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[emacs.git] / src / region-cache.c
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1 /* Caching facts about regions of the buffer, for optimization.
2 Copyright (C) 1985, 1986, 1987, 1988, 1989, 1993, 1995
3 Free Software Foundation, Inc.
5 This file is part of GNU Emacs.
7 GNU Emacs is free software; you can redistribute it and/or modify
8 it under the terms of the GNU General Public License as published by
9 the Free Software Foundation; either version 2, or (at your option)
10 any later version.
12 GNU Emacs is distributed in the hope that it will be useful,
13 but WITHOUT ANY WARRANTY; without even the implied warranty of
14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 GNU General Public License for more details.
17 You should have received a copy of the GNU General Public License
18 along with GNU Emacs; see the file COPYING. If not, write to
19 the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
20 Boston, MA 02111-1307, USA. */
23 #include <config.h>
24 #include <stdio.h>
26 #include "lisp.h"
27 #include "buffer.h"
28 #include "region-cache.h"
31 /* Data structures. */
33 /* The region cache.
35 We want something that maps character positions in a buffer onto
36 values. The representation should deal well with long runs of
37 characters with the same value.
39 The tricky part: the representation should be very cheap to
40 maintain in the presence of many insertions and deletions. If the
41 overhead of maintaining the cache is too high, the speedups it
42 offers will be worthless.
45 We represent the region cache as a sorted array of struct
46 boundary's, each of which contains a buffer position and a value;
47 the value applies to all the characters after the buffer position,
48 until the position of the next boundary, or the end of the buffer.
50 The cache always has a boundary whose position is BUF_BEG, so
51 there's always a value associated with every character in the
52 buffer. Since the cache is sorted, this is always the first
53 element of the cache.
55 To facilitate the insertion and deletion of boundaries in the
56 cache, the cache has a gap, just like Emacs's text buffers do.
58 To help boundary positions float along with insertions and
59 deletions, all boundary positions before the cache gap are stored
60 relative to BUF_BEG (buf) (thus they're >= 0), and all boundary
61 positions after the gap are stored relative to BUF_Z (buf) (thus
62 they're <= 0). Look at BOUNDARY_POS to see this in action. See
63 revalidate_region_cache to see how this helps. */
65 struct boundary {
66 int pos;
67 int value;
70 struct region_cache {
71 /* A sorted array of locations where the known-ness of the buffer
72 changes. */
73 struct boundary *boundaries;
75 /* boundaries[gap_start ... gap_start + gap_len - 1] is the gap. */
76 int gap_start, gap_len;
78 /* The number of elements allocated to boundaries, not including the
79 gap. */
80 int cache_len;
82 /* The areas that haven't changed since the last time we cleaned out
83 invalid entries from the cache. These overlap when the buffer is
84 entirely unchanged. */
85 int beg_unchanged, end_unchanged;
87 /* The first and last positions in the buffer. Because boundaries
88 store their positions relative to the start (BEG) and end (Z) of
89 the buffer, knowing these positions allows us to accurately
90 interpret positions without having to pass the buffer structure
91 or its endpoints around all the time.
93 Yes, buffer_beg is always 1. It's there for symmetry with
94 buffer_end and the BEG and BUF_BEG macros. */
95 int buffer_beg, buffer_end;
98 /* Return the position of boundary i in cache c. */
99 #define BOUNDARY_POS(c, i) \
100 ((i) < (c)->gap_start \
101 ? (c)->buffer_beg + (c)->boundaries[(i)].pos \
102 : (c)->buffer_end + (c)->boundaries[(c)->gap_len + (i)].pos)
104 /* Return the value for text after boundary i in cache c. */
105 #define BOUNDARY_VALUE(c, i) \
106 ((i) < (c)->gap_start \
107 ? (c)->boundaries[(i)].value \
108 : (c)->boundaries[(c)->gap_len + (i)].value)
110 /* Set the value for text after boundary i in cache c to v. */
111 #define SET_BOUNDARY_VALUE(c, i, v) \
112 ((i) < (c)->gap_start \
113 ? ((c)->boundaries[(i)].value = (v))\
114 : ((c)->boundaries[(c)->gap_len + (i)].value = (v)))
117 /* How many elements to add to the gap when we resize the buffer. */
118 #define NEW_CACHE_GAP (40)
120 /* See invalidate_region_cache; if an invalidation would throw away
121 information about this many characters, call
122 revalidate_region_cache before doing the new invalidation, to
123 preserve that information, instead of throwing it away. */
124 #define PRESERVE_THRESHOLD (500)
126 static void revalidate_region_cache ();
129 /* Interface: Allocating, initializing, and disposing of region caches. */
131 struct region_cache *
132 new_region_cache ()
134 struct region_cache *c
135 = (struct region_cache *) xmalloc (sizeof (struct region_cache));
137 c->gap_start = 0;
138 c->gap_len = NEW_CACHE_GAP;
139 c->cache_len = 0;
140 c->boundaries =
141 (struct boundary *) xmalloc ((c->gap_len + c->cache_len)
142 * sizeof (*c->boundaries));
144 c->beg_unchanged = 0;
145 c->end_unchanged = 0;
146 c->buffer_beg = BEG;
147 c->buffer_end = BEG;
149 /* Insert the boundary for the buffer start. */
150 c->cache_len++;
151 c->gap_len--;
152 c->gap_start++;
153 c->boundaries[0].pos = 0; /* from buffer_beg */
154 c->boundaries[0].value = 0;
156 return c;
159 void
160 free_region_cache (c)
161 struct region_cache *c;
163 xfree (c->boundaries);
164 xfree (c);
168 /* Finding positions in the cache. */
170 /* Return the index of the last boundary in cache C at or before POS.
171 In other words, return the boundary that specifies the value for
172 the region POS..(POS + 1).
174 This operation should be logarithmic in the number of cache
175 entries. It would be nice if it took advantage of locality of
176 reference, too, by searching entries near the last entry found. */
177 static int
178 find_cache_boundary (c, pos)
179 struct region_cache *c;
180 int pos;
182 int low = 0, high = c->cache_len;
184 while (low + 1 < high)
186 /* mid is always a valid index, because low < high and ">> 1"
187 rounds down. */
188 int mid = (low + high) >> 1;
189 int boundary = BOUNDARY_POS (c, mid);
191 if (pos < boundary)
192 high = mid;
193 else
194 low = mid;
197 /* Some testing. */
198 if (BOUNDARY_POS (c, low) > pos
199 || (low + 1 < c->cache_len
200 && BOUNDARY_POS (c, low + 1) <= pos))
201 abort ();
203 return low;
208 /* Moving the cache gap around, inserting, and deleting. */
211 /* Move the gap of cache C to index POS, and make sure it has space
212 for at least MIN_SIZE boundaries. */
213 static void
214 move_cache_gap (c, pos, min_size)
215 struct region_cache *c;
216 int pos;
217 int min_size;
219 /* Copy these out of the cache and into registers. */
220 int gap_start = c->gap_start;
221 int gap_len = c->gap_len;
222 int buffer_beg = c->buffer_beg;
223 int buffer_end = c->buffer_end;
225 if (pos < 0
226 || pos > c->cache_len)
227 abort ();
229 /* We mustn't ever try to put the gap before the dummy start
230 boundary. That must always be start-relative. */
231 if (pos == 0)
232 abort ();
234 /* Need we move the gap right? */
235 while (gap_start < pos)
237 /* Copy one boundary from after to before the gap, and
238 convert its position to start-relative. */
239 c->boundaries[gap_start].pos
240 = (buffer_end
241 + c->boundaries[gap_start + gap_len].pos
242 - buffer_beg);
243 c->boundaries[gap_start].value
244 = c->boundaries[gap_start + gap_len].value;
245 gap_start++;
248 /* To enlarge the gap, we need to re-allocate the boundary array, and
249 then shift the area after the gap to the new end. Since the cost
250 is proportional to the amount of stuff after the gap, we do the
251 enlargement here, after a right shift but before a left shift,
252 when the portion after the gap is smallest. */
253 if (gap_len < min_size)
255 int i;
257 /* Always make at least NEW_CACHE_GAP elements, as long as we're
258 expanding anyway. */
259 if (min_size < NEW_CACHE_GAP)
260 min_size = NEW_CACHE_GAP;
262 c->boundaries =
263 (struct boundary *) xrealloc (c->boundaries,
264 ((min_size + c->cache_len)
265 * sizeof (*c->boundaries)));
267 /* Some systems don't provide a version of the copy routine that
268 can be trusted to shift memory upward into an overlapping
269 region. memmove isn't widely available. */
270 min_size -= gap_len;
271 for (i = c->cache_len - 1; i >= gap_start; i--)
273 c->boundaries[i + min_size].pos = c->boundaries[i + gap_len].pos;
274 c->boundaries[i + min_size].value = c->boundaries[i + gap_len].value;
277 gap_len = min_size;
280 /* Need we move the gap left? */
281 while (pos < gap_start)
283 gap_start--;
285 /* Copy one region from before to after the gap, and
286 convert its position to end-relative. */
287 c->boundaries[gap_start + gap_len].pos
288 = c->boundaries[gap_start].pos + buffer_beg - buffer_end;
289 c->boundaries[gap_start + gap_len].value
290 = c->boundaries[gap_start].value;
293 /* Assign these back into the cache. */
294 c->gap_start = gap_start;
295 c->gap_len = gap_len;
299 /* Insert a new boundary in cache C; it will have cache index INDEX,
300 and have the specified POS and VALUE. */
301 static void
302 insert_cache_boundary (c, index, pos, value)
303 struct region_cache *c;
304 int index;
305 int pos, value;
307 /* index must be a valid cache index. */
308 if (index < 0 || index > c->cache_len)
309 abort ();
311 /* We must never want to insert something before the dummy first
312 boundary. */
313 if (index == 0)
314 abort ();
316 /* We must only be inserting things in order. */
317 if (! (BOUNDARY_POS (c, index-1) < pos
318 && (index == c->cache_len
319 || pos < BOUNDARY_POS (c, index))))
320 abort ();
322 /* The value must be different from the ones around it. However, we
323 temporarily create boundaries that establish the same value as
324 the subsequent boundary, so we're not going to flag that case. */
325 if (BOUNDARY_VALUE (c, index-1) == value)
326 abort ();
328 move_cache_gap (c, index, 1);
330 c->boundaries[index].pos = pos - c->buffer_beg;
331 c->boundaries[index].value = value;
332 c->gap_start++;
333 c->gap_len--;
334 c->cache_len++;
338 /* Delete the i'th entry from cache C if START <= i < END. */
340 static void
341 delete_cache_boundaries (c, start, end)
342 struct region_cache *c;
343 int start, end;
345 int len = end - start;
347 /* Gotta be in range. */
348 if (start < 0
349 || end > c->cache_len)
350 abort ();
352 /* Gotta be in order. */
353 if (start > end)
354 abort ();
356 /* Can't delete the dummy entry. */
357 if (start == 0
358 && end >= 1)
359 abort ();
361 /* Minimize gap motion. If we're deleting nothing, do nothing. */
362 if (len == 0)
364 /* If the gap is before the region to delete, delete from the start
365 forward. */
366 else if (c->gap_start <= start)
368 move_cache_gap (c, start, 0);
369 c->gap_len += len;
371 /* If the gap is after the region to delete, delete from the end
372 backward. */
373 else if (end <= c->gap_start)
375 move_cache_gap (c, end, 0);
376 c->gap_start -= len;
377 c->gap_len += len;
379 /* If the gap is in the region to delete, just expand it. */
380 else
382 c->gap_start = start;
383 c->gap_len += len;
386 c->cache_len -= len;
391 /* Set the value for a region. */
393 /* Set the value in cache C for the region START..END to VALUE. */
394 static void
395 set_cache_region (c, start, end, value)
396 struct region_cache *c;
397 int start, end;
398 int value;
400 if (start > end)
401 abort ();
402 if (start < c->buffer_beg
403 || end > c->buffer_end)
404 abort ();
406 /* Eliminate this case; then we can assume that start and end-1 are
407 both the locations of real characters in the buffer. */
408 if (start == end)
409 return;
412 /* We need to make sure that there are no boundaries in the area
413 between start to end; the whole area will have the same value,
414 so those boundaries will not be necessary.
416 Let start_ix be the cache index of the boundary governing the
417 first character of start..end, and let end_ix be the cache
418 index of the earliest boundary after the last character in
419 start..end. (This tortured terminology is intended to answer
420 all the "< or <=?" sort of questions.) */
421 int start_ix = find_cache_boundary (c, start);
422 int end_ix = find_cache_boundary (c, end - 1) + 1;
424 /* We must remember the value established by the last boundary
425 before end; if that boundary's domain stretches beyond end,
426 we'll need to create a new boundary at end, and that boundary
427 must have that remembered value. */
428 int value_at_end = BOUNDARY_VALUE (c, end_ix - 1);
430 /* Delete all boundaries strictly within start..end; this means
431 those whose indices are between start_ix (exclusive) and end_ix
432 (exclusive). */
433 delete_cache_boundaries (c, start_ix + 1, end_ix);
435 /* Make sure we have the right value established going in to
436 start..end from the left, and no unnecessary boundaries. */
437 if (BOUNDARY_POS (c, start_ix) == start)
439 /* Is this boundary necessary? If no, remove it; if yes, set
440 its value. */
441 if (start_ix > 0
442 && BOUNDARY_VALUE (c, start_ix - 1) == value)
444 delete_cache_boundaries (c, start_ix, start_ix + 1);
445 start_ix--;
447 else
448 SET_BOUNDARY_VALUE (c, start_ix, value);
450 else
452 /* Do we need to add a new boundary here? */
453 if (BOUNDARY_VALUE (c, start_ix) != value)
455 insert_cache_boundary (c, start_ix + 1, start, value);
456 start_ix++;
460 /* This is equivalent to letting end_ix float (like a buffer
461 marker does) with the insertions and deletions we may have
462 done. */
463 end_ix = start_ix + 1;
465 /* Make sure we have the correct value established as we leave
466 start..end to the right. */
467 if (end == c->buffer_end)
468 /* There is no text after start..end; nothing to do. */
470 else if (end_ix >= c->cache_len
471 || end < BOUNDARY_POS (c, end_ix))
473 /* There is no boundary at end, but we may need one. */
474 if (value_at_end != value)
475 insert_cache_boundary (c, end_ix, end, value_at_end);
477 else
479 /* There is a boundary at end; should it be there? */
480 if (value == BOUNDARY_VALUE (c, end_ix))
481 delete_cache_boundaries (c, end_ix, end_ix + 1);
488 /* Interface: Invalidating the cache. Private: Re-validating the cache. */
490 /* Indicate that a section of BUF has changed, to invalidate CACHE.
491 HEAD is the number of chars unchanged at the beginning of the buffer.
492 TAIL is the number of chars unchanged at the end of the buffer.
493 NOTE: this is *not* the same as the ending position of modified
494 region.
495 (This way of specifying regions makes more sense than absolute
496 buffer positions in the presence of insertions and deletions; the
497 args to pass are the same before and after such an operation.) */
498 void
499 invalidate_region_cache (buf, c, head, tail)
500 struct buffer *buf;
501 struct region_cache *c;
502 int head, tail;
504 /* Let chead = c->beg_unchanged, and
505 ctail = c->end_unchanged.
506 If z-tail < beg+chead by a large amount, or
507 z-ctail < beg+head by a large amount,
509 then cutting back chead and ctail to head and tail would lose a
510 lot of information that we could preserve by revalidating the
511 cache before processing this invalidation. Losing that
512 information may be more costly than revalidating the cache now.
513 So go ahead and call revalidate_region_cache if it seems that it
514 might be worthwhile. */
515 if (((BUF_BEG (buf) + c->beg_unchanged) - (BUF_Z (buf) - tail)
516 > PRESERVE_THRESHOLD)
517 || ((BUF_BEG (buf) + head) - (BUF_Z (buf) - c->end_unchanged)
518 > PRESERVE_THRESHOLD))
519 revalidate_region_cache (buf, c);
522 if (head < c->beg_unchanged)
523 c->beg_unchanged = head;
524 if (tail < c->end_unchanged)
525 c->end_unchanged = tail;
527 /* We now know nothing about the region between the unchanged head
528 and the unchanged tail (call it the "modified region"), not even
529 its length.
531 If the modified region has shrunk in size (deletions do this),
532 then the cache may now contain boundaries originally located in
533 text that doesn't exist any more.
535 If the modified region has increased in size (insertions do
536 this), then there may now be boundaries in the modified region
537 whose positions are wrong.
539 Even calling BOUNDARY_POS on boundaries still in the unchanged
540 head or tail may well give incorrect answers now, since
541 c->buffer_beg and c->buffer_end may well be wrong now. (Well,
542 okay, c->buffer_beg never changes, so boundaries in the unchanged
543 head will still be okay. But it's the principle of the thing.)
545 So things are generally a mess.
547 But we don't clean up this mess here; that would be expensive,
548 and this function gets called every time any buffer modification
549 occurs. Rather, we can clean up everything in one swell foop,
550 accounting for all the modifications at once, by calling
551 revalidate_region_cache before we try to consult the cache the
552 next time. */
556 /* Clean out any cache entries applying to the modified region, and
557 make the positions of the remaining entries accurate again.
559 After calling this function, the mess described in the comment in
560 invalidate_region_cache is cleaned up.
562 This function operates by simply throwing away everything it knows
563 about the modified region. It doesn't care exactly which
564 insertions and deletions took place; it just tosses it all.
566 For example, if you insert a single character at the beginning of
567 the buffer, and a single character at the end of the buffer (for
568 example), without calling this function in between the two
569 insertions, then the entire cache will be freed of useful
570 information. On the other hand, if you do manage to call this
571 function in between the two insertions, then the modified regions
572 will be small in both cases, no information will be tossed, and the
573 cache will know that it doesn't have knowledge of the first and
574 last characters any more.
576 Calling this function may be expensive; it does binary searches in
577 the cache, and causes cache gap motion. */
579 static void
580 revalidate_region_cache (buf, c)
581 struct buffer *buf;
582 struct region_cache *c;
584 /* The boundaries now in the cache are expressed relative to the
585 buffer_beg and buffer_end values stored in the cache. Now,
586 buffer_beg and buffer_end may not be the same as BUF_BEG (buf)
587 and BUF_Z (buf), so we have two different "bases" to deal with
588 --- the cache's, and the buffer's. */
590 /* If the entire buffer is still valid, don't waste time. Yes, this
591 should be a >, not a >=; think about what beg_unchanged and
592 end_unchanged get set to when the only change has been an
593 insertion. */
594 if (c->buffer_beg + c->beg_unchanged
595 > c->buffer_end - c->end_unchanged)
596 return;
598 /* If all the text we knew about as of the last cache revalidation
599 is still there, then all of the information in the cache is still
600 valid. Because c->buffer_beg and c->buffer_end are out-of-date,
601 the modified region appears from the cache's point of view to be
602 a null region located someplace in the buffer.
604 Now, invalidating that empty string will have no actual affect on
605 the cache; instead, we need to update the cache's basis first
606 (which will give the modified region the same size in the cache
607 as it has in the buffer), and then invalidate the modified
608 region. */
609 if (c->buffer_beg + c->beg_unchanged
610 == c->buffer_end - c->end_unchanged)
612 /* Move the gap so that all the boundaries in the unchanged head
613 are expressed beg-relative, and all the boundaries in the
614 unchanged tail are expressed end-relative. That done, we can
615 plug in the new buffer beg and end, and all the positions
616 will be accurate.
618 The boundary which has jurisdiction over the modified region
619 should be left before the gap. */
620 move_cache_gap (c,
621 (find_cache_boundary (c, (c->buffer_beg
622 + c->beg_unchanged))
623 + 1),
626 c->buffer_beg = BUF_BEG (buf);
627 c->buffer_end = BUF_Z (buf);
629 /* Now that the cache's basis has been changed, the modified
630 region actually takes up some space in the cache, so we can
631 invalidate it. */
632 set_cache_region (c,
633 c->buffer_beg + c->beg_unchanged,
634 c->buffer_end - c->end_unchanged,
638 /* Otherwise, there is a non-empty region in the cache which
639 corresponds to the modified region of the buffer. */
640 else
642 int modified_ix;
644 /* These positions are correct, relative to both the cache basis
645 and the buffer basis. */
646 set_cache_region (c,
647 c->buffer_beg + c->beg_unchanged,
648 c->buffer_end - c->end_unchanged,
651 /* Now the cache contains only boundaries that are in the
652 unchanged head and tail; we've disposed of any boundaries
653 whose positions we can't be sure of given the information
654 we've saved.
656 If we put the cache gap between the unchanged head and the
657 unchanged tail, we can adjust all the boundary positions at
658 once, simply by setting buffer_beg and buffer_end.
660 The boundary which has jurisdiction over the modified region
661 should be left before the gap. */
662 modified_ix =
663 find_cache_boundary (c, (c->buffer_beg + c->beg_unchanged)) + 1;
664 move_cache_gap (c, modified_ix, 0);
666 c->buffer_beg = BUF_BEG (buf);
667 c->buffer_end = BUF_Z (buf);
669 /* Now, we may have shrunk the buffer when we changed the basis,
670 and brought the boundaries we created for the start and end
671 of the modified region together, giving them the same
672 position. If that's the case, we should collapse them into
673 one boundary. Or we may even delete them both, if the values
674 before and after them are the same. */
675 if (modified_ix < c->cache_len
676 && (BOUNDARY_POS (c, modified_ix - 1)
677 == BOUNDARY_POS (c, modified_ix)))
679 int value_after = BOUNDARY_VALUE (c, modified_ix);
681 /* Should we remove both of the boundaries? Yes, if the
682 latter boundary is now establishing the same value that
683 the former boundary's predecessor does. */
684 if (modified_ix - 1 > 0
685 && value_after == BOUNDARY_VALUE (c, modified_ix - 2))
686 delete_cache_boundaries (c, modified_ix - 1, modified_ix + 1);
687 else
689 /* We do need a boundary here; collapse the two
690 boundaries into one. */
691 SET_BOUNDARY_VALUE (c, modified_ix - 1, value_after);
692 delete_cache_boundaries (c, modified_ix, modified_ix + 1);
697 /* Now the entire cache is valid. */
698 c->beg_unchanged
699 = c->end_unchanged
700 = c->buffer_end - c->buffer_beg;
704 /* Interface: Adding information to the cache. */
706 /* Assert that the region of BUF between START and END (absolute
707 buffer positions) is "known," for the purposes of CACHE (e.g. "has
708 no newlines", in the case of the line cache). */
709 void
710 know_region_cache (buf, c, start, end)
711 struct buffer *buf;
712 struct region_cache *c;
713 int start, end;
715 revalidate_region_cache (buf, c);
717 set_cache_region (c, start, end, 1);
721 /* Interface: using the cache. */
723 /* Return true if the text immediately after POS in BUF is known, for
724 the purposes of CACHE. If NEXT is non-zero, set *NEXT to the nearest
725 position after POS where the knownness changes. */
727 region_cache_forward (buf, c, pos, next)
728 struct buffer *buf;
729 struct region_cache *c;
730 int pos;
731 int *next;
733 revalidate_region_cache (buf, c);
736 int i = find_cache_boundary (c, pos);
737 int i_value = BOUNDARY_VALUE (c, i);
738 int j;
740 /* Beyond the end of the buffer is unknown, by definition. */
741 if (pos >= BUF_Z (buf))
743 if (next) *next = BUF_Z (buf);
744 i_value = 0;
746 else if (next)
748 /* Scan forward from i to find the next differing position. */
749 for (j = i + 1; j < c->cache_len; j++)
750 if (BOUNDARY_VALUE (c, j) != i_value)
751 break;
753 if (j < c->cache_len)
754 *next = BOUNDARY_POS (c, j);
755 else
756 *next = BUF_Z (buf);
759 return i_value;
763 /* Return true if the text immediately before POS in BUF is known, for
764 the purposes of CACHE. If NEXT is non-zero, set *NEXT to the nearest
765 position before POS where the knownness changes. */
766 int region_cache_backward (buf, c, pos, next)
767 struct buffer *buf;
768 struct region_cache *c;
769 int pos;
770 int *next;
772 revalidate_region_cache (buf, c);
774 /* Before the beginning of the buffer is unknown, by
775 definition. */
776 if (pos <= BUF_BEG (buf))
778 if (next) *next = BUF_BEG (buf);
779 return 0;
783 int i = find_cache_boundary (c, pos - 1);
784 int i_value = BOUNDARY_VALUE (c, i);
785 int j;
787 if (next)
789 /* Scan backward from i to find the next differing position. */
790 for (j = i - 1; j >= 0; j--)
791 if (BOUNDARY_VALUE (c, j) != i_value)
792 break;
794 if (j >= 0)
795 *next = BOUNDARY_POS (c, j + 1);
796 else
797 *next = BUF_BEG (buf);
800 return i_value;
805 /* Debugging: pretty-print a cache to the standard error output. */
807 void
808 pp_cache (c)
809 struct region_cache *c;
811 int i;
812 int beg_u = c->buffer_beg + c->beg_unchanged;
813 int end_u = c->buffer_end - c->end_unchanged;
815 fprintf (stderr,
816 "basis: %d..%d modified: %d..%d\n",
817 c->buffer_beg, c->buffer_end,
818 beg_u, end_u);
820 for (i = 0; i < c->cache_len; i++)
822 int pos = BOUNDARY_POS (c, i);
824 putc (((pos < beg_u) ? 'v'
825 : (pos == beg_u) ? '-'
826 : ' '),
827 stderr);
828 putc (((pos > end_u) ? '^'
829 : (pos == end_u) ? '-'
830 : ' '),
831 stderr);
832 fprintf (stderr, "%d : %d\n", pos, BOUNDARY_VALUE (c, i));
836 /* arch-tag: 98c29f3f-2ca2-4e3a-92f0-f2249200a17d
837 (do not change this comment) */