap_element_free (bitmap, bitmap_element *);
145 static bitmap_element *bitmap_element_allocate (bitmap);
146 static int bitmap_element_zerop (const bitmap_element *);
147 static void bitmap_element_link (bitmap, bitmap_element *);
148 static bitmap_element *bitmap_elt_insert_after (bitmap, bitmap_element *, unsigned int);
149 static void bitmap_elt_clear_from (bitmap, bitmap_element *);
150 static bitmap_element *bitmap_find_bit (bitmap, unsigned int);
153 /* Add ELEM to the appropriate freelist. */
154 static inline void
155 bitmap_elem_to_freelist (bitmap head, bitmap_element *elt)
157 bitmap_obstack *bit_obstack = head->obstack;
159 elt->next = NULL;
160 if (bit_obstack)
162 elt->prev = bit_obstack->elements;
163 bit_obstack->elements = elt;
165 else
167 elt->prev = bitmap_ggc_free;
168 bitmap_ggc_free = elt;
172 /* Free a bitmap element. Since these are allocated off the
173 bitmap_obstack, "free" actually means "put onto the freelist". */
175 static inline void
176 bitmap_element_free (bitmap head, bitmap_element *elt)
178 bitmap_element *next = elt->next;
179 bitmap_element *prev = elt->prev;
181 if (prev)
182 prev->next = next;
184 if (next)
185 next->prev = prev;
187 if (head->first == elt)
188 head->first = next;
190 /* Since the first thing we try is to insert before current,
191 make current the next entry in preference to the previous. */
192 if (head->current == elt)
194 head->current = next != 0 ? next : prev;
195 if (head->current)
196 head->indx = head->current->indx;
197 else
198 head->indx = 0;
201 if (GATHER_STATISTICS)
202 register_overhead (head, -((int)sizeof (bitmap_element)));
204 bitmap_elem_to_freelist (head, elt);
207 /* Allocate a bitmap element. The bits are cleared, but nothing else is. */
209 static inline bitmap_element *
210 bitmap_element_allocate (bitmap head)
212 bitmap_element *element;
213 bitmap_obstack *bit_obstack = head->obstack;
215 if (bit_obstack)
217 element = bit_obstack->elements;
219 if (element)
220 /* Use up the inner list first before looking at the next
221 element of the outer list. */
222 if (element->next)
224 bit_obstack->elements = element->next;
225 bit_obstack->elements->prev = element->prev;
227 else
228 /* Inner list was just a singleton. */
229 bit_obstack->elements = element->prev;
230 else
231 element = XOBNEW (&bit_obstack->obstack, bitmap_element);
233 else
235 element = bitmap_ggc_free;
236 if (element)
237 /* Use up the inner list first before looking at the next
238 element of the outer list. */
239 if (element->next)
241 bitmap_ggc_free = element->next;
242 bitmap_ggc_free->prev = element->prev;
244 else
245 /* Inner list was just a singleton. */
246 bitmap_ggc_free = element->prev;
247 else
248 element = ggc_alloc<bitmap_element> ();
251 if (GATHER_STATISTICS)
252 register_overhead (head, sizeof (bitmap_element));
254 memset (element->bits, 0, sizeof (element->bits));
256 return element;
259 /* Remove ELT and all following elements from bitmap HEAD. */
261 void
262 bitmap_elt_clear_from (bitmap head, bitmap_element *elt)
264 bitmap_element *prev;
265 bitmap_obstack *bit_obstack = head->obstack;
267 if (!elt) return;
269 if (GATHER_STATISTICS)
271 int n = 0;
272 for (prev = elt; prev; prev = prev->next)
273 n++;
274 register_overhead (head, -sizeof (bitmap_element) * n);
277 prev = elt->prev;
278 if (prev)
280 prev->next = NULL;
281 if (head->current->indx > prev->indx)
283 head->current = prev;
284 head->indx = prev->indx;
287 else
289 head->first = NULL;
290 head->current = NULL;
291 head->indx = 0;
294 /* Put the entire list onto the free list in one operation. */
295 if (bit_obstack)
297 elt->prev = bit_obstack->elements;
298 bit_obstack->elements = elt;
300 else
302 elt->prev = bitmap_ggc_free;
303 bitmap_ggc_free = elt;
307 /* Clear a bitmap by freeing the linked list. */
309 void
310 bitmap_clear (bitmap head)
312 if (head->first)
313 bitmap_elt_clear_from (head, head->first);
316 /* Initialize a bitmap obstack. If BIT_OBSTACK is NULL, initialize
317 the default bitmap obstack. */
319 void
320 bitmap_obstack_initialize (bitmap_obstack *bit_obstack)
322 if (!bit_obstack)
324 if (bitmap_default_obstack_depth++)
325 return;
326 bit_obstack = &bitmap_default_obstack;
329 #if !defined(__GNUC__) || (__GNUC__ < 2)
330 #define __alignof__(type) 0
331 #endif
333 bit_obstack->elements = NULL;
334 bit_obstack->heads = NULL;
335 obstack_specify_allocation (&bit_obstack->obstack, OBSTACK_CHUNK_SIZE,
336 __alignof__ (bitmap_element),
337 obstack_chunk_alloc,
338 obstack_chunk_free);
341 /* Release the memory from a bitmap obstack. If BIT_OBSTACK is NULL,
342 release the default bitmap obstack. */
344 void
345 bitmap_obstack_release (bitmap_obstack *bit_obstack)
347 if (!bit_obstack)
349 if (--bitmap_default_obstack_depth)
351 gcc_assert (bitmap_default_obstack_depth > 0);
352 return;
354 bit_obstack = &bitmap_default_obstack;
357 bit_obstack->elements = NULL;
358 bit_obstack->heads = NULL;
359 obstack_free (&bit_obstack->obstack, NULL);
362 /* Create a new bitmap on an obstack. If BIT_OBSTACK is NULL, create
363 it on the default bitmap obstack. */
365 bitmap
366 bitmap_obstack_alloc_stat (bitmap_obstack *bit_obstack MEM_STAT_DECL)
368 bitmap map;
370 if (!bit_obstack)
371 bit_obstack = &bitmap_default_obstack;
372 map = bit_obstack->heads;
373 if (map)
374 bit_obstack->heads = (struct bitmap_head *) map->first;
375 else
376 map = XOBNEW (&bit_obstack->obstack, bitmap_head);
377 bitmap_initialize_stat (map, bit_obstack PASS_MEM_STAT);
379 if (GATHER_STATISTICS)
380 register_overhead (map, sizeof (bitmap_head));
382 return map;
385 /* Create a new GCd bitmap. */
387 bitmap
388 bitmap_gc_alloc_stat (ALONE_MEM_STAT_DECL)
390 bitmap map;
392 map = ggc_alloc<bitmap_head> ();
393 bitmap_initialize_stat (map, NULL PASS_MEM_STAT);
395 if (GATHER_STATISTICS)
396 register_overhead (map, sizeof (bitmap_head));
398 return map;
401 /* Release an obstack allocated bitmap. */
403 void
404 bitmap_obstack_free (bitmap map)
406 if (map)
408 bitmap_clear (map);
409 map->first = (bitmap_element *) map->obstack->heads;
411 if (GATHER_STATISTICS)
412 register_overhead (map, -((int)sizeof (bitmap_head)));
414 map->obstack->heads = map;
419 /* Return nonzero if all bits in an element are zero. */
421 static inline int
422 bitmap_element_zerop (const bitmap_element *element)
424 #if BITMAP_ELEMENT_WORDS == 2
425 return (element->bits[0] | element->bits[1]) == 0;
426 #else
427 unsigned i;
429 for (i = 0; i < BITMAP_ELEMENT_WORDS; i++)
430 if (element->bits[i] != 0)
431 return 0;
433 return 1;
434 #endif
437 /* Link the bitmap element into the current bitmap linked list. */
439 static inline void
440 bitmap_element_link (bitmap head, bitmap_element *element)
442 unsigned int indx = element->indx;
443 bitmap_element *ptr;
445 /* If this is the first and only element, set it in. */
446 if (head->first == 0)
448 element->next = element->prev = 0;
449 head->first = element;
452 /* If this index is less than that of the current element, it goes someplace
453 before the current element. */
454 else if (indx < head->indx)
456 for (ptr = head->current;
457 ptr->prev != 0 && ptr->prev->indx > indx;
458 ptr = ptr->prev)
461 if (ptr->prev)
462 ptr->prev->next = element;
463 else
464 head->first = element;
466 element->prev = ptr->prev;
467 element->next = ptr;
468 ptr->prev = element;
471 /* Otherwise, it must go someplace after the current element. */
472 else
474 for (ptr = head->current;
475 ptr->next != 0 && ptr->next->indx < indx;
476 ptr = ptr->next)
479 if (ptr->next)
480 ptr->next->prev = element;
482 element->next = ptr->next;
483 element->prev = ptr;
484 ptr->next = element;
487 /* Set up so this is the first element searched. */
488 head->current = element;
489 head->indx = indx;
492 /* Insert a new uninitialized element into bitmap HEAD after element
493 ELT. If ELT is NULL, insert the element at the start. Return the
494 new element. */
496 static bitmap_element *
497 bitmap_elt_insert_after (bitmap head, bitmap_element *elt, unsigned int indx)
499 bitmap_element *node = bitmap_element_allocate (head);
500 node->indx = indx;
502 if (!elt)
504 if (!head->current)
506 head->current = node;
507 head->indx = indx;
509 node->next = head->first;
510 if (node->next)
511 node->next->prev = node;
512 head->first = node;
513 node->prev = NULL;
515 else
517 gcc_checking_assert (head->current);
518 node->next = elt->next;
519 if (node->next)
520 node->next->prev = node;
521 elt->next = node;
522 node->prev = elt;
524 return node;
527 /* Copy a bitmap to another bitmap. */
529 void
530 bitmap_copy (bitmap to, const_bitmap from)
532 const bitmap_element *from_ptr;
533 bitmap_element *to_ptr = 0;
535 bitmap_clear (to);
537 /* Copy elements in forward direction one at a time. */
538 for (from_ptr = from->first; from_ptr; from_ptr = from_ptr->next)
540 bitmap_element *to_elt = bitmap_element_allocate (to);
542 to_elt->indx = from_ptr->indx;
543 memcpy (to_elt->bits, from_ptr->bits, sizeof (to_elt->bits));
545 /* Here we have a special case of bitmap_element_link, for the case
546 where we know the links are being entered in sequence. */
547 if (to_ptr == 0)
549 to->first = to->current = to_elt;
550 to->indx = from_ptr->indx;
551 to_elt->next = to_elt->prev = 0;
553 else
555 to_elt->prev = to_ptr;
556 to_elt->next = 0;
557 to_ptr->next = to_elt;
560 to_ptr = to_elt;
564 /* Find a bitmap element that would hold a bitmap's bit.
565 Update the `current' field even if we can't find an element that
566 would hold the bitmap's bit to make eventual allocation
567 faster. */
569 static inline bitmap_element *
570 bitmap_find_bit (bitmap head, unsigned int bit)
572 bitmap_element *element;
573 unsigned int indx = bit / BITMAP_ELEMENT_ALL_BITS;
575 if (head->current == NULL
576 || head->indx == indx)
577 return head->current;
578 if (head->current == head->first
579 && head->first->next == NULL)
580 return NULL;
582 /* This bitmap has more than one element, and we're going to look
583 through the elements list. Count that as a search. */
584 if (GATHER_STATISTICS)
585 bitmap_descriptors[head->descriptor_id]->nsearches++;
587 if (head->indx < indx)
588 /* INDX is beyond head->indx. Search from head->current
589 forward. */
590 for (element = head->current;
591 element->next != 0 && element->indx < indx;
592 element = element->next)
594 if (GATHER_STATISTICS)
595 bitmap_descriptors[head->descriptor_id]->search_iter++;
598 else if (head->indx / 2 < indx)
599 /* INDX is less than head->indx and closer to head->indx than to
600 0. Search from head->current backward. */
601 for (element = head->current;
602 element->prev != 0 && element->indx > indx;
603 element = element->prev)
605 if (GATHER_STATISTICS)
606 bitmap_descriptors[head->descriptor_id]->search_iter++;
609 else
610 /* INDX is less than head->indx and closer to 0 than to
611 head->indx. Search from head->first forward. */
612 for (element = head->first;
613 element->next != 0 && element->indx < indx;
614 element = element->next)
615 if (GATHER_STATISTICS)
617 bitmap_descriptors[head->descriptor_id]->search_iter++;
620 /* `element' is the nearest to the one we want. If it's not the one we
621 want, the one we want doesn't exist. */
622 head->current = element;
623 head->indx = element->indx;
624 if (element != 0 && element->indx != indx)
625 element = 0;
627 return element;
630 /* Clear a single bit in a bitmap. Return true if the bit changed. */
632 bool
633 bitmap_clear_bit (bitmap head, int bit)
635 bitmap_element *const ptr = bitmap_find_bit (head, bit);
637 if (ptr != 0)
639 unsigned bit_num = bit % BITMAP_WORD_BITS;
640 unsigned word_num = bit / BITMAP_WORD_BITS % BITMAP_ELEMENT_WORDS;
641 BITMAP_WORD bit_val = ((BITMAP_WORD) 1) << bit_num;
642 bool res = (ptr->bits[word_num] & bit_val) != 0;
643 if (res)
645 ptr->bits[word_num] &= ~bit_val;
646 /* If we cleared the entire word, free up the element. */
647 if (!ptr->bits[word_num]
648 && bitmap_element_zerop (ptr))
649 bitmap_element_free (head, ptr);
652 return res;
655 return false;
658 /* Set a single bit in a bitmap. Return true if the bit changed. */
660 bool
661 bitmap_set_bit (bitmap head, int bit)
663 bitmap_element *ptr = bitmap_find_bit (head, bit);
664 unsigned word_num = bit / BITMAP_WORD_BITS % BITMAP_ELEMENT_WORDS;
665 unsigned bit_num = bit % BITMAP_WORD_BITS;
666 BITMAP_WORD bit_val = ((BITMAP_WORD) 1) << bit_num;
668 if (ptr == 0)
670 ptr = bitmap_element_allocate (head);
671 ptr->indx = bit / BITMAP_ELEMENT_ALL_BITS;
672 ptr->bits[word_num] = bit_val;
673 bitmap_element_link (head, ptr);
674 return true;
676 else
678 bool res = (ptr->bits[word_num] & bit_val) == 0;
679 if (res)
680 ptr->bits[word_num] |= bit_val;
681 return res;
685 /* Return whether a bit is set within a bitmap. */
688 bitmap_bit_p (bitmap head, int bit)
690 bitmap_element *ptr;
691 unsigned bit_num;
692 unsigned word_num;
694 ptr = bitmap_find_bit (head, bit);
695 if (ptr == 0)
696 return 0;
698 bit_num = bit % BITMAP_WORD_BITS;
699 word_num = bit / BITMAP_WORD_BITS % BITMAP_ELEMENT_WORDS;
701 return (ptr->bits[word_num] >> bit_num) & 1;
704 #if GCC_VERSION < 3400
705 /* Table of number of set bits in a character, indexed by value of char. */
706 static const unsigned char popcount_table[] =
708 0,1,1,2,1,2,2,3,1,2,2,3,2,3,3,4,1,2,2,3,2,3,3,4,2,3,3,4,3,4,4,5,
709 1,2,2,3,2,3,3,4,2,3,3,4,3,4,4,5,2,3,3,4,3,4,4,5,3,4,4,5,4,5,5,6,
710 1,2,2,3,2,3,3,4,2,3,3,4,3,4,4,5,2,3,3,4,3,4,4,5,3,4,4,5,4,5,5,6,
711 2,3,3,4,3,4,4,5,3,4,4,5,4,5,5,6,3,4,4,5,4,5,5,6,4,5,5,6,5,6,6,7,
712 1,2,2,3,2,3,3,4,2,3,3,4,3,4,4,5,2,3,3,4,3,4,4,5,3,4,4,5,4,5,5,6,
713 2,3,3,4,3,4,4,5,3,4,4,5,4,5,5,6,3,4,4,5,4,5,5,6,4,5,5,6,5,6,6,7,
714 2,3,3,4,3,4,4,5,3,4,4,5,4,5,5,6,3,4,4,5,4,5,5,6,4,5,5,6,5,6,6,7,
715 3,4,4,5,4,5,5,6,4,5,5,6,5,6,6,7,4,5,5,6,5,6,6,7,5,6,6,7,6,7,7,8,
718 static unsigned long
719 bitmap_popcount (BITMAP_WORD a)
721 unsigned long ret = 0;
722 unsigned i;
724 /* Just do this the table way for now */
725 for (i = 0; i < BITMAP_WORD_BITS; i+= 8)
726 ret += popcount_table[(a >> i) & 0xff];
727 return ret;
729 #endif
730 /* Count the number of bits set in the bitmap, and return it. */
732 unsigned long
733 bitmap_count_bits (const_bitmap a)
735 unsigned long count = 0;
736 const bitmap_element *elt;
737 unsigned ix;
739 for (elt = a->first; elt; elt = elt->next)
741 for (ix = 0; ix != BITMAP_ELEMENT_WORDS; ix++)
743 #if GCC_VERSION >= 3400
744 /* Note that popcountl matches BITMAP_WORD in type, so the actual size
745 of BITMAP_WORD is not material. */
746 count += __builtin_popcountl (elt->bits[ix]);
747 #else
748 count += bitmap_popcount (elt->bits[ix]);
749 #endif
752 return count;
755 /* Return true if the bitmap has a single bit set. Otherwise return
756 false. */
758 bool
759 bitmap_single_bit_set_p (const_bitmap a)
761 unsigned long count = 0;
762 const bitmap_element *elt;
763 unsigned ix;
765 if (bitmap_empty_p (a))
766 return false;
768 elt = a->first;
769 /* As there are no completely empty bitmap elements, a second one
770 means we have more than one bit set. */
771 if (elt->next != NULL)
772 return false;
774 for (ix = 0; ix != BITMAP_ELEMENT_WORDS; ix++)
776 #if GCC_VERSION >= 3400
777 /* Note that popcountl matches BITMAP_WORD in type, so the actual size
778 of BITMAP_WORD is not material. */
779 count += __builtin_popcountl (elt->bits[ix]);
780 #else
781 count += bitmap_popcount (elt->bits[ix]);
782 #endif
783 if (count > 1)
784 return false;
787 return count == 1;
791 /* Return the bit number of the first set bit in the bitmap. The
792 bitmap must be non-empty. */
794 unsigned
795 bitmap_first_set_bit (const_bitmap a)
797 const bitmap_element *elt = a->first;
798 unsigned bit_no;
799 BITMAP_WORD word;
800 unsigned ix;
802 gcc_checking_assert (elt);
803 bit_no = elt->indx * BITMAP_ELEMENT_ALL_BITS;
804 for (ix = 0; ix != BITMAP_ELEMENT_WORDS; ix++)
806 word = elt->bits[ix];
807 if (word)
808 goto found_bit;
810 gcc_unreachable ();
811 found_bit:
812 bit_no += ix * BITMAP_WORD_BITS;
814 #if GCC_VERSION >= 3004
815 gcc_assert (sizeof (long) == sizeof (word));
816 bit_no += __builtin_ctzl (word);
817 #else
818 /* Binary search for the first set bit. */
819 #if BITMAP_WORD_BITS > 64
820 #error "Fill out the table."
821 #endif
822 #if BITMAP_WORD_BITS > 32
823 if (!(word & 0xffffffff))
824 word >>= 32, bit_no += 32;
825 #endif
826 if (!(word & 0xffff))
827 word >>= 16, bit_no += 16;
828 if (!(word & 0xff))
829 word >>= 8, bit_no += 8;
830 if (!(word & 0xf))
831 word >>= 4, bit_no += 4;
832 if (!(word & 0x3))
833 word >>= 2, bit_no += 2;
834 if (!(word & 0x1))
835 word >>= 1, bit_no += 1;
837 gcc_checking_assert (word & 1);
838 #endif
839 return bit_no;
842 /* Return the bit number of the first set bit in the bitmap. The
843 bitmap must be non-empty. */
845 unsigned
846 bitmap_last_set_bit (const_bitmap a)
848 const bitmap_element *elt = a->current ? a->current : a->first;
849 unsigned bit_no;
850 BITMAP_WORD word;
851 int ix;
853 gcc_checking_assert (elt);
854 while (elt->next)
855 elt = elt->next;
856 bit_no = elt->indx * BITMAP_ELEMENT_ALL_BITS;
857 for (ix = BITMAP_ELEMENT_WORDS - 1; ix >= 0; ix--)
859 word = elt->bits[ix];
860 if (word)
861 goto found_bit;
863 gcc_unreachable ();
864 found_bit:
865 bit_no += ix * BITMAP_WORD_BITS;
866 #if GCC_VERSION >= 3004
867 gcc_assert (sizeof (long) == sizeof (word));
868 bit_no += BITMAP_WORD_BITS - __builtin_clzl (word) - 1;
869 #else
870 /* Hopefully this is a twos-complement host... */
871 BITMAP_WORD x = word;
872 x |= (x >> 1);
873 x |= (x >> 2);
874 x |= (x >> 4);
875 x |= (x >> 8);
876 x |= (x >> 16);
877 #if BITMAP_WORD_BITS > 32
878 x |= (x >> 32);
879 #endif
880 bit_no += bitmap_popcount (x) - 1;
881 #endif
883 return bit_no;
887 /* DST = A & B. */
889 void
890 bitmap_and (bitmap dst, const_bitmap a, const_bitmap b)
892 bitmap_element *dst_elt = dst->first;
893 const bitmap_element *a_elt = a->first;
894 const bitmap_element *b_elt = b->first;
895 bitmap_element *dst_prev = NULL;
897 gcc_assert (dst != a && dst != b);
899 if (a == b)
901 bitmap_copy (dst, a);
902 return;
905 while (a_elt && b_elt)
907 if (a_elt->indx < b_elt->indx)
908 a_elt = a_elt->next;
909 else if (b_elt->indx < a_elt->indx)
910 b_elt = b_elt->next;
911 else
913 /* Matching elts, generate A & B. */
914 unsigned ix;
915 BITMAP_WORD ior = 0;
917 if (!dst_elt)
918 dst_elt = bitmap_elt_insert_after (dst, dst_prev, a_elt->indx);
919 else
920 dst_elt->indx = a_elt->indx;
921 for (ix = 0; ix < BITMAP_ELEMENT_WORDS; ix++)
923 BITMAP_WORD r = a_elt->bits[ix] & b_elt->bits[ix];
925 dst_elt->bits[ix] = r;
926 ior |= r;
928 if (ior)
930 dst_prev = dst_elt;
931 dst_elt = dst_elt->next;
933 a_elt = a_elt->next;
934 b_elt = b_elt->next;
937 /* Ensure that dst->current is valid. */
938 dst->current = dst->first;
939 bitmap_elt_clear_from (dst, dst_elt);
940 gcc_checking_assert (!dst->current == !dst->first);
941 if (dst->current)
942 dst->indx = dst->current->indx;
945 /* A &= B. Return true if A changed. */
947 bool
948 bitmap_and_into (bitmap a, const_bitmap b)
950 bitmap_element *a_elt = a->first;
951 const bitmap_element *b_elt = b->first;
952 bitmap_element *next;
953 bool changed = false;
955 if (a == b)
956 return false;
958 while (a_elt && b_elt)
960 if (a_elt->indx < b_elt->indx)
962 next = a_elt->next;
963 bitmap_element_free (a, a_elt);
964 a_elt = next;
965 changed = true;
967 else if (b_elt->indx < a_elt->indx)
968 b_elt = b_elt->next;
969 else
971 /* Matching elts, generate A &= B. */
972 unsigned ix;
973 BITMAP_WORD ior = 0;
975 for (ix = 0; ix < BITMAP_ELEMENT_WORDS; ix++)
977 BITMAP_WORD r = a_elt->bits[ix] & b_elt->bits[ix];
978 if (a_elt->bits[ix] != r)
979 changed = true;
980 a_elt->bits[ix] = r;
981 ior |= r;
983 next = a_elt->next;
984 if (!ior)
985 bitmap_element_free (a, a_elt);
986 a_elt = next;
987 b_elt = b_elt->next;
991 if (a_elt)
993 changed = true;
994 bitmap_elt_clear_from (a, a_elt);
997 gcc_checking_assert (!a->current == !a->first
998 && (!a->current || a->indx == a->current->indx));
1000 return changed;
1004 /* Insert an element equal to SRC_ELT after DST_PREV, overwriting DST_ELT
1005 if non-NULL. CHANGED is true if the destination bitmap had already been
1006 changed; the new value of CHANGED is returned. */
1008 static inline bool
1009 bitmap_elt_copy (bitmap dst, bitmap_element *dst_elt, bitmap_element *dst_prev,
1010 const bitmap_element *src_elt, bool changed)
1012 if (!changed && dst_elt && dst_elt->indx == src_elt->indx)
1014 unsigned ix;
1016 for (ix = 0; ix < BITMAP_ELEMENT_WORDS; ix++)
1017 if (src_elt->bits[ix] != dst_elt->bits[ix])
1019 dst_elt->bits[ix] = src_elt->bits[ix];
1020 changed = true;
1023 else
1025 changed = true;
1026 if (!dst_elt)
1027 dst_elt = bitmap_elt_insert_after (dst, dst_prev, src_elt->indx);
1028 else
1029 dst_elt->indx = src_elt->indx;
1030 memcpy (dst_elt->bits, src_elt->bits, sizeof (dst_elt->bits));
1032 return changed;
1037 /* DST = A & ~B */
1039 bool
1040 bitmap_and_compl (bitmap dst, const_bitmap a, const_bitmap b)
1042 bitmap_element *dst_elt = dst->first;
1043 const bitmap_element *a_elt = a->first;
1044 const bitmap_element *b_elt = b->first;
1045 bitmap_element *dst_prev = NULL;
1046 bitmap_element **dst_prev_pnext = &dst->first;
1047 bool changed = false;
1049 gcc_assert (dst != a && dst != b);
1051 if (a == b)
1053 changed = !bitmap_empty_p (dst);
1054 bitmap_clear (dst);
1055 return changed;
1058 while (a_elt)
1060 while (b_elt && b_elt->indx < a_elt->indx)
1061 b_elt = b_elt->next;
1063 if (!b_elt || b_elt->indx > a_elt->indx)
1065 changed = bitmap_elt_copy (dst, dst_elt, dst_prev, a_elt, changed);
1066 dst_prev = *dst_prev_pnext;
1067 dst_prev_pnext = &dst_prev->next;
1068 dst_elt = *dst_prev_pnext;
1069 a_elt = a_elt->next;
1072 else
1074 /* Matching elts, generate A & ~B. */
1075 unsigned ix;
1076 BITMAP_WORD ior = 0;
1078 if (!changed && dst_elt && dst_elt->indx == a_elt->indx)
1080 for (ix = 0; ix < BITMAP_ELEMENT_WORDS; ix++)
1082 BITMAP_WORD r = a_elt->bits[ix] & ~b_elt->bits[ix];
1084 if (dst_elt->bits[ix] != r)
1086 changed = true;
1087 dst_elt->bits[ix] = r;
1089 ior |= r;
1092 else
1094 bool new_element;
1095 if (!dst_elt || dst_elt->indx > a_elt->indx)
1097 dst_elt = bitmap_elt_insert_after (dst, dst_prev, a_elt->indx);
1098 new_element = true;
1100 else
1102 dst_elt->indx = a_elt->indx;
1103 new_element = false;
1106 for (ix = 0; ix < BITMAP_ELEMENT_WORDS; ix++)
1108 BITMAP_WORD r = a_elt->bits[ix] & ~b_elt->bits[ix];
1110 dst_elt->bits[ix] = r;
1111 ior |= r;
1114 if (ior)
1115 changed = true;
1116 else
1118 changed |= !new_element;
1119 bitmap_element_free (dst, dst_elt);
1120 dst_elt = *dst_prev_pnext;
1124 if (ior)
1126 dst_prev = *dst_prev_pnext;
1127 dst_prev_pnext = &dst_prev->next;
1128 dst_elt = *dst_prev_pnext;
1130 a_elt = a_elt->next;
1131 b_elt = b_elt->next;
1135 /* Ensure that dst->current is valid. */
1136 dst->current = dst->first;
1138 if (dst_elt)
1140 changed = true;
1141 bitmap_elt_clear_from (dst, dst_elt);
1143 gcc_checking_assert (!dst->current == !dst->first);
1144 if (dst->current)
1145 dst->indx = dst->current->indx;
1147 return changed;
1150 /* A &= ~B. Returns true if A changes */
1152 bool
1153 bitmap_and_compl_into (bitmap a, const_bitmap b)
1155 bitmap_element *a_elt = a->first;
1156 const bitmap_element *b_elt = b->first;
1157 bitmap_element *next;
1158 BITMAP_WORD changed = 0;
1160 if (a == b)
1162 if (bitmap_empty_p (a))
1163 return false;
1164 else
1166 bitmap_clear (a);
1167 return true;
1171 while (a_elt && b_elt)
1173 if (a_elt->indx < b_elt->indx)
1174 a_elt = a_elt->next;
1175 else if (b_elt->indx < a_elt->indx)
1176 b_elt = b_elt->next;
1177 else
1179 /* Matching elts, generate A &= ~B. */
1180 unsigned ix;
1181 BITMAP_WORD ior = 0;
1183 for (ix = 0; ix < BITMAP_ELEMENT_WORDS; ix++)
1185 BITMAP_WORD cleared = a_elt->bits[ix] & b_elt->bits[ix];
1186 BITMAP_WORD r = a_elt->bits[ix] ^ cleared;
1188 a_elt->bits[ix] = r;
1189 changed |= cleared;
1190 ior |= r;
1192 next = a_elt->next;
1193 if (!ior)
1194 bitmap_element_free (a, a_elt);
1195 a_elt = next;
1196 b_elt = b_elt->next;
1199 gcc_checking_assert (!a->current == !a->first
1200 && (!a->current || a->indx == a->current->indx));
1201 return changed != 0;
1204 /* Set COUNT bits from START in HEAD. */
1205 void
1206 bitmap_set_range (bitmap head, unsigned int start, unsigned int count)
1208 unsigned int first_index, end_bit_plus1, last_index;
1209 bitmap_element *elt, *elt_prev;
1210 unsigned int i;
1212 if (!count)
1213 return;
1215 first_index = start / BITMAP_ELEMENT_ALL_BITS;
1216 end_bit_plus1 = start + count;
1217 last_index = (end_bit_plus1 - 1) / BITMAP_ELEMENT_ALL_BITS;
1218 elt = bitmap_find_bit (head, start);
1220 /* If bitmap_find_bit returns zero, the current is the closest block
1221 to the result. Otherwise, just use bitmap_element_allocate to
1222 ensure ELT is set; in the loop below, ELT == NULL means "insert
1223 at the end of the bitmap". */
1224 if (!elt)
1226 elt = bitmap_element_allocate (head);
1227 elt->indx = first_index;
1228 bitmap_element_link (head, elt);
1231 gcc_checking_assert (elt->indx == first_index);
1232 elt_prev = elt->prev;
1233 for (i = first_index; i <= last_index; i++)
1235 unsigned elt_start_bit = i * BITMAP_ELEMENT_ALL_BITS;
1236 unsigned elt_end_bit_plus1 = elt_start_bit + BITMAP_ELEMENT_ALL_BITS;
1238 unsigned int first_word_to_mod;
1239 BITMAP_WORD first_mask;
1240 unsigned int last_word_to_mod;
1241 BITMAP_WORD last_mask;
1242 unsigned int ix;
1244 if (!elt || elt->indx != i)
1245 elt = bitmap_elt_insert_after (head, elt_prev, i);
1247 if (elt_start_bit <= start)
1249 /* The first bit to turn on is somewhere inside this
1250 elt. */
1251 first_word_to_mod = (start - elt_start_bit) / BITMAP_WORD_BITS;
1253 /* This mask should have 1s in all bits >= start position. */
1254 first_mask =
1255 (((BITMAP_WORD) 1) << ((start % BITMAP_WORD_BITS))) - 1;
1256 first_mask = ~first_mask;
1258 else
1260 /* The first bit to turn on is below this start of this elt. */
1261 first_word_to_mod = 0;
1262 first_mask = ~(BITMAP_WORD) 0;
1265 if (elt_end_bit_plus1 <= end_bit_plus1)
1267 /* The last bit to turn on is beyond this elt. */
1268 last_word_to_mod = BITMAP_ELEMENT_WORDS - 1;
1269 last_mask = ~(BITMAP_WORD) 0;
1271 else
1273 /* The last bit to turn on is inside to this elt. */
1274 last_word_to_mod =
1275 (end_bit_plus1 - elt_start_bit) / BITMAP_WORD_BITS;
1277 /* The last mask should have 1s below the end bit. */
1278 last_mask =
1279 (((BITMAP_WORD) 1) << ((end_bit_plus1 % BITMAP_WORD_BITS))) - 1;
1282 if (first_word_to_mod == last_word_to_mod)
1284 BITMAP_WORD mask = first_mask & last_mask;
1285 elt->bits[first_word_to_mod] |= mask;
1287 else
1289 elt->bits[first_word_to_mod] |= first_mask;
1290 if (BITMAP_ELEMENT_WORDS > 2)
1291 for (ix = first_word_to_mod + 1; ix < last_word_to_mod; ix++)
1292 elt->bits[ix] = ~(BITMAP_WORD) 0;
1293 elt->bits[last_word_to_mod] |= last_mask;
1296 elt_prev = elt;
1297 elt = elt->next;
1300 head->current = elt ? elt : elt_prev;
1301 head->indx = head->current->indx;
1304 /* Clear COUNT bits from START in HEAD. */
1305 void
1306 bitmap_clear_range (bitmap head, unsigned int start, unsigned int count)
1308 unsigned int first_index, end_bit_plus1, last_index;
1309 bitmap_element *elt;
1311 if (!count)
1312 return;
1314 first_index = start / BITMAP_ELEMENT_ALL_BITS;
1315 end_bit_plus1 = start + count;
1316 last_index = (end_bit_plus1 - 1) / BITMAP_ELEMENT_ALL_BITS;
1317 elt = bitmap_find_bit (head, start);
1319 /* If bitmap_find_bit returns zero, the current is the closest block
1320 to the result. If the current is less than first index, find the
1321 next one. Otherwise, just set elt to be current. */
1322 if (!elt)
1324 if (head->current)
1326 if (head->indx < first_index)
1328 elt = head->current->next;
1329 if (!elt)
1330 return;
1332 else
1333 elt = head->current;
1335 else
1336 return;
1339 while (elt && (elt->indx <= last_index))
1341 bitmap_element * next_elt = elt->next;
1342 unsigned elt_start_bit = (elt->indx) * BITMAP_ELEMENT_ALL_BITS;
1343 unsigned elt_end_bit_plus1 = elt_start_bit + BITMAP_ELEMENT_ALL_BITS;
1346 if (elt_start_bit >= start && elt_end_bit_plus1 <= end_bit_plus1)
1347 /* Get rid of the entire elt and go to the next one. */
1348 bitmap_element_free (head, elt);
1349 else
1351 /* Going to have to knock out some bits in this elt. */
1352 unsigned int first_word_to_mod;
1353 BITMAP_WORD first_mask;
1354 unsigned int last_word_to_mod;
1355 BITMAP_WORD last_mask;
1356 unsigned int i;
1357 bool clear = true;
1359 if (elt_start_bit <= start)
1361 /* The first bit to turn off is somewhere inside this
1362 elt. */
1363 first_word_to_mod = (start - elt_start_bit) / BITMAP_WORD_BITS;
1365 /* This mask should have 1s in all bits >= start position. */
1366 first_mask =
1367 (((BITMAP_WORD) 1) << ((start % BITMAP_WORD_BITS))) - 1;
1368 first_mask = ~first_mask;
1370 else
1372 /* The first bit to turn off is below this start of this elt. */
1373 first_word_to_mod = 0;
1374 first_mask = 0;
1375 first_mask = ~first_mask;
1378 if (elt_end_bit_plus1 <= end_bit_plus1)
1380 /* The last bit to turn off is beyond this elt. */
1381 last_word_to_mod = BITMAP_ELEMENT_WORDS - 1;
1382 last_mask = 0;
1383 last_mask = ~last_mask;
1385 else
1387 /* The last bit to turn off is inside to this elt. */
1388 last_word_to_mod =
1389 (end_bit_plus1 - elt_start_bit) / BITMAP_WORD_BITS;
1391 /* The last mask should have 1s below the end bit. */
1392 last_mask =
1393 (((BITMAP_WORD) 1) << (((end_bit_plus1) % BITMAP_WORD_BITS))) - 1;
1397 if (first_word_to_mod == last_word_to_mod)
1399 BITMAP_WORD mask = first_mask & last_mask;
1400 elt->bits[first_word_to_mod] &= ~mask;
1402 else
1404 elt->bits[first_word_to_mod] &= ~first_mask;
1405 if (BITMAP_ELEMENT_WORDS > 2)
1406 for (i = first_word_to_mod + 1; i < last_word_to_mod; i++)
1407 elt->bits[i] = 0;
1408 elt->bits[last_word_to_mod] &= ~last_mask;
1410 for (i = 0; i < BITMAP_ELEMENT_WORDS; i++)
1411 if (elt->bits[i])
1413 clear = false;
1414 break;
1416 /* Check to see if there are any bits left. */
1417 if (clear)
1418 bitmap_element_free (head, elt);
1420 elt = next_elt;
1423 if (elt)
1425 head->current = elt;
1426 head->indx = head->current->indx;
1430 /* A = ~A & B. */
1432 void
1433 bitmap_compl_and_into (bitmap a, const_bitmap b)
1435 bitmap_element *a_elt = a->first;
1436 const bitmap_element *b_elt = b->first;
1437 bitmap_element *a_prev = NULL;
1438 bitmap_element *next;
1440 gcc_assert (a != b);
1442 if (bitmap_empty_p (a))
1444 bitmap_copy (a, b);
1445 return;
1447 if (bitmap_empty_p (b))
1449 bitmap_clear (a);
1450 return;
1453 while (a_elt || b_elt)
1455 if (!b_elt || (a_elt && a_elt->indx < b_elt->indx))
1457 /* A is before B. Remove A */
1458 next = a_elt->next;
1459 a_prev = a_elt->prev;
1460 bitmap_element_free (a, a_elt);
1461 a_elt = next;
1463 else if (!a_elt || b_elt->indx < a_elt->indx)
1465 /* B is before A. Copy B. */
1466 next = bitmap_elt_insert_after (a, a_prev, b_elt->indx);
1467 memcpy (next->bits, b_elt->bits, sizeof (next->bits));
1468 a_prev = next;
1469 b_elt = b_elt->next;
1471 else
1473 /* Matching elts, generate A = ~A & B. */
1474 unsigned ix;
1475 BITMAP_WORD ior = 0;
1477 for (ix = 0; ix < BITMAP_ELEMENT_WORDS; ix++)
1479 BITMAP_WORD cleared = a_elt->bits[ix] & b_elt->bits[ix];
1480 BITMAP_WORD r = b_elt->bits[ix] ^ cleared;
1482 a_elt->bits[ix] = r;
1483 ior |= r;
1485 next = a_elt->next;
1486 if (!ior)
1487 bitmap_element_free (a, a_elt);
1488 else
1489 a_prev = a_elt;
1490 a_elt = next;
1491 b_elt = b_elt->next;
1494 gcc_checking_assert (!a->current == !a->first
1495 && (!a->current || a->indx == a->current->indx));
1496 return;
1500 /* Insert an element corresponding to A_ELT | B_ELT after DST_PREV,
1501 overwriting DST_ELT if non-NULL. CHANGED is true if the destination bitmap
1502 had already been changed; the new value of CHANGED is returned. */
1504 static inline bool
1505 bitmap_elt_ior (bitmap dst, bitmap_element *dst_elt, bitmap_element *dst_prev,
1506 const bitmap_element *a_elt, const bitmap_element *b_elt,
1507 bool changed)
1509 gcc_assert (a_elt || b_elt);
1511 if (a_elt && b_elt && a_elt->indx == b_elt->indx)
1513 /* Matching elts, generate A | B. */
1514 unsigned ix;
1516 if (!changed && dst_elt && dst_elt->indx == a_elt->indx)
1518 for (ix = 0; ix < BITMAP_ELEMENT_WORDS; ix++)
1520 BITMAP_WORD r = a_elt->bits[ix] | b_elt->bits[ix];
1521 if (r != dst_elt->bits[ix])
1523 dst_elt->bits[ix] = r;
1524 changed = true;
1528 else
1530 changed = true;
1531 if (!dst_elt)
1532 dst_elt = bitmap_elt_insert_after (dst, dst_prev, a_elt->indx);
1533 else
1534 dst_elt->indx = a_elt->indx;
1535 for (ix = 0; ix < BITMAP_ELEMENT_WORDS; ix++)
1537 BITMAP_WORD r = a_elt->bits[ix] | b_elt->bits[ix];
1538 dst_elt->bits[ix] = r;
1542 else
1544 /* Copy a single element. */
1545 const bitmap_element *src;
1547 if (!b_elt || (a_elt && a_elt->indx < b_elt->indx))
1548 src = a_elt;
1549 else
1550 src = b_elt;
1552 gcc_checking_assert (src);
1553 changed = bitmap_elt_copy (dst, dst_elt, dst_prev, src, changed);
1555 return changed;
1559 /* DST = A | B. Return true if DST changes. */
1561 bool
1562 bitmap_ior (bitmap dst, const_bitmap a, const_bitmap b)
1564 bitmap_element *dst_elt = dst->first;
1565 const bitmap_element *a_elt = a->first;
1566 const bitmap_element *b_elt = b->first;
1567 bitmap_element *dst_prev = NULL;
1568 bitmap_element **dst_prev_pnext = &dst->first;
1569 bool changed = false;
1571 gcc_assert (dst != a && dst != b);
1573 while (a_elt || b_elt)
1575 changed = bitmap_elt_ior (dst, dst_elt, dst_prev, a_elt, b_elt, changed);
1577 if (a_elt && b_elt && a_elt->indx == b_elt->indx)
1579 a_elt = a_elt->next;
1580 b_elt = b_elt->next;
1582 else
1584 if (a_elt && (!b_elt || a_elt->indx <= b_elt->indx))
1585 a_elt = a_elt->next;
1586 else if (b_elt && (!a_elt || b_elt->indx <= a_elt->indx))
1587 b_elt = b_elt->next;
1590 dst_prev = *dst_prev_pnext;
1591 dst_prev_pnext = &dst_prev->next;
1592 dst_elt = *dst_prev_pnext;
1595 if (dst_elt)
1597 changed = true;
1598 bitmap_elt_clear_from (dst, dst_elt);
1600 gcc_checking_assert (!dst->current == !dst->first);
1601 if (dst->current)
1602 dst->indx = dst->current->indx;
1603 return changed;
1606 /* A |= B. Return true if A changes. */
1608 bool
1609 bitmap_ior_into (bitmap a, const_bitmap b)
1611 bitmap_element *a_elt = a->first;
1612 const bitmap_element *b_elt = b->first;
1613 bitmap_element *a_prev = NULL;
1614 bitmap_element **a_prev_pnext = &a->first;
1615 bool changed = false;
1617 if (a == b)
1618 return false;
1620 while (b_elt)
1622 /* If A lags behind B, just advance it. */
1623 if (!a_elt || a_elt->indx == b_elt->indx)
1625 changed = bitmap_elt_ior (a, a_elt, a_prev, a_elt, b_elt, changed);
1626 b_elt = b_elt->next;
1628 else if (a_elt->indx > b_elt->indx)
1630 changed = bitmap_elt_copy (a, NULL, a_prev, b_elt, changed);
1631 b_elt = b_elt->next;
1634 a_prev = *a_prev_pnext;
1635 a_prev_pnext = &a_prev->next;
1636 a_elt = *a_prev_pnext;
1639 gcc_checking_assert (!a->current == !a->first);
1640 if (a->current)
1641 a->indx = a->current->indx;
1642 return changed;
1645 /* DST = A ^ B */
1647 void
1648 bitmap_xor (bitmap dst, const_bitmap a, const_bitmap b)
1650 bitmap_element *dst_elt = dst->first;
1651 const bitmap_element *a_elt = a->first;
1652 const bitmap_element *b_elt = b->first;
1653 bitmap_element *dst_prev = NULL;
1655 gcc_assert (dst != a && dst != b);
1656 if (a == b)
1658 bitmap_clear (dst);
1659 return;
1662 while (a_elt || b_elt)
1664 if (a_elt && b_elt && a_elt->indx == b_elt->indx)
1666 /* Matching elts, generate A ^ B. */
1667 unsigned ix;
1668 BITMAP_WORD ior = 0;
1670 if (!dst_elt)
1671 dst_elt = bitmap_elt_insert_after (dst, dst_prev, a_elt->indx);
1672 else
1673 dst_elt->indx = a_elt->indx;
1674 for (ix = 0; ix < BITMAP_ELEMENT_WORDS; ix++)
1676 BITMAP_WORD r = a_elt->bits[ix] ^ b_elt->bits[ix];
1678 ior |= r;
1679 dst_elt->bits[ix] = r;
1681 a_elt = a_elt->next;
1682 b_elt = b_elt->next;
1683 if (ior)
1685 dst_prev = dst_elt;
1686 dst_elt = dst_elt->next;
1689 else
1691 /* Copy a single element. */
1692 const bitmap_element *src;
1694 if (!b_elt || (a_elt && a_elt->indx < b_elt->indx))
1696 src = a_elt;
1697 a_elt = a_elt->next;
1699 else
1701 src = b_elt;
1702 b_elt = b_elt->next;
1705 if (!dst_elt)
1706 dst_elt = bitmap_elt_insert_after (dst, dst_prev, src->indx);
1707 else
1708 dst_elt->indx = src->indx;
1709 memcpy (dst_elt->bits, src->bits, sizeof (dst_elt->bits));
1710 dst_prev = dst_elt;
1711 dst_elt = dst_elt->next;
1714 /* Ensure that dst->current is valid. */
1715 dst->current = dst->first;
1716 bitmap_elt_clear_from (dst, dst_elt);
1717 gcc_checking_assert (!dst->current == !dst->first);
1718 if (dst->current)
1719 dst->indx = dst->current->indx;
1722 /* A ^= B */
1724 void
1725 bitmap_xor_into (bitmap a, const_bitmap b)
1727 bitmap_element *a_elt = a->first;
1728 const bitmap_element *b_elt = b->first;
1729 bitmap_element *a_prev = NULL;
1731 if (a == b)
1733 bitmap_clear (a);
1734 return;
1737 while (b_elt)
1739 if (!a_elt || b_elt->indx < a_elt->indx)
1741 /* Copy b_elt. */
1742 bitmap_element *dst = bitmap_elt_insert_after (a, a_prev, b_elt->indx);
1743 memcpy (dst->bits, b_elt->bits, sizeof (dst->bits));
1744 a_prev = dst;
1745 b_elt = b_elt->next;
1747 else if (a_elt->indx < b_elt->indx)
1749 a_prev = a_elt;
1750 a_elt = a_elt->next;
1752 else
1754 /* Matching elts, generate A ^= B. */
1755 unsigned ix;
1756 BITMAP_WORD ior = 0;
1757 bitmap_element *next = a_elt->next;
1759 for (ix = 0; ix < BITMAP_ELEMENT_WORDS; ix++)
1761 BITMAP_WORD r = a_elt->bits[ix] ^ b_elt->bits[ix];
1763 ior |= r;
1764 a_elt->bits[ix] = r;
1766 b_elt = b_elt->next;
1767 if (ior)
1768 a_prev = a_elt;
1769 else
1770 bitmap_element_free (a, a_elt);
1771 a_elt = next;
1774 gcc_checking_assert (!a->current == !a->first);
1775 if (a->current)
1776 a->indx = a->current->indx;
1779 /* Return true if two bitmaps are identical.
1780 We do not bother with a check for pointer equality, as that never
1781 occurs in practice. */
1783 bool
1784 bitmap_equal_p (const_bitmap a, const_bitmap b)
1786 const bitmap_element *a_elt;
1787 const bitmap_element *b_elt;
1788 unsigned ix;
1790 for (a_elt = a->first, b_elt = b->first;
1791 a_elt && b_elt;
1792 a_elt = a_elt->next, b_elt = b_elt->next)
1794 if (a_elt->indx != b_elt->indx)
1795 return false;
1796 for (ix = 0; ix < BITMAP_ELEMENT_WORDS; ix++)
1797 if (a_elt->bits[ix] != b_elt->bits[ix])
1798 return false;
1800 return !a_elt && !b_elt;
1803 /* Return true if A AND B is not empty. */
1805 bool
1806 bitmap_intersect_p (const_bitmap a, const_bitmap b)
1808 const bitmap_element *a_elt;
1809 const bitmap_element *b_elt;
1810 unsigned ix;
1812 for (a_elt = a->first, b_elt = b->first;
1813 a_elt && b_elt;)
1815 if (a_elt->indx < b_elt->indx)
1816 a_elt = a_elt->next;
1817 else if (b_elt->indx < a_elt->indx)
1818 b_elt = b_elt->next;
1819 else
1821 for (ix = 0; ix < BITMAP_ELEMENT_WORDS; ix++)
1822 if (a_elt->bits[ix] & b_elt->bits[ix])
1823 return true;
1824 a_elt = a_elt->next;
1825 b_elt = b_elt->next;
1828 return false;
1831 /* Return true if A AND NOT B is not empty. */
1833 bool
1834 bitmap_intersect_compl_p (const_bitmap a, const_bitmap b)
1836 const bitmap_element *a_elt;
1837 const bitmap_element *b_elt;
1838 unsigned ix;
1839 for (a_elt = a->first, b_elt = b->first;
1840 a_elt && b_elt;)
1842 if (a_elt->indx < b_elt->indx)
1843 return true;
1844 else if (b_elt->indx < a_elt->indx)
1845 b_elt = b_elt->next;
1846 else
1848 for (ix = 0; ix < BITMAP_ELEMENT_WORDS; ix++)
1849 if (a_elt->bits[ix] & ~b_elt->bits[ix])
1850 return true;
1851 a_elt = a_elt->next;
1852 b_elt = b_elt->next;
1855 return a_elt != NULL;
1859 /* DST = A | (FROM1 & ~FROM2). Return true if DST changes. */
1861 bool
1862 bitmap_ior_and_compl (bitmap dst, const_bitmap a, const_bitmap b, const_bitmap kill)
1864 bool changed = false;
1866 bitmap_element *dst_elt = dst->first;
1867 const bitmap_element *a_elt = a->first;
1868 const bitmap_element *b_elt = b->first;
1869 const bitmap_element *kill_elt = kill->first;
1870 bitmap_element *dst_prev = NULL;
1871 bitmap_element **dst_prev_pnext = &dst->first;
1873 gcc_assert (dst != a && dst != b && dst != kill);
1875 /* Special cases. We don't bother checking for bitmap_equal_p (b, kill). */
1876 if (b == kill || bitmap_empty_p (b))
1878 changed = !bitmap_equal_p (dst, a);
1879 if (changed)
1880 bitmap_copy (dst, a);
1881 return changed;
1883 if (bitmap_empty_p (kill))
1884 return bitmap_ior (dst, a, b);
1885 if (bitmap_empty_p (a))
1886 return bitmap_and_compl (dst, b, kill);
1888 while (a_elt || b_elt)
1890 bool new_element = false;
1892 if (b_elt)
1893 while (kill_elt && kill_elt->indx < b_elt->indx)
1894 kill_elt = kill_elt->next;
1896 if (b_elt && kill_elt && kill_elt->indx == b_elt->indx
1897 && (!a_elt || a_elt->indx >= b_elt->indx))
1899 bitmap_element tmp_elt;
1900 unsigned ix;
1902 BITMAP_WORD ior = 0;
1903 tmp_elt.indx = b_elt->indx;
1904 for (ix = 0; ix < BITMAP_ELEMENT_WORDS; ix++)
1906 BITMAP_WORD r = b_elt->bits[ix] & ~kill_elt->bits[ix];
1907 ior |= r;
1908 tmp_elt.bits[ix] = r;
1911 if (ior)
1913 changed = bitmap_elt_ior (dst, dst_elt, dst_prev,
1914 a_elt, &tmp_elt, changed);
1915 new_element = true;
1916 if (a_elt && a_elt->indx == b_elt->indx)
1917 a_elt = a_elt->next;
1920 b_elt = b_elt->next;
1921 kill_elt = kill_elt->next;
1923 else
1925 changed = bitmap_elt_ior (dst, dst_elt, dst_prev,
1926 a_elt, b_elt, changed);
1927 new_element = true;
1929 if (a_elt && b_elt && a_elt->indx == b_elt->indx)
1931 a_elt = a_elt->next;
1932 b_elt = b_elt->next;
1934 else
1936 if (a_elt && (!b_elt || a_elt->indx <= b_elt->indx))
1937 a_elt = a_elt->next;
1938 else if (b_elt && (!a_elt || b_elt->indx <= a_elt->indx))
1939 b_elt = b_elt->next;
1943 if (new_element)
1945 dst_prev = *dst_prev_pnext;
1946 dst_prev_pnext = &dst_prev->next;
1947 dst_elt = *dst_prev_pnext;
1951 if (dst_elt)
1953 changed = true;
1954 bitmap_elt_clear_from (dst, dst_elt);
1956 gcc_checking_assert (!dst->current == !dst->first);
1957 if (dst->current)
1958 dst->indx = dst->current->indx;
1960 return changed;
1963 /* A |= (FROM1 & ~FROM2). Return true if A changes. */
1965 bool
1966 bitmap_ior_and_compl_into (bitmap a, const_bitmap from1, const_bitmap from2)
1968 bitmap_head tmp;
1969 bool changed;
1971 bitmap_initialize (&tmp, &bitmap_default_obstack);
1972 bitmap_and_compl (&tmp, from1, from2);
1973 changed = bitmap_ior_into (a, &tmp);
1974 bitmap_clear (&tmp);
1976 return changed;
1979 /* A |= (B & C). Return true if A changes. */
1981 bool
1982 bitmap_ior_and_into (bitmap a, const_bitmap b, const_bitmap c)
1984 bitmap_element *a_elt = a->first;
1985 const bitmap_element *b_elt = b->first;
1986 const bitmap_element *c_elt = c->first;
1987 bitmap_element and_elt;
1988 bitmap_element *a_prev = NULL;
1989 bitmap_element **a_prev_pnext = &a->first;
1990 bool changed = false;
1991 unsigned ix;
1993 if (b == c)
1994 return bitmap_ior_into (a, b);
1995 if (bitmap_empty_p (b) || bitmap_empty_p (c))
1996 return false;
1998 and_elt.indx = -1;
1999 while (b_elt && c_elt)
2001 BITMAP_WORD overall;
2003 /* Find a common item of B and C. */
2004 while (b_elt->indx != c_elt->indx)
2006 if (b_elt->indx < c_elt->indx)
2008 b_elt = b_elt->next;
2009 if (!b_elt)
2010 goto done;
2012 else
2014 c_elt = c_elt->next;
2015 if (!c_elt)
2016 goto done;
2020 overall = 0;
2021 and_elt.indx = b_elt->indx;
2022 for (ix = 0; ix < BITMAP_ELEMENT_WORDS; ix++)
2024 and_elt.bits[ix] = b_elt->bits[ix] & c_elt->bits[ix];
2025 overall |= and_elt.bits[ix];
2028 b_elt = b_elt->next;
2029 c_elt = c_elt->next;
2030 if (!overall)
2031 continue;
2033 /* Now find a place to insert AND_ELT. */
2036 ix = a_elt ? a_elt->indx : and_elt.indx;
2037 if (ix == and_elt.indx)
2038 changed = bitmap_elt_ior (a, a_elt, a_prev, a_elt, &and_elt, changed);
2039 else if (ix > and_elt.indx)
2040 changed = bitmap_elt_copy (a, NULL, a_prev, &and_elt, changed);
2042 a_prev = *a_prev_pnext;
2043 a_prev_pnext = &a_prev->next;
2044 a_elt = *a_prev_pnext;
2046 /* If A lagged behind B/C, we advanced it so loop once more. */
2048 while (ix < and_elt.indx);
2051 done:
2052 gcc_checking_assert (!a->current == !a->first);
2053 if (a->current)
2054 a->indx = a->current->indx;
2055 return changed;
2058 /* Compute hash of bitmap (for purposes of hashing). */
2059 hashval_t
2060 bitmap_hash (const_bitmap head)
2062 const bitmap_element *ptr;
2063 BITMAP_WORD hash = 0;
2064 int ix;
2066 for (ptr = head->first; ptr; ptr = ptr->next)
2068 hash ^= ptr->indx;
2069 for (ix = 0; ix != BITMAP_ELEMENT_WORDS; ix++)
2070 hash ^= ptr->bits[ix];
2072 return (hashval_t)hash;
2076 /* Debugging function to print out the contents of a bitmap. */
2078 DEBUG_FUNCTION void
2079 debug_bitmap_file (FILE *file, const_bitmap head)
2081 const bitmap_element *ptr;
2083 fprintf (file, "\nfirst = " HOST_PTR_PRINTF
2084 " current = " HOST_PTR_PRINTF " indx = %u\n",
2085 (void *) head->first, (void *) head->current, head->indx);
2087 for (ptr = head->first; ptr; ptr = ptr->next)
2089 unsigned int i, j, col = 26;
2091 fprintf (file, "\t" HOST_PTR_PRINTF " next = " HOST_PTR_PRINTF
2092 " prev = " HOST_PTR_PRINTF " indx = %u\n\t\tbits = {",
2093 (const void*) ptr, (const void*) ptr->next,
2094 (const void*) ptr->prev, ptr->indx);
2096 for (i = 0; i < BITMAP_ELEMENT_WORDS; i++)
2097 for (j = 0; j < BITMAP_WORD_BITS; j++)
2098 if ((ptr->bits[i] >> j) & 1)
2100 if (col > 70)
2102 fprintf (file, "\n\t\t\t");
2103 col = 24;
2106 fprintf (file, " %u", (ptr->indx * BITMAP_ELEMENT_ALL_BITS
2107 + i * BITMAP_WORD_BITS + j));
2108 col += 4;
2111 fprintf (file, " }\n");
2115 /* Function to be called from the debugger to print the contents
2116 of a bitmap. */
2118 DEBUG_FUNCTION void
2119 debug_bitmap (const_bitmap head)
2121 debug_bitmap_file (stderr, head);
2124 /* Function to print out the contents of a bitmap. Unlike debug_bitmap_file,
2125 it does not print anything but the bits. */
2127 DEBUG_FUNCTION void
2128 bitmap_print (FILE *file, const_bitmap head, const char *prefix,
2129 const char *suffix)
2131 const char *comma = "";
2132 unsigned i;
2133 bitmap_iterator bi;
2135 fputs (prefix, file);
2136 EXECUTE_IF_SET_IN_BITMAP (head, 0, i, bi)
2138 fprintf (file, "%s%d", comma, i);
2139 comma = ", ";
2141 fputs (suffix, file);
2145 /* Used to accumulate statistics about bitmap sizes. */
2146 struct bitmap_output_info
2148 uint64_t size;
2149 uint64_t count;
2152 /* Called via hash_table::traverse. Output bitmap descriptor pointed out by
2153 SLOT and update statistics. */
2155 print_statistics (bitmap_descriptor_d **slot, bitmap_output_info *i)
2157 bitmap_descriptor d = *slot;
2158 char s[4096];
2160 if (d->allocated)
2162 const char *s1 = d->file;
2163 const char *s2;
2164 while ((s2 = strstr (s1, "gcc/")))
2165 s1 = s2 + 4;
2166 sprintf (s, "%s:%i (%s)", s1, d->line, d->function);
2167 s[41] = 0;
2168 fprintf (stderr,
2169 "%-41s %9u %15"PRId64" %15"PRId64" %15"PRId64
2170 " %10"PRId64" %10"PRId64"\n",
2171 s, d->created,
2172 d->allocated, d->peak, d->current,
2173 d->nsearches, d->search_iter);
2174 i->size += d->allocated;
2175 i->count += d->created;
2177 return 1;
2180 /* Output per-bitmap memory usage statistics. */
2181 void
2182 dump_bitmap_statistics (void)
2184 struct bitmap_output_info info;
2186 if (! GATHER_STATISTICS)
2187 return;
2189 if (!bitmap_desc_hash)
2190 return;
2192 fprintf (stderr,
2193 "\n%-41s %9s %15s %15s %15s %10s %10s\n",
2194 "Bitmap", "Overall",
2195 "Allocated", "Peak", "Leak",
2196 "searched", "search_itr");
2197 fprintf (stderr, "---------------------------------------------------------------------------------\n");
2198 info.count = 0;
2199 info.size = 0;
2200 bitmap_desc_hash->traverse <bitmap_output_info *, print_statistics> (&info);
2201 fprintf (stderr, "---------------------------------------------------------------------------------\n");
2202 fprintf (stderr,
2203 "%-41s %9"PRId64" %15"PRId64"\n",
2204 "Total", info.count, info.size);
2205 fprintf (stderr, "---------------------------------------------------------------------------------\n");
2208 DEBUG_FUNCTION void
2209 debug (const bitmap_head &ref)
2211 dump_bitmap (stderr, &ref);
2214 DEBUG_FUNCTION void
2215 debug (const bitmap_head *ptr)
2217 if (ptr)
2218 debug (*ptr);
2219 else
2220 fprintf (stderr, "<nil>\n");
2224 #include "gt-bitmap.h"