2014-02-20 Richard Biener <rguenther@suse.de>
[official-gcc.git] / gcc / input.c
blob63cd062ec5b276afc25e4239721285f56e29f11a
1 /* Data and functions related to line maps and input files.
2 Copyright (C) 2004-2014 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 "intl.h"
24 #include "input.h"
25 #include "vec.h"
27 /* This is a cache used by get_next_line to store the content of a
28 file to be searched for file lines. */
29 struct fcache
31 /* These are information used to store a line boundary. */
32 struct line_info
34 /* The line number. It starts from 1. */
35 size_t line_num;
37 /* The position (byte count) of the beginning of the line,
38 relative to the file data pointer. This starts at zero. */
39 size_t start_pos;
41 /* The position (byte count) of the last byte of the line. This
42 normally points to the '\n' character, or to one byte after the
43 last byte of the file, if the file doesn't contain a '\n'
44 character. */
45 size_t end_pos;
47 line_info (size_t l, size_t s, size_t e)
48 : line_num (l), start_pos (s), end_pos (e)
51 line_info ()
52 :line_num (0), start_pos (0), end_pos (0)
56 /* The number of time this file has been accessed. This is used
57 to designate which file cache to evict from the cache
58 array. */
59 unsigned use_count;
61 const char *file_path;
63 FILE *fp;
65 /* This points to the content of the file that we've read so
66 far. */
67 char *data;
69 /* The size of the DATA array above.*/
70 size_t size;
72 /* The number of bytes read from the underlying file so far. This
73 must be less (or equal) than SIZE above. */
74 size_t nb_read;
76 /* The index of the beginning of the current line. */
77 size_t line_start_idx;
79 /* The number of the previous line read. This starts at 1. Zero
80 means we've read no line so far. */
81 size_t line_num;
83 /* This is the total number of lines of the current file. At the
84 moment, we try to get this information from the line map
85 subsystem. Note that this is just a hint. When using the C++
86 front-end, this hint is correct because the input file is then
87 completely tokenized before parsing starts; so the line map knows
88 the number of lines before compilation really starts. For e.g,
89 the C front-end, it can happen that we start emitting diagnostics
90 before the line map has seen the end of the file. */
91 size_t total_lines;
93 /* This is a record of the beginning and end of the lines we've seen
94 while reading the file. This is useful to avoid walking the data
95 from the beginning when we are asked to read a line that is
96 before LINE_START_IDX above. Note that the maximum size of this
97 record is fcache_line_record_size, so that the memory consumption
98 doesn't explode. We thus scale total_lines down to
99 fcache_line_record_size. */
100 vec<line_info, va_heap> line_record;
102 fcache ();
103 ~fcache ();
106 /* Current position in real source file. */
108 location_t input_location;
110 struct line_maps *line_table;
112 static fcache *fcache_tab;
113 static const size_t fcache_tab_size = 16;
114 static const size_t fcache_buffer_size = 4 * 1024;
115 static const size_t fcache_line_record_size = 100;
117 /* Expand the source location LOC into a human readable location. If
118 LOC resolves to a builtin location, the file name of the readable
119 location is set to the string "<built-in>". If EXPANSION_POINT_P is
120 TRUE and LOC is virtual, then it is resolved to the expansion
121 point of the involved macro. Otherwise, it is resolved to the
122 spelling location of the token.
124 When resolving to the spelling location of the token, if the
125 resulting location is for a built-in location (that is, it has no
126 associated line/column) in the context of a macro expansion, the
127 returned location is the first one (while unwinding the macro
128 location towards its expansion point) that is in real source
129 code. */
131 static expanded_location
132 expand_location_1 (source_location loc,
133 bool expansion_point_p)
135 expanded_location xloc;
136 const struct line_map *map;
137 enum location_resolution_kind lrk = LRK_MACRO_EXPANSION_POINT;
138 tree block = NULL;
140 if (IS_ADHOC_LOC (loc))
142 block = LOCATION_BLOCK (loc);
143 loc = LOCATION_LOCUS (loc);
146 memset (&xloc, 0, sizeof (xloc));
148 if (loc >= RESERVED_LOCATION_COUNT)
150 if (!expansion_point_p)
152 /* We want to resolve LOC to its spelling location.
154 But if that spelling location is a reserved location that
155 appears in the context of a macro expansion (like for a
156 location for a built-in token), let's consider the first
157 location (toward the expansion point) that is not reserved;
158 that is, the first location that is in real source code. */
159 loc = linemap_unwind_to_first_non_reserved_loc (line_table,
160 loc, &map);
161 lrk = LRK_SPELLING_LOCATION;
163 loc = linemap_resolve_location (line_table, loc,
164 lrk, &map);
165 xloc = linemap_expand_location (line_table, map, loc);
168 xloc.data = block;
169 if (loc <= BUILTINS_LOCATION)
170 xloc.file = loc == UNKNOWN_LOCATION ? NULL : _("<built-in>");
172 return xloc;
175 /* Initialize the set of cache used for files accessed by caret
176 diagnostic. */
178 static void
179 diagnostic_file_cache_init (void)
181 if (fcache_tab == NULL)
182 fcache_tab = new fcache[fcache_tab_size];
185 /* Free the ressources used by the set of cache used for files accessed
186 by caret diagnostic. */
188 void
189 diagnostic_file_cache_fini (void)
191 if (fcache_tab)
193 delete [] (fcache_tab);
194 fcache_tab = NULL;
198 /* Return the total lines number that have been read so far by the
199 line map (in the preprocessor) so far. For languages like C++ that
200 entirely preprocess the input file before starting to parse, this
201 equals the actual number of lines of the file. */
203 static size_t
204 total_lines_num (const char *file_path)
206 size_t r = 0;
207 source_location l = 0;
208 if (linemap_get_file_highest_location (line_table, file_path, &l))
210 gcc_assert (l >= RESERVED_LOCATION_COUNT);
211 expanded_location xloc = expand_location (l);
212 r = xloc.line;
214 return r;
217 /* Lookup the cache used for the content of a given file accessed by
218 caret diagnostic. Return the found cached file, or NULL if no
219 cached file was found. */
221 static fcache*
222 lookup_file_in_cache_tab (const char *file_path)
224 if (file_path == NULL)
225 return NULL;
227 diagnostic_file_cache_init ();
229 /* This will contain the found cached file. */
230 fcache *r = NULL;
231 for (unsigned i = 0; i < fcache_tab_size; ++i)
233 fcache *c = &fcache_tab[i];
234 if (c->file_path && !strcmp (c->file_path, file_path))
236 ++c->use_count;
237 r = c;
241 if (r)
242 ++r->use_count;
244 return r;
247 /* Return the file cache that has been less used, recently, or the
248 first empty one. If HIGHEST_USE_COUNT is non-null,
249 *HIGHEST_USE_COUNT is set to the highest use count of the entries
250 in the cache table. */
252 static fcache*
253 evicted_cache_tab_entry (unsigned *highest_use_count)
255 diagnostic_file_cache_init ();
257 fcache *to_evict = &fcache_tab[0];
258 unsigned huc = to_evict->use_count;
259 for (unsigned i = 1; i < fcache_tab_size; ++i)
261 fcache *c = &fcache_tab[i];
262 bool c_is_empty = (c->file_path == NULL);
264 if (c->use_count < to_evict->use_count
265 || (to_evict->file_path && c_is_empty))
266 /* We evict C because it's either an entry with a lower use
267 count or one that is empty. */
268 to_evict = c;
270 if (huc < c->use_count)
271 huc = c->use_count;
273 if (c_is_empty)
274 /* We've reached the end of the cache; subsequent elements are
275 all empty. */
276 break;
279 if (highest_use_count)
280 *highest_use_count = huc;
282 return to_evict;
285 /* Create the cache used for the content of a given file to be
286 accessed by caret diagnostic. This cache is added to an array of
287 cache and can be retrieved by lookup_file_in_cache_tab. This
288 function returns the created cache. Note that only the last
289 fcache_tab_size files are cached. */
291 static fcache*
292 add_file_to_cache_tab (const char *file_path)
295 FILE *fp = fopen (file_path, "r");
296 if (fp == NULL)
297 return NULL;
299 unsigned highest_use_count = 0;
300 fcache *r = evicted_cache_tab_entry (&highest_use_count);
301 r->file_path = file_path;
302 if (r->fp)
303 fclose (r->fp);
304 r->fp = fp;
305 r->nb_read = 0;
306 r->line_start_idx = 0;
307 r->line_num = 0;
308 r->line_record.truncate (0);
309 /* Ensure that this cache entry doesn't get evicted next time
310 add_file_to_cache_tab is called. */
311 r->use_count = ++highest_use_count;
312 r->total_lines = total_lines_num (file_path);
314 return r;
317 /* Lookup the cache used for the content of a given file accessed by
318 caret diagnostic. If no cached file was found, create a new cache
319 for this file, add it to the array of cached file and return
320 it. */
322 static fcache*
323 lookup_or_add_file_to_cache_tab (const char *file_path)
325 fcache *r = lookup_file_in_cache_tab (file_path);
326 if (r == NULL)
327 r = add_file_to_cache_tab (file_path);
328 return r;
331 /* Default constructor for a cache of file used by caret
332 diagnostic. */
334 fcache::fcache ()
335 : use_count (0), file_path (NULL), fp (NULL), data (0),
336 size (0), nb_read (0), line_start_idx (0), line_num (0),
337 total_lines (0)
339 line_record.create (0);
342 /* Destructor for a cache of file used by caret diagnostic. */
344 fcache::~fcache ()
346 if (fp)
348 fclose (fp);
349 fp = NULL;
351 if (data)
353 XDELETEVEC (data);
354 data = 0;
356 line_record.release ();
359 /* Returns TRUE iff the cache would need to be filled with data coming
360 from the file. That is, either the cache is empty or full or the
361 current line is empty. Note that if the cache is full, it would
362 need to be extended and filled again. */
364 static bool
365 needs_read (fcache *c)
367 return (c->nb_read == 0
368 || c->nb_read == c->size
369 || (c->line_start_idx >= c->nb_read - 1));
372 /* Return TRUE iff the cache is full and thus needs to be
373 extended. */
375 static bool
376 needs_grow (fcache *c)
378 return c->nb_read == c->size;
381 /* Grow the cache if it needs to be extended. */
383 static void
384 maybe_grow (fcache *c)
386 if (!needs_grow (c))
387 return;
389 size_t size = c->size == 0 ? fcache_buffer_size : c->size * 2;
390 c->data = XRESIZEVEC (char, c->data, size + 1);
391 c->size = size;
394 /* Read more data into the cache. Extends the cache if need be.
395 Returns TRUE iff new data could be read. */
397 static bool
398 read_data (fcache *c)
400 if (feof (c->fp) || ferror (c->fp))
401 return false;
403 maybe_grow (c);
405 char * from = c->data + c->nb_read;
406 size_t to_read = c->size - c->nb_read;
407 size_t nb_read = fread (from, 1, to_read, c->fp);
409 if (ferror (c->fp))
410 return false;
412 c->nb_read += nb_read;
413 return !!nb_read;
416 /* Read new data iff the cache needs to be filled with more data
417 coming from the file FP. Return TRUE iff the cache was filled with
418 mode data. */
420 static bool
421 maybe_read_data (fcache *c)
423 if (!needs_read (c))
424 return false;
425 return read_data (c);
428 /* Read a new line from file FP, using C as a cache for the data
429 coming from the file. Upon successful completion, *LINE is set to
430 the beginning of the line found. Space for that line has been
431 allocated in the cache thus *LINE has the same life time as C.
432 *LINE_LEN is set to the length of the line. Note that the line
433 does not contain any terminal delimiter. This function returns
434 true if some data was read or process from the cache, false
435 otherwise. Note that subsequent calls to get_next_line return the
436 next lines of the file and might overwrite the content of
437 *LINE. */
439 static bool
440 get_next_line (fcache *c, char **line, ssize_t *line_len)
442 /* Fill the cache with data to process. */
443 maybe_read_data (c);
445 size_t remaining_size = c->nb_read - c->line_start_idx;
446 if (remaining_size == 0)
447 /* There is no more data to process. */
448 return false;
450 char *line_start = c->data + c->line_start_idx;
452 char *next_line_start = NULL;
453 size_t len = 0;
454 char *line_end = (char *) memchr (line_start, '\n', remaining_size);
455 if (line_end == NULL)
457 /* We haven't found the end-of-line delimiter in the cache.
458 Fill the cache with more data from the file and look for the
459 '\n'. */
460 while (maybe_read_data (c))
462 line_start = c->data + c->line_start_idx;
463 remaining_size = c->nb_read - c->line_start_idx;
464 line_end = (char *) memchr (line_start, '\n', remaining_size);
465 if (line_end != NULL)
467 next_line_start = line_end + 1;
468 break;
471 if (line_end == NULL)
472 /* We've loadded all the file into the cache and still no
473 '\n'. Let's say the line ends up at one byte passed the
474 end of the file. This is to stay consistent with the case
475 of when the line ends up with a '\n' and line_end points to
476 that terminal '\n'. That consistency is useful below in
477 the len calculation. */
478 line_end = c->data + c->nb_read ;
480 else
481 next_line_start = line_end + 1;
483 if (ferror (c->fp))
484 return -1;
486 /* At this point, we've found the end of the of line. It either
487 points to the '\n' or to one byte after the last byte of the
488 file. */
489 gcc_assert (line_end != NULL);
491 len = line_end - line_start;
493 if (c->line_start_idx < c->nb_read)
494 *line = line_start;
496 ++c->line_num;
498 /* Before we update our line record, make sure the hint about the
499 total number of lines of the file is correct. If it's not, then
500 we give up recording line boundaries from now on. */
501 bool update_line_record = true;
502 if (c->line_num > c->total_lines)
503 update_line_record = false;
505 /* Now update our line record so that re-reading lines from the
506 before c->line_start_idx is faster. */
507 if (update_line_record
508 && c->line_record.length () < fcache_line_record_size)
510 /* If the file lines fits in the line record, we just record all
511 its lines ...*/
512 if (c->total_lines <= fcache_line_record_size
513 && c->line_num > c->line_record.length ())
514 c->line_record.safe_push (fcache::line_info (c->line_num,
515 c->line_start_idx,
516 line_end - c->data));
517 else if (c->total_lines > fcache_line_record_size)
519 /* ... otherwise, we just scale total_lines down to
520 (fcache_line_record_size lines. */
521 size_t n = (c->line_num * fcache_line_record_size) / c->total_lines;
522 if (c->line_record.length () == 0
523 || n >= c->line_record.length ())
524 c->line_record.safe_push (fcache::line_info (c->line_num,
525 c->line_start_idx,
526 line_end - c->data));
530 /* Update c->line_start_idx so that it points to the next line to be
531 read. */
532 if (next_line_start)
533 c->line_start_idx = next_line_start - c->data;
534 else
535 /* We didn't find any terminal '\n'. Let's consider that the end
536 of line is the end of the data in the cache. The next
537 invocation of get_next_line will either read more data from the
538 underlying file or return false early because we've reached the
539 end of the file. */
540 c->line_start_idx = c->nb_read;
542 *line_len = len;
544 return true;
547 /* Reads the next line from FILE into *LINE. If *LINE is too small
548 (or NULL) it is allocated (or extended) to have enough space to
549 containe the line. *LINE_LENGTH must contain the size of the
550 initial*LINE buffer. It's then updated by this function to the
551 actual length of the returned line. Note that the returned line
552 can contain several zero bytes. Also note that the returned string
553 is allocated in static storage that is going to be re-used by
554 subsequent invocations of read_line. */
556 static bool
557 read_next_line (fcache *cache, char ** line, ssize_t *line_len)
559 char *l = NULL;
560 ssize_t len = 0;
562 if (!get_next_line (cache, &l, &len))
563 return false;
565 if (*line == NULL)
566 *line = XNEWVEC (char, len);
567 else
568 if (*line_len < len)
569 *line = XRESIZEVEC (char, *line, len);
571 memcpy (*line, l, len);
572 *line_len = len;
574 return true;
577 /* Consume the next bytes coming from the cache (or from its
578 underlying file if there are remaining unread bytes in the file)
579 until we reach the next end-of-line (or end-of-file). There is no
580 copying from the cache involved. Return TRUE upon successful
581 completion. */
583 static bool
584 goto_next_line (fcache *cache)
586 char *l;
587 ssize_t len;
589 return get_next_line (cache, &l, &len);
592 /* Read an arbitrary line number LINE_NUM from the file cached in C.
593 The line is copied into *LINE. *LINE_LEN must have been set to the
594 length of *LINE. If *LINE is too small (or NULL) it's extended (or
595 allocated) and *LINE_LEN is adjusted accordingly. *LINE ends up
596 with a terminal zero byte and can contain additional zero bytes.
597 This function returns bool if a line was read. */
599 static bool
600 read_line_num (fcache *c, size_t line_num,
601 char ** line, ssize_t *line_len)
603 gcc_assert (line_num > 0);
605 if (line_num <= c->line_num)
607 /* We've been asked to read lines that are before c->line_num.
608 So lets use our line record (if it's not empty) to try to
609 avoid re-reading the file from the beginning again. */
611 if (c->line_record.is_empty ())
613 c->line_start_idx = 0;
614 c->line_num = 0;
616 else
618 fcache::line_info *i = NULL;
619 if (c->total_lines <= fcache_line_record_size)
621 /* In languages where the input file is not totally
622 preprocessed up front, the c->total_lines hint
623 can be smaller than the number of lines of the
624 file. In that case, only the first
625 c->total_lines have been recorded.
627 Otherwise, the first c->total_lines we've read have
628 their start/end recorded here. */
629 i = (line_num <= c->total_lines)
630 ? &c->line_record[line_num - 1]
631 : &c->line_record[c->total_lines - 1];
632 gcc_assert (i->line_num <= line_num);
634 else
636 /* So the file had more lines than our line record
637 size. Thus the number of lines we've recorded has
638 been scaled down to fcache_line_reacord_size. Let's
639 pick the start/end of the recorded line that is
640 closest to line_num. */
641 size_t n = (line_num <= c->total_lines)
642 ? line_num * fcache_line_record_size / c->total_lines
643 : c ->line_record.length () - 1;
644 if (n < c->line_record.length ())
646 i = &c->line_record[n];
647 gcc_assert (i->line_num <= line_num);
651 if (i && i->line_num == line_num)
653 /* We have the start/end of the line. Let's just copy
654 it again and we are done. */
655 ssize_t len = i->end_pos - i->start_pos + 1;
656 if (*line_len < len)
657 *line = XRESIZEVEC (char, *line, len);
658 memmove (*line, c->data + i->start_pos, len);
659 (*line)[len - 1] = '\0';
660 *line_len = --len;
661 return true;
664 if (i)
666 c->line_start_idx = i->start_pos;
667 c->line_num = i->line_num - 1;
669 else
671 c->line_start_idx = 0;
672 c->line_num = 0;
677 /* Let's walk from line c->line_num up to line_num - 1, without
678 copying any line. */
679 while (c->line_num < line_num - 1)
680 if (!goto_next_line (c))
681 return false;
683 /* The line we want is the next one. Let's read and copy it back to
684 the caller. */
685 return read_next_line (c, line, line_len);
688 /* Return the physical source line that corresponds to xloc in a
689 buffer that is statically allocated. The newline is replaced by
690 the null character. Note that the line can contain several null
691 characters, so LINE_LEN, if non-null, points to the actual length
692 of the line. */
694 const char *
695 location_get_source_line (expanded_location xloc,
696 int *line_len)
698 static char *buffer;
699 static ssize_t len;
701 if (xloc.line == 0)
702 return NULL;
704 fcache *c = lookup_or_add_file_to_cache_tab (xloc.file);
705 if (c == NULL)
706 return NULL;
708 bool read = read_line_num (c, xloc.line, &buffer, &len);
710 if (read && line_len)
711 *line_len = len;
713 return read ? buffer : NULL;
716 /* Expand the source location LOC into a human readable location. If
717 LOC is virtual, it resolves to the expansion point of the involved
718 macro. If LOC resolves to a builtin location, the file name of the
719 readable location is set to the string "<built-in>". */
721 expanded_location
722 expand_location (source_location loc)
724 return expand_location_1 (loc, /*expansion_point_p=*/true);
727 /* Expand the source location LOC into a human readable location. If
728 LOC is virtual, it resolves to the expansion location of the
729 relevant macro. If LOC resolves to a builtin location, the file
730 name of the readable location is set to the string
731 "<built-in>". */
733 expanded_location
734 expand_location_to_spelling_point (source_location loc)
736 return expand_location_1 (loc, /*expansion_piont_p=*/false);
739 /* If LOCATION is in a system header and if it's a virtual location for
740 a token coming from the expansion of a macro M, unwind it to the
741 location of the expansion point of M. Otherwise, just return
742 LOCATION.
744 This is used for instance when we want to emit diagnostics about a
745 token that is located in a macro that is itself defined in a system
746 header -- e.g for the NULL macro. In that case, if LOCATION is
747 passed to diagnostics emitting functions like warning_at as is, no
748 diagnostic won't be emitted. */
750 source_location
751 expansion_point_location_if_in_system_header (source_location location)
753 if (in_system_header_at (location))
754 location = linemap_resolve_location (line_table, location,
755 LRK_MACRO_EXPANSION_POINT,
756 NULL);
757 return location;
760 #define ONE_K 1024
761 #define ONE_M (ONE_K * ONE_K)
763 /* Display a number as an integer multiple of either:
764 - 1024, if said integer is >= to 10 K (in base 2)
765 - 1024 * 1024, if said integer is >= 10 M in (base 2)
767 #define SCALE(x) ((unsigned long) ((x) < 10 * ONE_K \
768 ? (x) \
769 : ((x) < 10 * ONE_M \
770 ? (x) / ONE_K \
771 : (x) / ONE_M)))
773 /* For a given integer, display either:
774 - the character 'k', if the number is higher than 10 K (in base 2)
775 but strictly lower than 10 M (in base 2)
776 - the character 'M' if the number is higher than 10 M (in base2)
777 - the charcter ' ' if the number is strictly lower than 10 K */
778 #define STAT_LABEL(x) ((x) < 10 * ONE_K ? ' ' : ((x) < 10 * ONE_M ? 'k' : 'M'))
780 /* Display an integer amount as multiple of 1K or 1M (in base 2).
781 Display the correct unit (either k, M, or ' ') after the amout, as
782 well. */
783 #define FORMAT_AMOUNT(size) SCALE (size), STAT_LABEL (size)
785 /* Dump statistics to stderr about the memory usage of the line_table
786 set of line maps. This also displays some statistics about macro
787 expansion. */
789 void
790 dump_line_table_statistics (void)
792 struct linemap_stats s;
793 long total_used_map_size,
794 macro_maps_size,
795 total_allocated_map_size;
797 memset (&s, 0, sizeof (s));
799 linemap_get_statistics (line_table, &s);
801 macro_maps_size = s.macro_maps_used_size
802 + s.macro_maps_locations_size;
804 total_allocated_map_size = s.ordinary_maps_allocated_size
805 + s.macro_maps_allocated_size
806 + s.macro_maps_locations_size;
808 total_used_map_size = s.ordinary_maps_used_size
809 + s.macro_maps_used_size
810 + s.macro_maps_locations_size;
812 fprintf (stderr, "Number of expanded macros: %5ld\n",
813 s.num_expanded_macros);
814 if (s.num_expanded_macros != 0)
815 fprintf (stderr, "Average number of tokens per macro expansion: %5ld\n",
816 s.num_macro_tokens / s.num_expanded_macros);
817 fprintf (stderr,
818 "\nLine Table allocations during the "
819 "compilation process\n");
820 fprintf (stderr, "Number of ordinary maps used: %5ld%c\n",
821 SCALE (s.num_ordinary_maps_used),
822 STAT_LABEL (s.num_ordinary_maps_used));
823 fprintf (stderr, "Ordinary map used size: %5ld%c\n",
824 SCALE (s.ordinary_maps_used_size),
825 STAT_LABEL (s.ordinary_maps_used_size));
826 fprintf (stderr, "Number of ordinary maps allocated: %5ld%c\n",
827 SCALE (s.num_ordinary_maps_allocated),
828 STAT_LABEL (s.num_ordinary_maps_allocated));
829 fprintf (stderr, "Ordinary maps allocated size: %5ld%c\n",
830 SCALE (s.ordinary_maps_allocated_size),
831 STAT_LABEL (s.ordinary_maps_allocated_size));
832 fprintf (stderr, "Number of macro maps used: %5ld%c\n",
833 SCALE (s.num_macro_maps_used),
834 STAT_LABEL (s.num_macro_maps_used));
835 fprintf (stderr, "Macro maps used size: %5ld%c\n",
836 SCALE (s.macro_maps_used_size),
837 STAT_LABEL (s.macro_maps_used_size));
838 fprintf (stderr, "Macro maps locations size: %5ld%c\n",
839 SCALE (s.macro_maps_locations_size),
840 STAT_LABEL (s.macro_maps_locations_size));
841 fprintf (stderr, "Macro maps size: %5ld%c\n",
842 SCALE (macro_maps_size),
843 STAT_LABEL (macro_maps_size));
844 fprintf (stderr, "Duplicated maps locations size: %5ld%c\n",
845 SCALE (s.duplicated_macro_maps_locations_size),
846 STAT_LABEL (s.duplicated_macro_maps_locations_size));
847 fprintf (stderr, "Total allocated maps size: %5ld%c\n",
848 SCALE (total_allocated_map_size),
849 STAT_LABEL (total_allocated_map_size));
850 fprintf (stderr, "Total used maps size: %5ld%c\n",
851 SCALE (total_used_map_size),
852 STAT_LABEL (total_used_map_size));
853 fprintf (stderr, "\n");