Mercurial > hg > xemacs-beta
annotate src/alloc.c @ 5046:d4f666cda5e6
some random fixups
-------------------- ChangeLog entries follow: --------------------
man/ChangeLog addition:
2010-02-20 Ben Wing <ben@xemacs.org>
* internals/internals.texi (Intro to Window and Frame Geometry):
Shrink diagram to fit when offset by five spaces as a result of
quoting.
src/ChangeLog addition:
2010-02-20 Ben Wing <ben@xemacs.org>
* syswindows.h:
Add table about GNU Emacs -> XEmacs Windows constants from
the internals manual.
* frame.c:
Shrink size of diagram consistent with internals manual.
* alloc.c:
* compiler.h:
* console.c:
* events.c:
* gc.c (gc_stat_start_new_gc):
* gc.c (gc_stat_resume_gc):
* gc.c (kkcc_marking):
* gc.c (gc_1):
* gc.c (gc):
* objects-tty.c:
* redisplay-msw.c:
* redisplay-msw.c (mswindows_clear_region):
* syntax.c:
* syntax.c (ST_COMMENT_STYLE):
* sysdep.c:
Fix various compiler warnings.
| author | Ben Wing <ben@xemacs.org> |
|---|---|
| date | Sat, 20 Feb 2010 03:24:08 -0600 |
| parents | 2ade80e8c640 |
| children | eb17f0c176ac |
| rev | line source |
|---|---|
| 428 | 1 /* Storage allocation and gc for XEmacs Lisp interpreter. |
| 2 Copyright (C) 1985-1998 Free Software Foundation, Inc. | |
| 3 Copyright (C) 1995 Sun Microsystems, Inc. | |
|
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4 Copyright (C) 1995, 1996, 2001, 2002, 2003, 2004, 2005, 2010 Ben Wing. |
| 428 | 5 |
| 6 This file is part of XEmacs. | |
| 7 | |
| 8 XEmacs is free software; you can redistribute it and/or modify it | |
| 9 under the terms of the GNU General Public License as published by the | |
| 10 Free Software Foundation; either version 2, or (at your option) any | |
| 11 later version. | |
| 12 | |
| 13 XEmacs is distributed in the hope that it will be useful, but WITHOUT | |
| 14 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or | |
| 15 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License | |
| 16 for more details. | |
| 17 | |
| 18 You should have received a copy of the GNU General Public License | |
| 19 along with XEmacs; see the file COPYING. If not, write to | |
| 20 the Free Software Foundation, Inc., 59 Temple Place - Suite 330, | |
| 21 Boston, MA 02111-1307, USA. */ | |
| 22 | |
| 23 /* Synched up with: FSF 19.28, Mule 2.0. Substantially different from | |
| 24 FSF. */ | |
| 25 | |
| 26 /* Authorship: | |
| 27 | |
| 28 FSF: Original version; a long time ago. | |
| 29 Mly: Significantly rewritten to use new 3-bit tags and | |
| 30 nicely abstracted object definitions, for 19.8. | |
| 31 JWZ: Improved code to keep track of purespace usage and | |
| 32 issue nice purespace and GC stats. | |
| 33 Ben Wing: Cleaned up frob-block lrecord code, added error-checking | |
| 34 and various changes for Mule, for 19.12. | |
| 35 Added bit vectors for 19.13. | |
| 36 Added lcrecord lists for 19.14. | |
| 37 slb: Lots of work on the purification and dump time code. | |
| 38 Synched Doug Lea malloc support from Emacs 20.2. | |
| 442 | 39 og: Killed the purespace. Portable dumper (moved to dumper.c) |
| 428 | 40 */ |
| 41 | |
| 42 #include <config.h> | |
| 43 #include "lisp.h" | |
| 44 | |
| 45 #include "backtrace.h" | |
| 46 #include "buffer.h" | |
| 47 #include "bytecode.h" | |
| 48 #include "chartab.h" | |
| 49 #include "device.h" | |
| 50 #include "elhash.h" | |
| 51 #include "events.h" | |
| 872 | 52 #include "extents-impl.h" |
| 1204 | 53 #include "file-coding.h" |
| 872 | 54 #include "frame-impl.h" |
| 3092 | 55 #include "gc.h" |
| 428 | 56 #include "glyphs.h" |
| 57 #include "opaque.h" | |
| 1204 | 58 #include "lstream.h" |
| 872 | 59 #include "process.h" |
| 1292 | 60 #include "profile.h" |
| 428 | 61 #include "redisplay.h" |
| 62 #include "specifier.h" | |
| 63 #include "sysfile.h" | |
| 442 | 64 #include "sysdep.h" |
| 428 | 65 #include "window.h" |
| 3092 | 66 #ifdef NEW_GC |
| 67 #include "vdb.h" | |
| 68 #endif /* NEW_GC */ | |
| 428 | 69 #include "console-stream.h" |
| 70 | |
| 71 #ifdef DOUG_LEA_MALLOC | |
| 72 #include <malloc.h> | |
| 73 #endif | |
|
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74 #ifdef USE_VALGRIND |
|
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75 #include <valgrind/memcheck.h> |
|
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76 #endif |
| 428 | 77 |
| 78 EXFUN (Fgarbage_collect, 0); | |
| 79 | |
| 80 #if 0 /* this is _way_ too slow to be part of the standard debug options */ | |
| 81 #if defined(DEBUG_XEMACS) && defined(MULE) | |
| 82 #define VERIFY_STRING_CHARS_INTEGRITY | |
| 83 #endif | |
| 84 #endif | |
| 85 | |
| 86 /* Define this to use malloc/free with no freelist for all datatypes, | |
| 87 the hope being that some debugging tools may help detect | |
| 88 freed memory references */ | |
| 89 #ifdef USE_DEBUG_MALLOC /* Taking the above comment at face value -slb */ | |
| 90 #include <dmalloc.h> | |
| 91 #define ALLOC_NO_POOLS | |
| 92 #endif | |
| 93 | |
| 94 #ifdef DEBUG_XEMACS | |
| 458 | 95 static Fixnum debug_allocation; |
| 96 static Fixnum debug_allocation_backtrace_length; | |
| 428 | 97 #endif |
| 98 | |
| 851 | 99 int need_to_check_c_alloca; |
| 887 | 100 int need_to_signal_post_gc; |
| 851 | 101 int funcall_allocation_flag; |
| 102 Bytecount __temp_alloca_size__; | |
| 103 Bytecount funcall_alloca_count; | |
| 814 | 104 |
| 105 /* Determine now whether we need to garbage collect or not, to make | |
| 106 Ffuncall() faster */ | |
| 107 #define INCREMENT_CONS_COUNTER_1(size) \ | |
| 108 do \ | |
| 109 { \ | |
| 110 consing_since_gc += (size); \ | |
| 1292 | 111 total_consing += (size); \ |
| 112 if (profiling_active) \ | |
| 113 profile_record_consing (size); \ | |
| 814 | 114 recompute_need_to_garbage_collect (); \ |
| 115 } while (0) | |
| 428 | 116 |
| 117 #define debug_allocation_backtrace() \ | |
| 118 do { \ | |
| 119 if (debug_allocation_backtrace_length > 0) \ | |
| 120 debug_short_backtrace (debug_allocation_backtrace_length); \ | |
| 121 } while (0) | |
| 122 | |
| 123 #ifdef DEBUG_XEMACS | |
| 801 | 124 #define INCREMENT_CONS_COUNTER(foosize, type) \ |
| 125 do { \ | |
| 126 if (debug_allocation) \ | |
| 127 { \ | |
| 128 stderr_out ("allocating %s (size %ld)\n", type, \ | |
| 129 (long) foosize); \ | |
| 130 debug_allocation_backtrace (); \ | |
| 131 } \ | |
| 132 INCREMENT_CONS_COUNTER_1 (foosize); \ | |
| 428 | 133 } while (0) |
| 134 #define NOSEEUM_INCREMENT_CONS_COUNTER(foosize, type) \ | |
| 135 do { \ | |
| 136 if (debug_allocation > 1) \ | |
| 137 { \ | |
| 801 | 138 stderr_out ("allocating noseeum %s (size %ld)\n", type, \ |
| 139 (long) foosize); \ | |
| 428 | 140 debug_allocation_backtrace (); \ |
| 141 } \ | |
| 142 INCREMENT_CONS_COUNTER_1 (foosize); \ | |
| 143 } while (0) | |
| 144 #else | |
| 145 #define INCREMENT_CONS_COUNTER(size, type) INCREMENT_CONS_COUNTER_1 (size) | |
| 146 #define NOSEEUM_INCREMENT_CONS_COUNTER(size, type) \ | |
| 147 INCREMENT_CONS_COUNTER_1 (size) | |
| 148 #endif | |
| 149 | |
| 3092 | 150 #ifdef NEW_GC |
| 151 /* The call to recompute_need_to_garbage_collect is moved to | |
| 152 free_lrecord, since DECREMENT_CONS_COUNTER is extensively called | |
| 153 during sweep and recomputing need_to_garbage_collect all the time | |
| 154 is not needed. */ | |
| 155 #define DECREMENT_CONS_COUNTER(size) do { \ | |
| 156 consing_since_gc -= (size); \ | |
| 157 total_consing -= (size); \ | |
| 158 if (profiling_active) \ | |
| 159 profile_record_unconsing (size); \ | |
| 160 if (consing_since_gc < 0) \ | |
| 161 consing_since_gc = 0; \ | |
| 162 } while (0) | |
| 163 #else /* not NEW_GC */ | |
| 428 | 164 #define DECREMENT_CONS_COUNTER(size) do { \ |
| 165 consing_since_gc -= (size); \ | |
| 1292 | 166 total_consing -= (size); \ |
| 167 if (profiling_active) \ | |
| 168 profile_record_unconsing (size); \ | |
| 428 | 169 if (consing_since_gc < 0) \ |
| 170 consing_since_gc = 0; \ | |
| 814 | 171 recompute_need_to_garbage_collect (); \ |
| 428 | 172 } while (0) |
| 3092 | 173 #endif /*not NEW_GC */ |
| 428 | 174 |
| 175 /* This is just for use by the printer, to allow things to print uniquely */ | |
| 3063 | 176 int lrecord_uid_counter; |
| 428 | 177 |
| 178 /* Non-zero means we're in the process of doing the dump */ | |
| 179 int purify_flag; | |
| 180 | |
| 1204 | 181 /* Non-zero means we're pdumping out or in */ |
| 182 #ifdef PDUMP | |
| 183 int in_pdump; | |
| 184 #endif | |
| 185 | |
| 800 | 186 #ifdef ERROR_CHECK_TYPES |
| 428 | 187 |
| 793 | 188 Error_Behavior ERROR_ME, ERROR_ME_NOT, ERROR_ME_WARN, ERROR_ME_DEBUG_WARN; |
| 428 | 189 |
| 190 #endif | |
| 191 | |
| 801 | 192 /* Very cheesy ways of figuring out how much memory is being used for |
| 193 data. #### Need better (system-dependent) ways. */ | |
| 194 void *minimum_address_seen; | |
| 195 void *maximum_address_seen; | |
| 196 | |
| 3263 | 197 #ifndef NEW_GC |
| 428 | 198 int |
| 199 c_readonly (Lisp_Object obj) | |
| 200 { | |
| 201 return POINTER_TYPE_P (XTYPE (obj)) && C_READONLY (obj); | |
| 202 } | |
| 3263 | 203 #endif /* not NEW_GC */ |
| 428 | 204 |
| 205 int | |
| 206 lisp_readonly (Lisp_Object obj) | |
| 207 { | |
| 208 return POINTER_TYPE_P (XTYPE (obj)) && LISP_READONLY (obj); | |
| 209 } | |
| 210 | |
| 211 | |
| 212 /* Maximum amount of C stack to save when a GC happens. */ | |
| 213 | |
| 214 #ifndef MAX_SAVE_STACK | |
| 215 #define MAX_SAVE_STACK 0 /* 16000 */ | |
| 216 #endif | |
| 217 | |
| 218 /* Non-zero means ignore malloc warnings. Set during initialization. */ | |
| 219 int ignore_malloc_warnings; | |
| 220 | |
| 221 | |
| 3263 | 222 #ifndef NEW_GC |
| 3092 | 223 void *breathing_space; |
| 428 | 224 |
| 225 void | |
| 226 release_breathing_space (void) | |
| 227 { | |
| 228 if (breathing_space) | |
| 229 { | |
| 230 void *tmp = breathing_space; | |
| 231 breathing_space = 0; | |
|
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232 xfree (tmp); |
| 428 | 233 } |
| 234 } | |
| 3263 | 235 #endif /* not NEW_GC */ |
| 428 | 236 |
| 801 | 237 static void |
| 238 set_alloc_mins_and_maxes (void *val, Bytecount size) | |
| 239 { | |
| 240 if (!val) | |
| 241 return; | |
| 242 if ((char *) val + size > (char *) maximum_address_seen) | |
| 243 maximum_address_seen = (char *) val + size; | |
| 244 if (!minimum_address_seen) | |
| 245 minimum_address_seen = | |
| 246 #if SIZEOF_VOID_P == 8 | |
| 247 (void *) 0xFFFFFFFFFFFFFFFF; | |
| 248 #else | |
| 249 (void *) 0xFFFFFFFF; | |
| 250 #endif | |
| 251 if ((char *) val < (char *) minimum_address_seen) | |
| 252 minimum_address_seen = (char *) val; | |
| 253 } | |
| 254 | |
| 1315 | 255 #ifdef ERROR_CHECK_MALLOC |
| 3176 | 256 static int in_malloc; |
| 1333 | 257 extern int regex_malloc_disallowed; |
| 2367 | 258 |
| 259 #define MALLOC_BEGIN() \ | |
| 260 do \ | |
| 261 { \ | |
| 3176 | 262 assert (!in_malloc); \ |
| 2367 | 263 assert (!regex_malloc_disallowed); \ |
| 264 in_malloc = 1; \ | |
| 265 } \ | |
| 266 while (0) | |
| 267 | |
| 3263 | 268 #ifdef NEW_GC |
| 2720 | 269 #define FREE_OR_REALLOC_BEGIN(block) \ |
| 270 do \ | |
| 271 { \ | |
| 272 /* Unbelievably, calling free() on 0xDEADBEEF doesn't cause an \ | |
| 273 error until much later on for many system mallocs, such as \ | |
| 274 the one that comes with Solaris 2.3. FMH!! */ \ | |
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275 assert (block != (void *) DEADBEEF_CONSTANT); \ |
| 2720 | 276 MALLOC_BEGIN (); \ |
| 277 } \ | |
| 278 while (0) | |
| 3263 | 279 #else /* not NEW_GC */ |
| 2367 | 280 #define FREE_OR_REALLOC_BEGIN(block) \ |
| 281 do \ | |
| 282 { \ | |
| 283 /* Unbelievably, calling free() on 0xDEADBEEF doesn't cause an \ | |
| 284 error until much later on for many system mallocs, such as \ | |
| 285 the one that comes with Solaris 2.3. FMH!! */ \ | |
|
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|
286 assert (block != (void *) DEADBEEF_CONSTANT); \ |
| 2367 | 287 /* You cannot free something within dumped space, because there is \ |
| 288 no longer any sort of malloc structure associated with the block. \ | |
| 289 If you are tripping this, you may need to conditionalize on \ | |
| 290 DUMPEDP. */ \ | |
| 291 assert (!DUMPEDP (block)); \ | |
| 292 MALLOC_BEGIN (); \ | |
| 293 } \ | |
| 294 while (0) | |
| 3263 | 295 #endif /* not NEW_GC */ |
| 2367 | 296 |
| 297 #define MALLOC_END() \ | |
| 298 do \ | |
| 299 { \ | |
| 300 in_malloc = 0; \ | |
| 301 } \ | |
| 302 while (0) | |
| 303 | |
| 304 #else /* ERROR_CHECK_MALLOC */ | |
| 305 | |
| 2658 | 306 #define MALLOC_BEGIN() |
| 2367 | 307 #define FREE_OR_REALLOC_BEGIN(block) |
| 308 #define MALLOC_END() | |
| 309 | |
| 310 #endif /* ERROR_CHECK_MALLOC */ | |
| 311 | |
| 312 static void | |
| 313 malloc_after (void *val, Bytecount size) | |
| 314 { | |
| 315 if (!val && size != 0) | |
| 316 memory_full (); | |
| 317 set_alloc_mins_and_maxes (val, size); | |
| 318 } | |
| 319 | |
| 3305 | 320 /* malloc calls this if it finds we are near exhausting storage */ |
| 321 void | |
| 322 malloc_warning (const char *str) | |
| 323 { | |
| 324 if (ignore_malloc_warnings) | |
| 325 return; | |
| 326 | |
| 327 /* Remove the malloc lock here, because warn_when_safe may allocate | |
| 328 again. It is safe to remove the malloc lock here, because malloc | |
| 329 is already finished (malloc_warning is called via | |
| 330 after_morecore_hook -> check_memory_limits -> save_warn_fun -> | |
| 331 malloc_warning). */ | |
| 332 MALLOC_END (); | |
| 333 | |
| 334 warn_when_safe | |
| 335 (Qmemory, Qemergency, | |
| 336 "%s\n" | |
| 337 "Killing some buffers may delay running out of memory.\n" | |
| 338 "However, certainly by the time you receive the 95%% warning,\n" | |
| 339 "you should clean up, kill this Emacs, and start a new one.", | |
| 340 str); | |
| 341 } | |
| 342 | |
| 343 /* Called if malloc returns zero */ | |
| 344 DOESNT_RETURN | |
| 345 memory_full (void) | |
| 346 { | |
| 347 /* Force a GC next time eval is called. | |
| 348 It's better to loop garbage-collecting (we might reclaim enough | |
| 349 to win) than to loop beeping and barfing "Memory exhausted" | |
| 350 */ | |
| 351 consing_since_gc = gc_cons_threshold + 1; | |
| 352 recompute_need_to_garbage_collect (); | |
| 353 #ifdef NEW_GC | |
| 354 /* Put mc-alloc into memory shortage mode. This may keep XEmacs | |
| 355 alive until the garbage collector can free enough memory to get | |
| 356 us out of the memory exhaustion. If already in memory shortage | |
| 357 mode, we are in a loop and hopelessly lost. */ | |
| 358 if (memory_shortage) | |
| 359 { | |
| 360 fprintf (stderr, "Memory full, cannot recover.\n"); | |
| 361 ABORT (); | |
| 362 } | |
| 363 fprintf (stderr, | |
| 364 "Memory full, try to recover.\n" | |
| 365 "You should clean up, kill this Emacs, and start a new one.\n"); | |
| 366 memory_shortage++; | |
| 367 #else /* not NEW_GC */ | |
| 368 release_breathing_space (); | |
| 369 #endif /* not NEW_GC */ | |
| 370 | |
| 371 /* Flush some histories which might conceivably contain garbalogical | |
| 372 inhibitors. */ | |
| 373 if (!NILP (Fboundp (Qvalues))) | |
| 374 Fset (Qvalues, Qnil); | |
| 375 Vcommand_history = Qnil; | |
| 376 | |
| 377 out_of_memory ("Memory exhausted", Qunbound); | |
| 378 } | |
| 379 | |
| 2367 | 380 /* like malloc, calloc, realloc, free but: |
| 381 | |
| 382 -- check for no memory left | |
| 383 -- set internal mins and maxes | |
| 384 -- with error-checking on, check for reentrancy, invalid freeing, etc. | |
| 385 */ | |
| 1292 | 386 |
| 428 | 387 #undef xmalloc |
| 388 void * | |
| 665 | 389 xmalloc (Bytecount size) |
| 428 | 390 { |
| 1292 | 391 void *val; |
| 2367 | 392 MALLOC_BEGIN (); |
| 1292 | 393 val = malloc (size); |
| 2367 | 394 MALLOC_END (); |
| 395 malloc_after (val, size); | |
| 428 | 396 return val; |
| 397 } | |
| 398 | |
| 399 #undef xcalloc | |
| 400 static void * | |
| 665 | 401 xcalloc (Elemcount nelem, Bytecount elsize) |
| 428 | 402 { |
| 1292 | 403 void *val; |
| 2367 | 404 MALLOC_BEGIN (); |
| 1292 | 405 val= calloc (nelem, elsize); |
| 2367 | 406 MALLOC_END (); |
| 407 malloc_after (val, nelem * elsize); | |
| 428 | 408 return val; |
| 409 } | |
| 410 | |
| 411 void * | |
| 665 | 412 xmalloc_and_zero (Bytecount size) |
| 428 | 413 { |
| 414 return xcalloc (size, sizeof (char)); | |
| 415 } | |
| 416 | |
| 417 #undef xrealloc | |
| 418 void * | |
| 665 | 419 xrealloc (void *block, Bytecount size) |
| 428 | 420 { |
| 2367 | 421 FREE_OR_REALLOC_BEGIN (block); |
| 551 | 422 block = realloc (block, size); |
| 2367 | 423 MALLOC_END (); |
| 424 malloc_after (block, size); | |
| 551 | 425 return block; |
| 428 | 426 } |
| 427 | |
| 428 void | |
| 429 xfree_1 (void *block) | |
| 430 { | |
| 431 #ifdef ERROR_CHECK_MALLOC | |
| 432 assert (block); | |
| 433 #endif /* ERROR_CHECK_MALLOC */ | |
| 2367 | 434 FREE_OR_REALLOC_BEGIN (block); |
| 428 | 435 free (block); |
| 2367 | 436 MALLOC_END (); |
| 428 | 437 } |
| 438 | |
| 439 #ifdef ERROR_CHECK_GC | |
| 440 | |
| 3263 | 441 #ifndef NEW_GC |
| 428 | 442 static void |
| 665 | 443 deadbeef_memory (void *ptr, Bytecount size) |
| 428 | 444 { |
| 826 | 445 UINT_32_BIT *ptr4 = (UINT_32_BIT *) ptr; |
| 665 | 446 Bytecount beefs = size >> 2; |
| 428 | 447 |
| 448 /* In practice, size will always be a multiple of four. */ | |
| 449 while (beefs--) | |
| 1204 | 450 (*ptr4++) = 0xDEADBEEF; /* -559038737 base 10 */ |
| 428 | 451 } |
| 3263 | 452 #endif /* not NEW_GC */ |
| 428 | 453 |
| 454 #else /* !ERROR_CHECK_GC */ | |
| 455 | |
| 456 | |
| 457 #define deadbeef_memory(ptr, size) | |
| 458 | |
| 459 #endif /* !ERROR_CHECK_GC */ | |
| 460 | |
| 461 #undef xstrdup | |
| 462 char * | |
| 442 | 463 xstrdup (const char *str) |
| 428 | 464 { |
| 465 int len = strlen (str) + 1; /* for stupid terminating 0 */ | |
| 466 void *val = xmalloc (len); | |
| 771 | 467 |
| 428 | 468 if (val == 0) return 0; |
| 469 return (char *) memcpy (val, str, len); | |
| 470 } | |
| 471 | |
| 472 #ifdef NEED_STRDUP | |
| 473 char * | |
| 442 | 474 strdup (const char *s) |
| 428 | 475 { |
| 476 return xstrdup (s); | |
| 477 } | |
| 478 #endif /* NEED_STRDUP */ | |
| 479 | |
| 480 | |
| 3263 | 481 #ifndef NEW_GC |
| 428 | 482 static void * |
| 665 | 483 allocate_lisp_storage (Bytecount size) |
| 428 | 484 { |
| 793 | 485 void *val = xmalloc (size); |
| 486 /* We don't increment the cons counter anymore. Calling functions do | |
| 487 that now because we have two different kinds of cons counters -- one | |
| 488 for normal objects, and one for no-see-um conses (and possibly others | |
| 489 similar) where the conses are used totally internally, never escape, | |
| 490 and are created and then freed and shouldn't logically increment the | |
| 491 cons counting. #### (Or perhaps, we should decrement it when an object | |
| 492 get freed?) */ | |
| 493 | |
| 494 /* But we do now (as of 3-27-02) go and zero out the memory. This is a | |
| 495 good thing, as it will guarantee we won't get any intermittent bugs | |
| 1204 | 496 coming from an uninitiated field. The speed loss is unnoticeable, |
| 497 esp. as the objects are not large -- large stuff like buffer text and | |
| 498 redisplay structures are allocated separately. */ | |
| 793 | 499 memset (val, 0, size); |
| 851 | 500 |
| 501 if (need_to_check_c_alloca) | |
| 502 xemacs_c_alloca (0); | |
| 503 | |
| 793 | 504 return val; |
| 428 | 505 } |
| 3263 | 506 #endif /* not NEW_GC */ |
| 507 | |
| 508 #if defined (NEW_GC) && defined (ALLOC_TYPE_STATS) | |
| 2720 | 509 static struct |
| 510 { | |
| 511 int instances_in_use; | |
| 512 int bytes_in_use; | |
| 513 int bytes_in_use_including_overhead; | |
| 3461 | 514 } lrecord_stats [countof (lrecord_implementations_table)]; |
| 2720 | 515 |
| 516 void | |
| 517 init_lrecord_stats () | |
| 518 { | |
| 519 xzero (lrecord_stats); | |
| 520 } | |
| 521 | |
| 522 void | |
| 523 inc_lrecord_stats (Bytecount size, const struct lrecord_header *h) | |
| 524 { | |
| 525 int type_index = h->type; | |
| 526 if (!size) | |
| 527 size = detagged_lisp_object_size (h); | |
| 528 | |
| 529 lrecord_stats[type_index].instances_in_use++; | |
| 530 lrecord_stats[type_index].bytes_in_use += size; | |
| 531 lrecord_stats[type_index].bytes_in_use_including_overhead | |
| 532 #ifdef MEMORY_USAGE_STATS | |
| 533 += mc_alloced_storage_size (size, 0); | |
| 534 #else /* not MEMORY_USAGE_STATS */ | |
| 535 += size; | |
| 536 #endif /* not MEMORY_USAGE_STATS */ | |
| 537 } | |
| 538 | |
| 539 void | |
| 540 dec_lrecord_stats (Bytecount size_including_overhead, | |
| 541 const struct lrecord_header *h) | |
| 542 { | |
| 543 int type_index = h->type; | |
| 2775 | 544 int size = detagged_lisp_object_size (h); |
| 2720 | 545 |
| 546 lrecord_stats[type_index].instances_in_use--; | |
| 2775 | 547 lrecord_stats[type_index].bytes_in_use -= size; |
| 2720 | 548 lrecord_stats[type_index].bytes_in_use_including_overhead |
| 549 -= size_including_overhead; | |
| 550 | |
| 2775 | 551 DECREMENT_CONS_COUNTER (size); |
| 2720 | 552 } |
| 3092 | 553 |
| 554 int | |
| 555 lrecord_stats_heap_size (void) | |
| 556 { | |
| 557 int i; | |
| 558 int size = 0; | |
| 3461 | 559 for (i = 0; i < countof (lrecord_implementations_table); i++) |
| 3092 | 560 size += lrecord_stats[i].bytes_in_use; |
| 561 return size; | |
| 562 } | |
| 3263 | 563 #endif /* NEW_GC && ALLOC_TYPE_STATS */ |
| 564 | |
| 565 #ifndef NEW_GC | |
| 442 | 566 /* lcrecords are chained together through their "next" field. |
| 567 After doing the mark phase, GC will walk this linked list | |
| 568 and free any lcrecord which hasn't been marked. */ | |
| 3024 | 569 static struct old_lcrecord_header *all_lcrecords; |
| 3263 | 570 #endif /* not NEW_GC */ |
| 571 | |
| 572 #ifdef NEW_GC | |
| 2720 | 573 /* The basic lrecord allocation functions. See lrecord.h for details. */ |
| 574 void * | |
| 575 alloc_lrecord (Bytecount size, | |
| 576 const struct lrecord_implementation *implementation) | |
| 577 { | |
| 578 struct lrecord_header *lheader; | |
| 579 | |
| 580 type_checking_assert | |
| 581 ((implementation->static_size == 0 ? | |
| 582 implementation->size_in_bytes_method != NULL : | |
| 583 implementation->static_size == size)); | |
| 584 | |
| 585 lheader = (struct lrecord_header *) mc_alloc (size); | |
| 586 gc_checking_assert (LRECORD_FREE_P (lheader)); | |
| 587 set_lheader_implementation (lheader, implementation); | |
| 2994 | 588 #ifdef ALLOC_TYPE_STATS |
| 2720 | 589 inc_lrecord_stats (size, lheader); |
| 2994 | 590 #endif /* ALLOC_TYPE_STATS */ |
| 3263 | 591 if (implementation->finalizer) |
| 592 add_finalizable_obj (wrap_pointer_1 (lheader)); | |
| 2720 | 593 INCREMENT_CONS_COUNTER (size, implementation->name); |
| 594 return lheader; | |
| 595 } | |
| 596 | |
| 3092 | 597 |
| 2720 | 598 void * |
| 599 noseeum_alloc_lrecord (Bytecount size, | |
| 600 const struct lrecord_implementation *implementation) | |
| 601 { | |
| 602 struct lrecord_header *lheader; | |
| 603 | |
| 604 type_checking_assert | |
| 605 ((implementation->static_size == 0 ? | |
| 606 implementation->size_in_bytes_method != NULL : | |
| 607 implementation->static_size == size)); | |
| 608 | |
| 609 lheader = (struct lrecord_header *) mc_alloc (size); | |
| 610 gc_checking_assert (LRECORD_FREE_P (lheader)); | |
| 611 set_lheader_implementation (lheader, implementation); | |
| 2994 | 612 #ifdef ALLOC_TYPE_STATS |
| 2720 | 613 inc_lrecord_stats (size, lheader); |
| 2994 | 614 #endif /* ALLOC_TYPE_STATS */ |
| 3263 | 615 if (implementation->finalizer) |
| 616 add_finalizable_obj (wrap_pointer_1 (lheader)); | |
| 2720 | 617 NOSEEUM_INCREMENT_CONS_COUNTER (size, implementation->name); |
| 618 return lheader; | |
| 619 } | |
| 620 | |
| 3092 | 621 void * |
| 622 alloc_lrecord_array (Bytecount size, int elemcount, | |
| 623 const struct lrecord_implementation *implementation) | |
| 624 { | |
| 625 struct lrecord_header *lheader; | |
| 626 Rawbyte *start, *stop; | |
| 627 | |
| 628 type_checking_assert | |
| 629 ((implementation->static_size == 0 ? | |
| 630 implementation->size_in_bytes_method != NULL : | |
| 631 implementation->static_size == size)); | |
| 632 | |
| 633 lheader = (struct lrecord_header *) mc_alloc_array (size, elemcount); | |
| 634 gc_checking_assert (LRECORD_FREE_P (lheader)); | |
| 635 | |
| 636 for (start = (Rawbyte *) lheader, | |
| 637 stop = ((Rawbyte *) lheader) + (size * elemcount -1); | |
| 638 start < stop; start += size) | |
| 639 { | |
| 640 struct lrecord_header *lh = (struct lrecord_header *) start; | |
| 641 set_lheader_implementation (lh, implementation); | |
| 642 lh->uid = lrecord_uid_counter++; | |
| 643 #ifdef ALLOC_TYPE_STATS | |
| 644 inc_lrecord_stats (size, lh); | |
| 645 #endif /* not ALLOC_TYPE_STATS */ | |
| 3263 | 646 if (implementation->finalizer) |
| 647 add_finalizable_obj (wrap_pointer_1 (lh)); | |
| 3092 | 648 } |
| 649 INCREMENT_CONS_COUNTER (size * elemcount, implementation->name); | |
| 650 return lheader; | |
| 651 } | |
| 652 | |
| 2720 | 653 void |
| 3263 | 654 free_lrecord (Lisp_Object UNUSED (lrecord)) |
| 2720 | 655 { |
| 3263 | 656 /* Manual frees are not allowed with asynchronous finalization */ |
| 657 return; | |
| 2720 | 658 } |
| 3263 | 659 #else /* not NEW_GC */ |
| 428 | 660 |
| 1204 | 661 /* The most basic of the lcrecord allocation functions. Not usually called |
| 662 directly. Allocates an lrecord not managed by any lcrecord-list, of a | |
| 663 specified size. See lrecord.h. */ | |
| 664 | |
| 428 | 665 void * |
| 3024 | 666 old_basic_alloc_lcrecord (Bytecount size, |
| 667 const struct lrecord_implementation *implementation) | |
| 668 { | |
| 669 struct old_lcrecord_header *lcheader; | |
| 428 | 670 |
| 442 | 671 type_checking_assert |
| 672 ((implementation->static_size == 0 ? | |
| 673 implementation->size_in_bytes_method != NULL : | |
| 674 implementation->static_size == size) | |
| 675 && | |
| 676 (! implementation->basic_p) | |
| 677 && | |
| 678 (! (implementation->hash == NULL && implementation->equal != NULL))); | |
| 428 | 679 |
| 3024 | 680 lcheader = (struct old_lcrecord_header *) allocate_lisp_storage (size); |
| 442 | 681 set_lheader_implementation (&lcheader->lheader, implementation); |
| 428 | 682 lcheader->next = all_lcrecords; |
| 683 #if 1 /* mly prefers to see small ID numbers */ | |
| 684 lcheader->uid = lrecord_uid_counter++; | |
| 685 #else /* jwz prefers to see real addrs */ | |
| 686 lcheader->uid = (int) &lcheader; | |
| 687 #endif | |
| 688 lcheader->free = 0; | |
| 689 all_lcrecords = lcheader; | |
| 690 INCREMENT_CONS_COUNTER (size, implementation->name); | |
| 691 return lcheader; | |
| 692 } | |
| 693 | |
| 694 #if 0 /* Presently unused */ | |
| 695 /* Very, very poor man's EGC? | |
| 696 * This may be slow and thrash pages all over the place. | |
| 697 * Only call it if you really feel you must (and if the | |
| 698 * lrecord was fairly recently allocated). | |
| 699 * Otherwise, just let the GC do its job -- that's what it's there for | |
| 700 */ | |
| 701 void | |
| 3024 | 702 very_old_free_lcrecord (struct old_lcrecord_header *lcrecord) |
| 428 | 703 { |
| 704 if (all_lcrecords == lcrecord) | |
| 705 { | |
| 706 all_lcrecords = lcrecord->next; | |
| 707 } | |
| 708 else | |
| 709 { | |
| 3024 | 710 struct old_lcrecord_header *header = all_lcrecords; |
| 428 | 711 for (;;) |
| 712 { | |
| 3024 | 713 struct old_lcrecord_header *next = header->next; |
| 428 | 714 if (next == lcrecord) |
| 715 { | |
| 716 header->next = lrecord->next; | |
| 717 break; | |
| 718 } | |
| 719 else if (next == 0) | |
| 2500 | 720 ABORT (); |
| 428 | 721 else |
| 722 header = next; | |
| 723 } | |
| 724 } | |
| 725 if (lrecord->implementation->finalizer) | |
| 726 lrecord->implementation->finalizer (lrecord, 0); | |
| 727 xfree (lrecord); | |
| 728 return; | |
| 729 } | |
| 730 #endif /* Unused */ | |
| 3263 | 731 #endif /* not NEW_GC */ |
| 428 | 732 |
| 733 | |
| 734 static void | |
| 735 disksave_object_finalization_1 (void) | |
| 736 { | |
| 3263 | 737 #ifdef NEW_GC |
| 2720 | 738 mc_finalize_for_disksave (); |
| 3263 | 739 #else /* not NEW_GC */ |
| 3024 | 740 struct old_lcrecord_header *header; |
| 428 | 741 |
| 742 for (header = all_lcrecords; header; header = header->next) | |
| 743 { | |
| 442 | 744 if (LHEADER_IMPLEMENTATION (&header->lheader)->finalizer && |
| 428 | 745 !header->free) |
| 442 | 746 LHEADER_IMPLEMENTATION (&header->lheader)->finalizer (header, 1); |
| 428 | 747 } |
| 3263 | 748 #endif /* not NEW_GC */ |
| 428 | 749 } |
| 750 | |
| 1204 | 751 /* Bitwise copy all parts of a Lisp object other than the header */ |
| 752 | |
| 753 void | |
| 754 copy_lisp_object (Lisp_Object dst, Lisp_Object src) | |
| 755 { | |
| 756 const struct lrecord_implementation *imp = | |
| 757 XRECORD_LHEADER_IMPLEMENTATION (src); | |
| 758 Bytecount size = lisp_object_size (src); | |
| 759 | |
| 760 assert (imp == XRECORD_LHEADER_IMPLEMENTATION (dst)); | |
| 761 assert (size == lisp_object_size (dst)); | |
| 762 | |
| 3263 | 763 #ifdef NEW_GC |
| 2720 | 764 memcpy ((char *) XRECORD_LHEADER (dst) + sizeof (struct lrecord_header), |
| 765 (char *) XRECORD_LHEADER (src) + sizeof (struct lrecord_header), | |
| 766 size - sizeof (struct lrecord_header)); | |
| 3263 | 767 #else /* not NEW_GC */ |
| 1204 | 768 if (imp->basic_p) |
| 769 memcpy ((char *) XRECORD_LHEADER (dst) + sizeof (struct lrecord_header), | |
| 770 (char *) XRECORD_LHEADER (src) + sizeof (struct lrecord_header), | |
| 771 size - sizeof (struct lrecord_header)); | |
| 772 else | |
| 3024 | 773 memcpy ((char *) XRECORD_LHEADER (dst) + |
| 774 sizeof (struct old_lcrecord_header), | |
| 775 (char *) XRECORD_LHEADER (src) + | |
| 776 sizeof (struct old_lcrecord_header), | |
| 777 size - sizeof (struct old_lcrecord_header)); | |
| 3263 | 778 #endif /* not NEW_GC */ |
| 1204 | 779 } |
| 780 | |
| 428 | 781 |
| 782 /************************************************************************/ | |
| 783 /* Debugger support */ | |
| 784 /************************************************************************/ | |
| 785 /* Give gdb/dbx enough information to decode Lisp Objects. We make | |
| 786 sure certain symbols are always defined, so gdb doesn't complain | |
| 438 | 787 about expressions in src/.gdbinit. See src/.gdbinit or src/.dbxrc |
| 788 to see how this is used. */ | |
| 428 | 789 |
| 458 | 790 EMACS_UINT dbg_valmask = ((1UL << VALBITS) - 1) << GCBITS; |
| 791 EMACS_UINT dbg_typemask = (1UL << GCTYPEBITS) - 1; | |
| 428 | 792 |
| 793 #ifdef USE_UNION_TYPE | |
| 458 | 794 unsigned char dbg_USE_UNION_TYPE = 1; |
| 428 | 795 #else |
| 458 | 796 unsigned char dbg_USE_UNION_TYPE = 0; |
| 428 | 797 #endif |
| 798 | |
| 458 | 799 unsigned char dbg_valbits = VALBITS; |
| 800 unsigned char dbg_gctypebits = GCTYPEBITS; | |
| 801 | |
| 802 /* On some systems, the above definitions will be optimized away by | |
| 803 the compiler or linker unless they are referenced in some function. */ | |
| 804 long dbg_inhibit_dbg_symbol_deletion (void); | |
| 805 long | |
| 806 dbg_inhibit_dbg_symbol_deletion (void) | |
| 807 { | |
| 808 return | |
| 809 (dbg_valmask + | |
| 810 dbg_typemask + | |
| 811 dbg_USE_UNION_TYPE + | |
| 812 dbg_valbits + | |
| 813 dbg_gctypebits); | |
| 814 } | |
| 428 | 815 |
| 816 /* Macros turned into functions for ease of debugging. | |
| 817 Debuggers don't know about macros! */ | |
| 818 int dbg_eq (Lisp_Object obj1, Lisp_Object obj2); | |
| 819 int | |
| 820 dbg_eq (Lisp_Object obj1, Lisp_Object obj2) | |
| 821 { | |
| 822 return EQ (obj1, obj2); | |
| 823 } | |
| 824 | |
| 825 | |
| 3263 | 826 #ifdef NEW_GC |
| 3017 | 827 #define DECLARE_FIXED_TYPE_ALLOC(type, structture) struct __foo__ |
| 828 #else | |
| 428 | 829 /************************************************************************/ |
| 830 /* Fixed-size type macros */ | |
| 831 /************************************************************************/ | |
| 832 | |
| 833 /* For fixed-size types that are commonly used, we malloc() large blocks | |
| 834 of memory at a time and subdivide them into chunks of the correct | |
| 835 size for an object of that type. This is more efficient than | |
| 836 malloc()ing each object separately because we save on malloc() time | |
| 837 and overhead due to the fewer number of malloc()ed blocks, and | |
| 838 also because we don't need any extra pointers within each object | |
| 839 to keep them threaded together for GC purposes. For less common | |
| 840 (and frequently large-size) types, we use lcrecords, which are | |
| 841 malloc()ed individually and chained together through a pointer | |
| 842 in the lcrecord header. lcrecords do not need to be fixed-size | |
| 843 (i.e. two objects of the same type need not have the same size; | |
| 844 however, the size of a particular object cannot vary dynamically). | |
| 845 It is also much easier to create a new lcrecord type because no | |
| 846 additional code needs to be added to alloc.c. Finally, lcrecords | |
| 847 may be more efficient when there are only a small number of them. | |
| 848 | |
| 849 The types that are stored in these large blocks (or "frob blocks") | |
| 1983 | 850 are cons, all number types except fixnum, compiled-function, symbol, |
| 851 marker, extent, event, and string. | |
| 428 | 852 |
| 853 Note that strings are special in that they are actually stored in | |
| 854 two parts: a structure containing information about the string, and | |
| 855 the actual data associated with the string. The former structure | |
| 856 (a struct Lisp_String) is a fixed-size structure and is managed the | |
| 857 same way as all the other such types. This structure contains a | |
| 858 pointer to the actual string data, which is stored in structures of | |
| 859 type struct string_chars_block. Each string_chars_block consists | |
| 860 of a pointer to a struct Lisp_String, followed by the data for that | |
| 440 | 861 string, followed by another pointer to a Lisp_String, followed by |
| 862 the data for that string, etc. At GC time, the data in these | |
| 863 blocks is compacted by searching sequentially through all the | |
| 428 | 864 blocks and compressing out any holes created by unmarked strings. |
| 865 Strings that are more than a certain size (bigger than the size of | |
| 866 a string_chars_block, although something like half as big might | |
| 867 make more sense) are malloc()ed separately and not stored in | |
| 868 string_chars_blocks. Furthermore, no one string stretches across | |
| 869 two string_chars_blocks. | |
| 870 | |
| 1204 | 871 Vectors are each malloc()ed separately as lcrecords. |
| 428 | 872 |
| 873 In the following discussion, we use conses, but it applies equally | |
| 874 well to the other fixed-size types. | |
| 875 | |
| 876 We store cons cells inside of cons_blocks, allocating a new | |
| 877 cons_block with malloc() whenever necessary. Cons cells reclaimed | |
| 878 by GC are put on a free list to be reallocated before allocating | |
| 879 any new cons cells from the latest cons_block. Each cons_block is | |
| 880 just under 2^n - MALLOC_OVERHEAD bytes long, since malloc (at least | |
| 881 the versions in malloc.c and gmalloc.c) really allocates in units | |
| 882 of powers of two and uses 4 bytes for its own overhead. | |
| 883 | |
| 884 What GC actually does is to search through all the cons_blocks, | |
| 885 from the most recently allocated to the oldest, and put all | |
| 886 cons cells that are not marked (whether or not they're already | |
| 887 free) on a cons_free_list. The cons_free_list is a stack, and | |
| 888 so the cons cells in the oldest-allocated cons_block end up | |
| 889 at the head of the stack and are the first to be reallocated. | |
| 890 If any cons_block is entirely free, it is freed with free() | |
| 891 and its cons cells removed from the cons_free_list. Because | |
| 892 the cons_free_list ends up basically in memory order, we have | |
| 893 a high locality of reference (assuming a reasonable turnover | |
| 894 of allocating and freeing) and have a reasonable probability | |
| 895 of entirely freeing up cons_blocks that have been more recently | |
| 896 allocated. This stage is called the "sweep stage" of GC, and | |
| 897 is executed after the "mark stage", which involves starting | |
| 898 from all places that are known to point to in-use Lisp objects | |
| 899 (e.g. the obarray, where are all symbols are stored; the | |
| 900 current catches and condition-cases; the backtrace list of | |
| 901 currently executing functions; the gcpro list; etc.) and | |
| 902 recursively marking all objects that are accessible. | |
| 903 | |
| 454 | 904 At the beginning of the sweep stage, the conses in the cons blocks |
| 905 are in one of three states: in use and marked, in use but not | |
| 906 marked, and not in use (already freed). Any conses that are marked | |
| 907 have been marked in the mark stage just executed, because as part | |
| 908 of the sweep stage we unmark any marked objects. The way we tell | |
| 909 whether or not a cons cell is in use is through the LRECORD_FREE_P | |
| 910 macro. This uses a special lrecord type `lrecord_type_free', | |
| 911 which is never associated with any valid object. | |
| 912 | |
| 913 Conses on the free_cons_list are threaded through a pointer stored | |
| 914 in the conses themselves. Because the cons is still in a | |
| 915 cons_block and needs to remain marked as not in use for the next | |
| 916 time that GC happens, we need room to store both the "free" | |
| 917 indicator and the chaining pointer. So this pointer is stored | |
| 918 after the lrecord header (actually where C places a pointer after | |
| 919 the lrecord header; they are not necessarily contiguous). This | |
| 920 implies that all fixed-size types must be big enough to contain at | |
| 921 least one pointer. This is true for all current fixed-size types, | |
| 922 with the possible exception of Lisp_Floats, for which we define the | |
| 923 meat of the struct using a union of a pointer and a double to | |
| 924 ensure adequate space for the free list chain pointer. | |
| 428 | 925 |
| 926 Some types of objects need additional "finalization" done | |
| 927 when an object is converted from in use to not in use; | |
| 928 this is the purpose of the ADDITIONAL_FREE_type macro. | |
| 929 For example, markers need to be removed from the chain | |
| 930 of markers that is kept in each buffer. This is because | |
| 931 markers in a buffer automatically disappear if the marker | |
| 932 is no longer referenced anywhere (the same does not | |
| 933 apply to extents, however). | |
| 934 | |
| 935 WARNING: Things are in an extremely bizarre state when | |
| 936 the ADDITIONAL_FREE_type macros are called, so beware! | |
| 937 | |
| 454 | 938 When ERROR_CHECK_GC is defined, we do things differently so as to |
| 939 maximize our chances of catching places where there is insufficient | |
| 940 GCPROing. The thing we want to avoid is having an object that | |
| 941 we're using but didn't GCPRO get freed by GC and then reallocated | |
| 942 while we're in the process of using it -- this will result in | |
| 943 something seemingly unrelated getting trashed, and is extremely | |
| 944 difficult to track down. If the object gets freed but not | |
| 945 reallocated, we can usually catch this because we set most of the | |
| 946 bytes of a freed object to 0xDEADBEEF. (The lisp object type is set | |
| 947 to the invalid type `lrecord_type_free', however, and a pointer | |
| 948 used to chain freed objects together is stored after the lrecord | |
| 949 header; we play some tricks with this pointer to make it more | |
| 428 | 950 bogus, so crashes are more likely to occur right away.) |
| 951 | |
| 952 We want freed objects to stay free as long as possible, | |
| 953 so instead of doing what we do above, we maintain the | |
| 954 free objects in a first-in first-out queue. We also | |
| 955 don't recompute the free list each GC, unlike above; | |
| 956 this ensures that the queue ordering is preserved. | |
| 957 [This means that we are likely to have worse locality | |
| 958 of reference, and that we can never free a frob block | |
| 959 once it's allocated. (Even if we know that all cells | |
| 960 in it are free, there's no easy way to remove all those | |
| 961 cells from the free list because the objects on the | |
| 962 free list are unlikely to be in memory order.)] | |
| 963 Furthermore, we never take objects off the free list | |
| 964 unless there's a large number (usually 1000, but | |
| 965 varies depending on type) of them already on the list. | |
| 966 This way, we ensure that an object that gets freed will | |
| 967 remain free for the next 1000 (or whatever) times that | |
| 440 | 968 an object of that type is allocated. */ |
| 428 | 969 |
| 970 #if !defined(HAVE_MMAP) || defined(DOUG_LEA_MALLOC) | |
| 971 /* If we released our reserve (due to running out of memory), | |
| 972 and we have a fair amount free once again, | |
| 973 try to set aside another reserve in case we run out once more. | |
| 974 | |
| 975 This is called when a relocatable block is freed in ralloc.c. */ | |
| 976 void refill_memory_reserve (void); | |
| 977 void | |
| 442 | 978 refill_memory_reserve (void) |
| 428 | 979 { |
| 980 if (breathing_space == 0) | |
| 981 breathing_space = (char *) malloc (4096 - MALLOC_OVERHEAD); | |
| 982 } | |
| 983 #endif | |
| 984 | |
| 985 #ifdef ALLOC_NO_POOLS | |
| 986 # define TYPE_ALLOC_SIZE(type, structtype) 1 | |
| 987 #else | |
| 988 # define TYPE_ALLOC_SIZE(type, structtype) \ | |
| 989 ((2048 - MALLOC_OVERHEAD - sizeof (struct type##_block *)) \ | |
| 990 / sizeof (structtype)) | |
| 991 #endif /* ALLOC_NO_POOLS */ | |
| 992 | |
| 993 #define DECLARE_FIXED_TYPE_ALLOC(type, structtype) \ | |
| 994 \ | |
| 995 struct type##_block \ | |
| 996 { \ | |
| 997 struct type##_block *prev; \ | |
| 998 structtype block[TYPE_ALLOC_SIZE (type, structtype)]; \ | |
| 999 }; \ | |
| 1000 \ | |
| 1001 static struct type##_block *current_##type##_block; \ | |
| 1002 static int current_##type##_block_index; \ | |
| 1003 \ | |
| 454 | 1004 static Lisp_Free *type##_free_list; \ |
| 1005 static Lisp_Free *type##_free_list_tail; \ | |
| 428 | 1006 \ |
| 1007 static void \ | |
| 1008 init_##type##_alloc (void) \ | |
| 1009 { \ | |
| 1010 current_##type##_block = 0; \ | |
| 1011 current_##type##_block_index = \ | |
| 1012 countof (current_##type##_block->block); \ | |
| 1013 type##_free_list = 0; \ | |
| 1014 type##_free_list_tail = 0; \ | |
| 1015 } \ | |
| 1016 \ | |
| 1017 static int gc_count_num_##type##_in_use; \ | |
| 1018 static int gc_count_num_##type##_freelist | |
| 1019 | |
| 1020 #define ALLOCATE_FIXED_TYPE_FROM_BLOCK(type, result) do { \ | |
| 1021 if (current_##type##_block_index \ | |
| 1022 == countof (current_##type##_block->block)) \ | |
| 1023 { \ | |
| 1024 struct type##_block *AFTFB_new = (struct type##_block *) \ | |
| 1025 allocate_lisp_storage (sizeof (struct type##_block)); \ | |
| 1026 AFTFB_new->prev = current_##type##_block; \ | |
| 1027 current_##type##_block = AFTFB_new; \ | |
| 1028 current_##type##_block_index = 0; \ | |
| 1029 } \ | |
| 1030 (result) = \ | |
| 1031 &(current_##type##_block->block[current_##type##_block_index++]); \ | |
| 1032 } while (0) | |
| 1033 | |
| 1034 /* Allocate an instance of a type that is stored in blocks. | |
| 1035 TYPE is the "name" of the type, STRUCTTYPE is the corresponding | |
| 1036 structure type. */ | |
| 1037 | |
| 1038 #ifdef ERROR_CHECK_GC | |
| 1039 | |
| 1040 /* Note: if you get crashes in this function, suspect incorrect calls | |
| 1041 to free_cons() and friends. This happened once because the cons | |
| 1042 cell was not GC-protected and was getting collected before | |
| 1043 free_cons() was called. */ | |
| 1044 | |
| 454 | 1045 #define ALLOCATE_FIXED_TYPE_1(type, structtype, result) do { \ |
| 1046 if (gc_count_num_##type##_freelist > \ | |
| 1047 MINIMUM_ALLOWED_FIXED_TYPE_CELLS_##type) \ | |
| 1048 { \ | |
| 1049 result = (structtype *) type##_free_list; \ | |
| 1204 | 1050 assert (LRECORD_FREE_P (result)); \ |
| 1051 /* Before actually using the chain pointer, we complement \ | |
| 1052 all its bits; see PUT_FIXED_TYPE_ON_FREE_LIST(). */ \ | |
| 454 | 1053 type##_free_list = (Lisp_Free *) \ |
| 1054 (~ (EMACS_UINT) (type##_free_list->chain)); \ | |
| 1055 gc_count_num_##type##_freelist--; \ | |
| 1056 } \ | |
| 1057 else \ | |
| 1058 ALLOCATE_FIXED_TYPE_FROM_BLOCK (type, result); \ | |
| 1059 MARK_LRECORD_AS_NOT_FREE (result); \ | |
| 428 | 1060 } while (0) |
| 1061 | |
| 1062 #else /* !ERROR_CHECK_GC */ | |
| 1063 | |
| 454 | 1064 #define ALLOCATE_FIXED_TYPE_1(type, structtype, result) do { \ |
| 428 | 1065 if (type##_free_list) \ |
| 1066 { \ | |
| 454 | 1067 result = (structtype *) type##_free_list; \ |
| 1068 type##_free_list = type##_free_list->chain; \ | |
| 428 | 1069 } \ |
| 1070 else \ | |
| 1071 ALLOCATE_FIXED_TYPE_FROM_BLOCK (type, result); \ | |
| 454 | 1072 MARK_LRECORD_AS_NOT_FREE (result); \ |
| 428 | 1073 } while (0) |
| 1074 | |
| 1075 #endif /* !ERROR_CHECK_GC */ | |
| 1076 | |
| 454 | 1077 |
| 428 | 1078 #define ALLOCATE_FIXED_TYPE(type, structtype, result) \ |
| 1079 do \ | |
| 1080 { \ | |
| 1081 ALLOCATE_FIXED_TYPE_1 (type, structtype, result); \ | |
| 1082 INCREMENT_CONS_COUNTER (sizeof (structtype), #type); \ | |
| 1083 } while (0) | |
| 1084 | |
| 1085 #define NOSEEUM_ALLOCATE_FIXED_TYPE(type, structtype, result) \ | |
| 1086 do \ | |
| 1087 { \ | |
| 1088 ALLOCATE_FIXED_TYPE_1 (type, structtype, result); \ | |
| 1089 NOSEEUM_INCREMENT_CONS_COUNTER (sizeof (structtype), #type); \ | |
| 1090 } while (0) | |
| 1091 | |
| 454 | 1092 /* Lisp_Free is the type to represent a free list member inside a frob |
| 1093 block of any lisp object type. */ | |
| 1094 typedef struct Lisp_Free | |
| 1095 { | |
| 1096 struct lrecord_header lheader; | |
| 1097 struct Lisp_Free *chain; | |
| 1098 } Lisp_Free; | |
| 1099 | |
| 1100 #define LRECORD_FREE_P(ptr) \ | |
| 771 | 1101 (((struct lrecord_header *) ptr)->type == lrecord_type_free) |
| 454 | 1102 |
| 1103 #define MARK_LRECORD_AS_FREE(ptr) \ | |
| 771 | 1104 ((void) (((struct lrecord_header *) ptr)->type = lrecord_type_free)) |
| 454 | 1105 |
| 1106 #ifdef ERROR_CHECK_GC | |
| 1107 #define MARK_LRECORD_AS_NOT_FREE(ptr) \ | |
| 771 | 1108 ((void) (((struct lrecord_header *) ptr)->type = lrecord_type_undefined)) |
| 428 | 1109 #else |
| 454 | 1110 #define MARK_LRECORD_AS_NOT_FREE(ptr) DO_NOTHING |
| 428 | 1111 #endif |
| 1112 | |
| 1113 #ifdef ERROR_CHECK_GC | |
| 1114 | |
| 454 | 1115 #define PUT_FIXED_TYPE_ON_FREE_LIST(type, structtype, ptr) do { \ |
| 1116 if (type##_free_list_tail) \ | |
| 1117 { \ | |
| 1118 /* When we store the chain pointer, we complement all \ | |
| 1119 its bits; this should significantly increase its \ | |
| 1120 bogosity in case someone tries to use the value, and \ | |
| 1121 should make us crash faster if someone overwrites the \ | |
| 1122 pointer because when it gets un-complemented in \ | |
| 1123 ALLOCATED_FIXED_TYPE(), the resulting pointer will be \ | |
| 1124 extremely bogus. */ \ | |
| 1125 type##_free_list_tail->chain = \ | |
| 1126 (Lisp_Free *) ~ (EMACS_UINT) (ptr); \ | |
| 1127 } \ | |
| 1128 else \ | |
| 1129 type##_free_list = (Lisp_Free *) (ptr); \ | |
| 1130 type##_free_list_tail = (Lisp_Free *) (ptr); \ | |
| 1131 } while (0) | |
| 428 | 1132 |
| 1133 #else /* !ERROR_CHECK_GC */ | |
| 1134 | |
| 454 | 1135 #define PUT_FIXED_TYPE_ON_FREE_LIST(type, structtype, ptr) do { \ |
| 1136 ((Lisp_Free *) (ptr))->chain = type##_free_list; \ | |
| 1137 type##_free_list = (Lisp_Free *) (ptr); \ | |
| 1138 } while (0) \ | |
| 428 | 1139 |
| 1140 #endif /* !ERROR_CHECK_GC */ | |
| 1141 | |
| 1142 /* TYPE and STRUCTTYPE are the same as in ALLOCATE_FIXED_TYPE(). */ | |
| 1143 | |
| 1144 #define FREE_FIXED_TYPE(type, structtype, ptr) do { \ | |
| 1145 structtype *FFT_ptr = (ptr); \ | |
| 1204 | 1146 gc_checking_assert (!LRECORD_FREE_P (FFT_ptr)); \ |
| 2367 | 1147 gc_checking_assert (!DUMPEDP (FFT_ptr)); \ |
| 428 | 1148 ADDITIONAL_FREE_##type (FFT_ptr); \ |
| 1149 deadbeef_memory (FFT_ptr, sizeof (structtype)); \ | |
| 1150 PUT_FIXED_TYPE_ON_FREE_LIST (type, structtype, FFT_ptr); \ | |
| 454 | 1151 MARK_LRECORD_AS_FREE (FFT_ptr); \ |
| 428 | 1152 } while (0) |
| 1153 | |
| 1154 /* Like FREE_FIXED_TYPE() but used when we are explicitly | |
| 1155 freeing a structure through free_cons(), free_marker(), etc. | |
| 1156 rather than through the normal process of sweeping. | |
| 1157 We attempt to undo the changes made to the allocation counters | |
| 1158 as a result of this structure being allocated. This is not | |
| 1159 completely necessary but helps keep things saner: e.g. this way, | |
| 1160 repeatedly allocating and freeing a cons will not result in | |
| 1161 the consing-since-gc counter advancing, which would cause a GC | |
| 1204 | 1162 and somewhat defeat the purpose of explicitly freeing. |
| 1163 | |
| 1164 We also disable this mechanism entirely when ALLOC_NO_POOLS is | |
| 1165 set, which is used for Purify and the like. */ | |
| 1166 | |
| 1167 #ifndef ALLOC_NO_POOLS | |
| 428 | 1168 #define FREE_FIXED_TYPE_WHEN_NOT_IN_GC(type, structtype, ptr) \ |
| 1169 do { FREE_FIXED_TYPE (type, structtype, ptr); \ | |
| 1170 DECREMENT_CONS_COUNTER (sizeof (structtype)); \ | |
| 1171 gc_count_num_##type##_freelist++; \ | |
| 1172 } while (0) | |
| 1204 | 1173 #else |
| 1174 #define FREE_FIXED_TYPE_WHEN_NOT_IN_GC(type, structtype, ptr) | |
| 1175 #endif | |
| 3263 | 1176 #endif /* NEW_GC */ |
| 1177 | |
| 1178 #ifdef NEW_GC | |
| 3017 | 1179 #define ALLOCATE_FIXED_TYPE_AND_SET_IMPL(type, lisp_type, var, lrec_ptr) \ |
| 1180 do { \ | |
| 1181 (var) = alloc_lrecord_type (lisp_type, lrec_ptr); \ | |
| 1182 } while (0) | |
| 1183 #define NOSEEUM_ALLOCATE_FIXED_TYPE_AND_SET_IMPL(type, lisp_type, var, \ | |
| 1184 lrec_ptr) \ | |
| 1185 do { \ | |
| 1186 (var) = noseeum_alloc_lrecord_type (lisp_type, lrec_ptr); \ | |
| 1187 } while (0) | |
| 3263 | 1188 #else /* not NEW_GC */ |
| 3017 | 1189 #define ALLOCATE_FIXED_TYPE_AND_SET_IMPL(type, lisp_type, var, lrec_ptr) \ |
| 1190 do \ | |
| 1191 { \ | |
| 1192 ALLOCATE_FIXED_TYPE (type, lisp_type, var); \ | |
| 1193 set_lheader_implementation (&(var)->lheader, lrec_ptr); \ | |
| 1194 } while (0) | |
| 1195 #define NOSEEUM_ALLOCATE_FIXED_TYPE_AND_SET_IMPL(type, lisp_type, var, \ | |
| 1196 lrec_ptr) \ | |
| 1197 do \ | |
| 1198 { \ | |
| 1199 NOSEEUM_ALLOCATE_FIXED_TYPE (type, lisp_type, var); \ | |
| 1200 set_lheader_implementation (&(var)->lheader, lrec_ptr); \ | |
| 1201 } while (0) | |
| 3263 | 1202 #endif /* not NEW_GC */ |
| 3017 | 1203 |
| 428 | 1204 |
| 1205 | |
| 1206 /************************************************************************/ | |
| 1207 /* Cons allocation */ | |
| 1208 /************************************************************************/ | |
| 1209 | |
| 440 | 1210 DECLARE_FIXED_TYPE_ALLOC (cons, Lisp_Cons); |
| 428 | 1211 /* conses are used and freed so often that we set this really high */ |
| 1212 /* #define MINIMUM_ALLOWED_FIXED_TYPE_CELLS_cons 20000 */ | |
| 1213 #define MINIMUM_ALLOWED_FIXED_TYPE_CELLS_cons 2000 | |
| 1214 | |
| 1215 static Lisp_Object | |
| 1216 mark_cons (Lisp_Object obj) | |
| 1217 { | |
| 1218 if (NILP (XCDR (obj))) | |
| 1219 return XCAR (obj); | |
| 1220 | |
| 1221 mark_object (XCAR (obj)); | |
| 1222 return XCDR (obj); | |
| 1223 } | |
| 1224 | |
| 1225 static int | |
|
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1226 cons_equal (Lisp_Object ob1, Lisp_Object ob2, int depth, int foldcase) |
| 428 | 1227 { |
| 442 | 1228 depth++; |
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1229 while (internal_equal_0 (XCAR (ob1), XCAR (ob2), depth, foldcase)) |
| 428 | 1230 { |
| 1231 ob1 = XCDR (ob1); | |
| 1232 ob2 = XCDR (ob2); | |
| 1233 if (! CONSP (ob1) || ! CONSP (ob2)) | |
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1234 return internal_equal_0 (ob1, ob2, depth, foldcase); |
| 428 | 1235 } |
| 1236 return 0; | |
| 1237 } | |
| 1238 | |
| 1204 | 1239 static const struct memory_description cons_description[] = { |
| 853 | 1240 { XD_LISP_OBJECT, offsetof (Lisp_Cons, car_) }, |
| 1241 { XD_LISP_OBJECT, offsetof (Lisp_Cons, cdr_) }, | |
| 428 | 1242 { XD_END } |
| 1243 }; | |
| 1244 | |
| 934 | 1245 DEFINE_BASIC_LRECORD_IMPLEMENTATION ("cons", cons, |
| 1246 1, /*dumpable-flag*/ | |
| 1247 mark_cons, print_cons, 0, | |
| 1248 cons_equal, | |
| 1249 /* | |
| 1250 * No `hash' method needed. | |
| 1251 * internal_hash knows how to | |
| 1252 * handle conses. | |
| 1253 */ | |
| 1254 0, | |
| 1255 cons_description, | |
| 1256 Lisp_Cons); | |
| 428 | 1257 |
| 1258 DEFUN ("cons", Fcons, 2, 2, 0, /* | |
| 3355 | 1259 Create a new cons cell, give it CAR and CDR as components, and return it. |
| 1260 | |
| 1261 A cons cell is a Lisp object (an area in memory) made up of two pointers | |
| 1262 called the CAR and the CDR. Each of these pointers can point to any other | |
| 1263 Lisp object. The common Lisp data type, the list, is a specially-structured | |
| 1264 series of cons cells. | |
| 1265 | |
| 1266 The pointers are accessed from Lisp with `car' and `cdr', and mutated with | |
| 1267 `setcar' and `setcdr' respectively. For historical reasons, the aliases | |
| 1268 `rplaca' and `rplacd' (for `setcar' and `setcdr') are supported. | |
| 428 | 1269 */ |
| 1270 (car, cdr)) | |
| 1271 { | |
| 1272 /* This cannot GC. */ | |
| 1273 Lisp_Object val; | |
| 440 | 1274 Lisp_Cons *c; |
| 1275 | |
| 3017 | 1276 ALLOCATE_FIXED_TYPE_AND_SET_IMPL (cons, Lisp_Cons, c, &lrecord_cons); |
| 793 | 1277 val = wrap_cons (c); |
| 853 | 1278 XSETCAR (val, car); |
| 1279 XSETCDR (val, cdr); | |
| 428 | 1280 return val; |
| 1281 } | |
| 1282 | |
| 1283 /* This is identical to Fcons() but it used for conses that we're | |
| 1284 going to free later, and is useful when trying to track down | |
| 1285 "real" consing. */ | |
| 1286 Lisp_Object | |
| 1287 noseeum_cons (Lisp_Object car, Lisp_Object cdr) | |
| 1288 { | |
| 1289 Lisp_Object val; | |
| 440 | 1290 Lisp_Cons *c; |
| 1291 | |
| 3017 | 1292 NOSEEUM_ALLOCATE_FIXED_TYPE_AND_SET_IMPL (cons, Lisp_Cons, c, &lrecord_cons); |
| 793 | 1293 val = wrap_cons (c); |
| 428 | 1294 XCAR (val) = car; |
| 1295 XCDR (val) = cdr; | |
| 1296 return val; | |
| 1297 } | |
| 1298 | |
| 1299 DEFUN ("list", Flist, 0, MANY, 0, /* | |
|
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1300 Return a newly created list with specified ARGS as elements. |
| 428 | 1301 Any number of arguments, even zero arguments, are allowed. |
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1302 |
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1303 arguments: (&rest ARGS) |
| 428 | 1304 */ |
| 1305 (int nargs, Lisp_Object *args)) | |
| 1306 { | |
| 1307 Lisp_Object val = Qnil; | |
| 1308 Lisp_Object *argp = args + nargs; | |
| 1309 | |
| 1310 while (argp > args) | |
| 1311 val = Fcons (*--argp, val); | |
| 1312 return val; | |
| 1313 } | |
| 1314 | |
| 1315 Lisp_Object | |
| 1316 list1 (Lisp_Object obj0) | |
| 1317 { | |
| 1318 /* This cannot GC. */ | |
| 1319 return Fcons (obj0, Qnil); | |
| 1320 } | |
| 1321 | |
| 1322 Lisp_Object | |
| 1323 list2 (Lisp_Object obj0, Lisp_Object obj1) | |
| 1324 { | |
| 1325 /* This cannot GC. */ | |
| 1326 return Fcons (obj0, Fcons (obj1, Qnil)); | |
| 1327 } | |
| 1328 | |
| 1329 Lisp_Object | |
| 1330 list3 (Lisp_Object obj0, Lisp_Object obj1, Lisp_Object obj2) | |
| 1331 { | |
| 1332 /* This cannot GC. */ | |
| 1333 return Fcons (obj0, Fcons (obj1, Fcons (obj2, Qnil))); | |
| 1334 } | |
| 1335 | |
| 1336 Lisp_Object | |
| 1337 cons3 (Lisp_Object obj0, Lisp_Object obj1, Lisp_Object obj2) | |
| 1338 { | |
| 1339 /* This cannot GC. */ | |
| 1340 return Fcons (obj0, Fcons (obj1, obj2)); | |
| 1341 } | |
| 1342 | |
| 1343 Lisp_Object | |
| 1344 acons (Lisp_Object key, Lisp_Object value, Lisp_Object alist) | |
| 1345 { | |
| 1346 return Fcons (Fcons (key, value), alist); | |
| 1347 } | |
| 1348 | |
| 1349 Lisp_Object | |
| 1350 list4 (Lisp_Object obj0, Lisp_Object obj1, Lisp_Object obj2, Lisp_Object obj3) | |
| 1351 { | |
| 1352 /* This cannot GC. */ | |
| 1353 return Fcons (obj0, Fcons (obj1, Fcons (obj2, Fcons (obj3, Qnil)))); | |
| 1354 } | |
| 1355 | |
| 1356 Lisp_Object | |
| 1357 list5 (Lisp_Object obj0, Lisp_Object obj1, Lisp_Object obj2, Lisp_Object obj3, | |
| 1358 Lisp_Object obj4) | |
| 1359 { | |
| 1360 /* This cannot GC. */ | |
| 1361 return Fcons (obj0, Fcons (obj1, Fcons (obj2, Fcons (obj3, Fcons (obj4, Qnil))))); | |
| 1362 } | |
| 1363 | |
| 1364 Lisp_Object | |
| 1365 list6 (Lisp_Object obj0, Lisp_Object obj1, Lisp_Object obj2, Lisp_Object obj3, | |
| 1366 Lisp_Object obj4, Lisp_Object obj5) | |
| 1367 { | |
| 1368 /* This cannot GC. */ | |
| 1369 return Fcons (obj0, Fcons (obj1, Fcons (obj2, Fcons (obj3, Fcons (obj4, Fcons (obj5, Qnil)))))); | |
| 1370 } | |
| 1371 | |
| 1372 DEFUN ("make-list", Fmake_list, 2, 2, 0, /* | |
| 444 | 1373 Return a new list of length LENGTH, with each element being OBJECT. |
| 428 | 1374 */ |
| 444 | 1375 (length, object)) |
| 428 | 1376 { |
| 1377 CHECK_NATNUM (length); | |
| 1378 | |
| 1379 { | |
| 1380 Lisp_Object val = Qnil; | |
| 647 | 1381 EMACS_INT size = XINT (length); |
| 428 | 1382 |
| 1383 while (size--) | |
| 444 | 1384 val = Fcons (object, val); |
| 428 | 1385 return val; |
| 1386 } | |
| 1387 } | |
| 1388 | |
| 1389 | |
| 1390 /************************************************************************/ | |
| 1391 /* Float allocation */ | |
| 1392 /************************************************************************/ | |
| 1393 | |
| 1983 | 1394 /*** With enhanced number support, these are short floats */ |
| 1395 | |
| 440 | 1396 DECLARE_FIXED_TYPE_ALLOC (float, Lisp_Float); |
| 428 | 1397 #define MINIMUM_ALLOWED_FIXED_TYPE_CELLS_float 1000 |
| 1398 | |
| 1399 Lisp_Object | |
| 1400 make_float (double float_value) | |
| 1401 { | |
| 440 | 1402 Lisp_Float *f; |
| 1403 | |
| 3017 | 1404 ALLOCATE_FIXED_TYPE_AND_SET_IMPL (float, Lisp_Float, f, &lrecord_float); |
| 440 | 1405 |
| 1406 /* Avoid dump-time `uninitialized memory read' purify warnings. */ | |
| 1407 if (sizeof (struct lrecord_header) + sizeof (double) != sizeof (*f)) | |
| 3017 | 1408 zero_lrecord (f); |
| 1409 | |
| 428 | 1410 float_data (f) = float_value; |
| 793 | 1411 return wrap_float (f); |
| 428 | 1412 } |
| 1413 | |
| 1414 | |
| 1415 /************************************************************************/ | |
| 1983 | 1416 /* Enhanced number allocation */ |
| 1417 /************************************************************************/ | |
| 1418 | |
| 1419 /*** Bignum ***/ | |
| 1420 #ifdef HAVE_BIGNUM | |
| 1421 DECLARE_FIXED_TYPE_ALLOC (bignum, Lisp_Bignum); | |
| 1422 #define MINIMUM_ALLOWED_FIXED_TYPE_CELLS_bignum 250 | |
| 1423 | |
| 1424 /* WARNING: This function returns a bignum even if its argument fits into a | |
| 1425 fixnum. See Fcanonicalize_number(). */ | |
| 1426 Lisp_Object | |
| 1427 make_bignum (long bignum_value) | |
| 1428 { | |
| 1429 Lisp_Bignum *b; | |
| 1430 | |
| 3017 | 1431 ALLOCATE_FIXED_TYPE_AND_SET_IMPL (bignum, Lisp_Bignum, b, &lrecord_bignum); |
| 1983 | 1432 bignum_init (bignum_data (b)); |
| 1433 bignum_set_long (bignum_data (b), bignum_value); | |
| 1434 return wrap_bignum (b); | |
| 1435 } | |
| 1436 | |
| 1437 /* WARNING: This function returns a bignum even if its argument fits into a | |
| 1438 fixnum. See Fcanonicalize_number(). */ | |
| 1439 Lisp_Object | |
| 1440 make_bignum_bg (bignum bg) | |
| 1441 { | |
| 1442 Lisp_Bignum *b; | |
| 1443 | |
| 3017 | 1444 ALLOCATE_FIXED_TYPE_AND_SET_IMPL (bignum, Lisp_Bignum, b, &lrecord_bignum); |
| 1983 | 1445 bignum_init (bignum_data (b)); |
| 1446 bignum_set (bignum_data (b), bg); | |
| 1447 return wrap_bignum (b); | |
| 1448 } | |
| 1449 #endif /* HAVE_BIGNUM */ | |
| 1450 | |
| 1451 /*** Ratio ***/ | |
| 1452 #ifdef HAVE_RATIO | |
| 1453 DECLARE_FIXED_TYPE_ALLOC (ratio, Lisp_Ratio); | |
| 1454 #define MINIMUM_ALLOWED_FIXED_TYPE_CELLS_ratio 250 | |
| 1455 | |
| 1456 Lisp_Object | |
| 1457 make_ratio (long numerator, unsigned long denominator) | |
| 1458 { | |
| 1459 Lisp_Ratio *r; | |
| 1460 | |
| 3017 | 1461 ALLOCATE_FIXED_TYPE_AND_SET_IMPL (ratio, Lisp_Ratio, r, &lrecord_ratio); |
| 1983 | 1462 ratio_init (ratio_data (r)); |
| 1463 ratio_set_long_ulong (ratio_data (r), numerator, denominator); | |
| 1464 ratio_canonicalize (ratio_data (r)); | |
| 1465 return wrap_ratio (r); | |
| 1466 } | |
| 1467 | |
| 1468 Lisp_Object | |
| 1469 make_ratio_bg (bignum numerator, bignum denominator) | |
| 1470 { | |
| 1471 Lisp_Ratio *r; | |
| 1472 | |
| 3017 | 1473 ALLOCATE_FIXED_TYPE_AND_SET_IMPL (ratio, Lisp_Ratio, r, &lrecord_ratio); |
| 1983 | 1474 ratio_init (ratio_data (r)); |
| 1475 ratio_set_bignum_bignum (ratio_data (r), numerator, denominator); | |
| 1476 ratio_canonicalize (ratio_data (r)); | |
| 1477 return wrap_ratio (r); | |
| 1478 } | |
| 1479 | |
| 1480 Lisp_Object | |
| 1481 make_ratio_rt (ratio rat) | |
| 1482 { | |
| 1483 Lisp_Ratio *r; | |
| 1484 | |
| 3017 | 1485 ALLOCATE_FIXED_TYPE_AND_SET_IMPL (ratio, Lisp_Ratio, r, &lrecord_ratio); |
| 1983 | 1486 ratio_init (ratio_data (r)); |
| 1487 ratio_set (ratio_data (r), rat); | |
| 1488 return wrap_ratio (r); | |
| 1489 } | |
| 1490 #endif /* HAVE_RATIO */ | |
| 1491 | |
| 1492 /*** Bigfloat ***/ | |
| 1493 #ifdef HAVE_BIGFLOAT | |
| 1494 DECLARE_FIXED_TYPE_ALLOC (bigfloat, Lisp_Bigfloat); | |
| 1495 #define MINIMUM_ALLOWED_FIXED_TYPE_CELLS_bigfloat 250 | |
| 1496 | |
| 1497 /* This function creates a bigfloat with the default precision if the | |
| 1498 PRECISION argument is zero. */ | |
| 1499 Lisp_Object | |
| 1500 make_bigfloat (double float_value, unsigned long precision) | |
| 1501 { | |
| 1502 Lisp_Bigfloat *f; | |
| 1503 | |
| 3017 | 1504 ALLOCATE_FIXED_TYPE_AND_SET_IMPL (bigfloat, Lisp_Bigfloat, f, &lrecord_bigfloat); |
| 1983 | 1505 if (precision == 0UL) |
| 1506 bigfloat_init (bigfloat_data (f)); | |
| 1507 else | |
| 1508 bigfloat_init_prec (bigfloat_data (f), precision); | |
| 1509 bigfloat_set_double (bigfloat_data (f), float_value); | |
| 1510 return wrap_bigfloat (f); | |
| 1511 } | |
| 1512 | |
| 1513 /* This function creates a bigfloat with the precision of its argument */ | |
| 1514 Lisp_Object | |
| 1515 make_bigfloat_bf (bigfloat float_value) | |
| 1516 { | |
| 1517 Lisp_Bigfloat *f; | |
| 1518 | |
| 3017 | 1519 ALLOCATE_FIXED_TYPE_AND_SET_IMPL (bigfloat, Lisp_Bigfloat, f, &lrecord_bigfloat); |
| 1983 | 1520 bigfloat_init_prec (bigfloat_data (f), bigfloat_get_prec (float_value)); |
| 1521 bigfloat_set (bigfloat_data (f), float_value); | |
| 1522 return wrap_bigfloat (f); | |
| 1523 } | |
| 1524 #endif /* HAVE_BIGFLOAT */ | |
| 1525 | |
| 1526 /************************************************************************/ | |
| 428 | 1527 /* Vector allocation */ |
| 1528 /************************************************************************/ | |
| 1529 | |
| 1530 static Lisp_Object | |
| 1531 mark_vector (Lisp_Object obj) | |
| 1532 { | |
| 1533 Lisp_Vector *ptr = XVECTOR (obj); | |
| 1534 int len = vector_length (ptr); | |
| 1535 int i; | |
| 1536 | |
| 1537 for (i = 0; i < len - 1; i++) | |
| 1538 mark_object (ptr->contents[i]); | |
| 1539 return (len > 0) ? ptr->contents[len - 1] : Qnil; | |
| 1540 } | |
| 1541 | |
| 665 | 1542 static Bytecount |
| 442 | 1543 size_vector (const void *lheader) |
| 428 | 1544 { |
| 456 | 1545 return FLEXIBLE_ARRAY_STRUCT_SIZEOF (Lisp_Vector, Lisp_Object, contents, |
| 442 | 1546 ((Lisp_Vector *) lheader)->size); |
| 428 | 1547 } |
| 1548 | |
| 1549 static int | |
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1550 vector_equal (Lisp_Object obj1, Lisp_Object obj2, int depth, int foldcase) |
| 428 | 1551 { |
| 1552 int len = XVECTOR_LENGTH (obj1); | |
| 1553 if (len != XVECTOR_LENGTH (obj2)) | |
| 1554 return 0; | |
| 1555 | |
| 1556 { | |
| 1557 Lisp_Object *ptr1 = XVECTOR_DATA (obj1); | |
| 1558 Lisp_Object *ptr2 = XVECTOR_DATA (obj2); | |
| 1559 while (len--) | |
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1560 if (!internal_equal_0 (*ptr1++, *ptr2++, depth + 1, foldcase)) |
| 428 | 1561 return 0; |
| 1562 } | |
| 1563 return 1; | |
| 1564 } | |
| 1565 | |
| 665 | 1566 static Hashcode |
| 442 | 1567 vector_hash (Lisp_Object obj, int depth) |
| 1568 { | |
| 1569 return HASH2 (XVECTOR_LENGTH (obj), | |
| 1570 internal_array_hash (XVECTOR_DATA (obj), | |
| 1571 XVECTOR_LENGTH (obj), | |
| 1572 depth + 1)); | |
| 1573 } | |
| 1574 | |
| 1204 | 1575 static const struct memory_description vector_description[] = { |
| 440 | 1576 { XD_LONG, offsetof (Lisp_Vector, size) }, |
| 1577 { XD_LISP_OBJECT_ARRAY, offsetof (Lisp_Vector, contents), XD_INDIRECT(0, 0) }, | |
| 428 | 1578 { XD_END } |
| 1579 }; | |
| 1580 | |
| 1204 | 1581 DEFINE_LRECORD_SEQUENCE_IMPLEMENTATION ("vector", vector, |
| 1582 1, /*dumpable-flag*/ | |
| 1583 mark_vector, print_vector, 0, | |
| 1584 vector_equal, | |
| 1585 vector_hash, | |
| 1586 vector_description, | |
| 1587 size_vector, Lisp_Vector); | |
| 428 | 1588 /* #### should allocate `small' vectors from a frob-block */ |
| 1589 static Lisp_Vector * | |
| 665 | 1590 make_vector_internal (Elemcount sizei) |
| 428 | 1591 { |
| 1204 | 1592 /* no `next' field; we use lcrecords */ |
| 665 | 1593 Bytecount sizem = FLEXIBLE_ARRAY_STRUCT_SIZEOF (Lisp_Vector, Lisp_Object, |
| 1204 | 1594 contents, sizei); |
| 1595 Lisp_Vector *p = | |
| 3017 | 1596 (Lisp_Vector *) BASIC_ALLOC_LCRECORD (sizem, &lrecord_vector); |
| 428 | 1597 |
| 1598 p->size = sizei; | |
| 1599 return p; | |
| 1600 } | |
| 1601 | |
| 1602 Lisp_Object | |
| 665 | 1603 make_vector (Elemcount length, Lisp_Object object) |
| 428 | 1604 { |
| 1605 Lisp_Vector *vecp = make_vector_internal (length); | |
| 1606 Lisp_Object *p = vector_data (vecp); | |
| 1607 | |
| 1608 while (length--) | |
| 444 | 1609 *p++ = object; |
| 428 | 1610 |
| 793 | 1611 return wrap_vector (vecp); |
| 428 | 1612 } |
| 1613 | |
| 1614 DEFUN ("make-vector", Fmake_vector, 2, 2, 0, /* | |
| 444 | 1615 Return a new vector of length LENGTH, with each element being OBJECT. |
| 428 | 1616 See also the function `vector'. |
| 1617 */ | |
| 444 | 1618 (length, object)) |
| 428 | 1619 { |
| 1620 CONCHECK_NATNUM (length); | |
| 444 | 1621 return make_vector (XINT (length), object); |
| 428 | 1622 } |
| 1623 | |
| 1624 DEFUN ("vector", Fvector, 0, MANY, 0, /* | |
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1625 Return a newly created vector with specified ARGS as elements. |
| 428 | 1626 Any number of arguments, even zero arguments, are allowed. |
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1627 |
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1628 arguments: (&rest ARGS) |
| 428 | 1629 */ |
| 1630 (int nargs, Lisp_Object *args)) | |
| 1631 { | |
| 1632 Lisp_Vector *vecp = make_vector_internal (nargs); | |
| 1633 Lisp_Object *p = vector_data (vecp); | |
| 1634 | |
| 1635 while (nargs--) | |
| 1636 *p++ = *args++; | |
| 1637 | |
| 793 | 1638 return wrap_vector (vecp); |
| 428 | 1639 } |
| 1640 | |
| 1641 Lisp_Object | |
| 1642 vector1 (Lisp_Object obj0) | |
| 1643 { | |
| 1644 return Fvector (1, &obj0); | |
| 1645 } | |
| 1646 | |
| 1647 Lisp_Object | |
| 1648 vector2 (Lisp_Object obj0, Lisp_Object obj1) | |
| 1649 { | |
| 1650 Lisp_Object args[2]; | |
| 1651 args[0] = obj0; | |
| 1652 args[1] = obj1; | |
| 1653 return Fvector (2, args); | |
| 1654 } | |
| 1655 | |
| 1656 Lisp_Object | |
| 1657 vector3 (Lisp_Object obj0, Lisp_Object obj1, Lisp_Object obj2) | |
| 1658 { | |
| 1659 Lisp_Object args[3]; | |
| 1660 args[0] = obj0; | |
| 1661 args[1] = obj1; | |
| 1662 args[2] = obj2; | |
| 1663 return Fvector (3, args); | |
| 1664 } | |
| 1665 | |
| 1666 #if 0 /* currently unused */ | |
| 1667 | |
| 1668 Lisp_Object | |
| 1669 vector4 (Lisp_Object obj0, Lisp_Object obj1, Lisp_Object obj2, | |
| 1670 Lisp_Object obj3) | |
| 1671 { | |
| 1672 Lisp_Object args[4]; | |
| 1673 args[0] = obj0; | |
| 1674 args[1] = obj1; | |
| 1675 args[2] = obj2; | |
| 1676 args[3] = obj3; | |
| 1677 return Fvector (4, args); | |
| 1678 } | |
| 1679 | |
| 1680 Lisp_Object | |
| 1681 vector5 (Lisp_Object obj0, Lisp_Object obj1, Lisp_Object obj2, | |
| 1682 Lisp_Object obj3, Lisp_Object obj4) | |
| 1683 { | |
| 1684 Lisp_Object args[5]; | |
| 1685 args[0] = obj0; | |
| 1686 args[1] = obj1; | |
| 1687 args[2] = obj2; | |
| 1688 args[3] = obj3; | |
| 1689 args[4] = obj4; | |
| 1690 return Fvector (5, args); | |
| 1691 } | |
| 1692 | |
| 1693 Lisp_Object | |
| 1694 vector6 (Lisp_Object obj0, Lisp_Object obj1, Lisp_Object obj2, | |
| 1695 Lisp_Object obj3, Lisp_Object obj4, Lisp_Object obj5) | |
| 1696 { | |
| 1697 Lisp_Object args[6]; | |
| 1698 args[0] = obj0; | |
| 1699 args[1] = obj1; | |
| 1700 args[2] = obj2; | |
| 1701 args[3] = obj3; | |
| 1702 args[4] = obj4; | |
| 1703 args[5] = obj5; | |
| 1704 return Fvector (6, args); | |
| 1705 } | |
| 1706 | |
| 1707 Lisp_Object | |
| 1708 vector7 (Lisp_Object obj0, Lisp_Object obj1, Lisp_Object obj2, | |
| 1709 Lisp_Object obj3, Lisp_Object obj4, Lisp_Object obj5, | |
| 1710 Lisp_Object obj6) | |
| 1711 { | |
| 1712 Lisp_Object args[7]; | |
| 1713 args[0] = obj0; | |
| 1714 args[1] = obj1; | |
| 1715 args[2] = obj2; | |
| 1716 args[3] = obj3; | |
| 1717 args[4] = obj4; | |
| 1718 args[5] = obj5; | |
| 1719 args[6] = obj6; | |
| 1720 return Fvector (7, args); | |
| 1721 } | |
| 1722 | |
| 1723 Lisp_Object | |
| 1724 vector8 (Lisp_Object obj0, Lisp_Object obj1, Lisp_Object obj2, | |
| 1725 Lisp_Object obj3, Lisp_Object obj4, Lisp_Object obj5, | |
| 1726 Lisp_Object obj6, Lisp_Object obj7) | |
| 1727 { | |
| 1728 Lisp_Object args[8]; | |
| 1729 args[0] = obj0; | |
| 1730 args[1] = obj1; | |
| 1731 args[2] = obj2; | |
| 1732 args[3] = obj3; | |
| 1733 args[4] = obj4; | |
| 1734 args[5] = obj5; | |
| 1735 args[6] = obj6; | |
| 1736 args[7] = obj7; | |
| 1737 return Fvector (8, args); | |
| 1738 } | |
| 1739 #endif /* unused */ | |
| 1740 | |
| 1741 /************************************************************************/ | |
| 1742 /* Bit Vector allocation */ | |
| 1743 /************************************************************************/ | |
| 1744 | |
| 1745 /* #### should allocate `small' bit vectors from a frob-block */ | |
| 440 | 1746 static Lisp_Bit_Vector * |
| 665 | 1747 make_bit_vector_internal (Elemcount sizei) |
| 428 | 1748 { |
| 1204 | 1749 /* no `next' field; we use lcrecords */ |
| 665 | 1750 Elemcount num_longs = BIT_VECTOR_LONG_STORAGE (sizei); |
| 1751 Bytecount sizem = FLEXIBLE_ARRAY_STRUCT_SIZEOF (Lisp_Bit_Vector, | |
| 1204 | 1752 unsigned long, |
| 1753 bits, num_longs); | |
| 1754 Lisp_Bit_Vector *p = (Lisp_Bit_Vector *) | |
| 3017 | 1755 BASIC_ALLOC_LCRECORD (sizem, &lrecord_bit_vector); |
| 428 | 1756 |
| 1757 bit_vector_length (p) = sizei; | |
| 1758 return p; | |
| 1759 } | |
| 1760 | |
| 1761 Lisp_Object | |
| 665 | 1762 make_bit_vector (Elemcount length, Lisp_Object bit) |
| 428 | 1763 { |
| 440 | 1764 Lisp_Bit_Vector *p = make_bit_vector_internal (length); |
| 665 | 1765 Elemcount num_longs = BIT_VECTOR_LONG_STORAGE (length); |
| 428 | 1766 |
| 444 | 1767 CHECK_BIT (bit); |
| 1768 | |
| 1769 if (ZEROP (bit)) | |
| 428 | 1770 memset (p->bits, 0, num_longs * sizeof (long)); |
| 1771 else | |
| 1772 { | |
| 665 | 1773 Elemcount bits_in_last = length & (LONGBITS_POWER_OF_2 - 1); |
| 428 | 1774 memset (p->bits, ~0, num_longs * sizeof (long)); |
| 1775 /* But we have to make sure that the unused bits in the | |
| 1776 last long are 0, so that equal/hash is easy. */ | |
| 1777 if (bits_in_last) | |
| 1778 p->bits[num_longs - 1] &= (1 << bits_in_last) - 1; | |
| 1779 } | |
| 1780 | |
| 793 | 1781 return wrap_bit_vector (p); |
| 428 | 1782 } |
| 1783 | |
| 1784 Lisp_Object | |
| 665 | 1785 make_bit_vector_from_byte_vector (unsigned char *bytevec, Elemcount length) |
| 428 | 1786 { |
| 665 | 1787 Elemcount i; |
| 428 | 1788 Lisp_Bit_Vector *p = make_bit_vector_internal (length); |
| 1789 | |
| 1790 for (i = 0; i < length; i++) | |
| 1791 set_bit_vector_bit (p, i, bytevec[i]); | |
| 1792 | |
| 793 | 1793 return wrap_bit_vector (p); |
| 428 | 1794 } |
| 1795 | |
| 1796 DEFUN ("make-bit-vector", Fmake_bit_vector, 2, 2, 0, /* | |
| 444 | 1797 Return a new bit vector of length LENGTH. with each bit set to BIT. |
| 1798 BIT must be one of the integers 0 or 1. See also the function `bit-vector'. | |
| 428 | 1799 */ |
| 444 | 1800 (length, bit)) |
| 428 | 1801 { |
| 1802 CONCHECK_NATNUM (length); | |
| 1803 | |
| 444 | 1804 return make_bit_vector (XINT (length), bit); |
| 428 | 1805 } |
| 1806 | |
| 1807 DEFUN ("bit-vector", Fbit_vector, 0, MANY, 0, /* | |
|
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1808 Return a newly created bit vector with specified ARGS as elements. |
| 428 | 1809 Any number of arguments, even zero arguments, are allowed. |
| 444 | 1810 Each argument must be one of the integers 0 or 1. |
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1812 arguments: (&rest ARGS) |
| 428 | 1813 */ |
| 1814 (int nargs, Lisp_Object *args)) | |
| 1815 { | |
| 1816 int i; | |
| 1817 Lisp_Bit_Vector *p = make_bit_vector_internal (nargs); | |
| 1818 | |
| 1819 for (i = 0; i < nargs; i++) | |
| 1820 { | |
| 1821 CHECK_BIT (args[i]); | |
| 1822 set_bit_vector_bit (p, i, !ZEROP (args[i])); | |
| 1823 } | |
| 1824 | |
| 793 | 1825 return wrap_bit_vector (p); |
| 428 | 1826 } |
| 1827 | |
| 1828 | |
| 1829 /************************************************************************/ | |
| 1830 /* Compiled-function allocation */ | |
| 1831 /************************************************************************/ | |
| 1832 | |
| 1833 DECLARE_FIXED_TYPE_ALLOC (compiled_function, Lisp_Compiled_Function); | |
| 1834 #define MINIMUM_ALLOWED_FIXED_TYPE_CELLS_compiled_function 1000 | |
| 1835 | |
| 1836 static Lisp_Object | |
| 1837 make_compiled_function (void) | |
| 1838 { | |
| 1839 Lisp_Compiled_Function *f; | |
| 1840 | |
| 3017 | 1841 ALLOCATE_FIXED_TYPE_AND_SET_IMPL (compiled_function, Lisp_Compiled_Function, |
| 1842 f, &lrecord_compiled_function); | |
| 428 | 1843 |
| 1844 f->stack_depth = 0; | |
| 1845 f->specpdl_depth = 0; | |
| 1846 f->flags.documentationp = 0; | |
| 1847 f->flags.interactivep = 0; | |
| 1848 f->flags.domainp = 0; /* I18N3 */ | |
| 1849 f->instructions = Qzero; | |
| 1850 f->constants = Qzero; | |
| 1851 f->arglist = Qnil; | |
| 3092 | 1852 #ifdef NEW_GC |
| 1853 f->arguments = Qnil; | |
| 1854 #else /* not NEW_GC */ | |
| 1739 | 1855 f->args = NULL; |
| 3092 | 1856 #endif /* not NEW_GC */ |
| 1739 | 1857 f->max_args = f->min_args = f->args_in_array = 0; |
| 428 | 1858 f->doc_and_interactive = Qnil; |
| 1859 #ifdef COMPILED_FUNCTION_ANNOTATION_HACK | |
| 1860 f->annotated = Qnil; | |
| 1861 #endif | |
| 793 | 1862 return wrap_compiled_function (f); |
| 428 | 1863 } |
| 1864 | |
| 1865 DEFUN ("make-byte-code", Fmake_byte_code, 4, MANY, 0, /* | |
| 1866 Return a new compiled-function object. | |
| 1867 Note that, unlike all other emacs-lisp functions, calling this with five | |
| 1868 arguments is NOT the same as calling it with six arguments, the last of | |
| 1869 which is nil. If the INTERACTIVE arg is specified as nil, then that means | |
| 1870 that this function was defined with `(interactive)'. If the arg is not | |
| 1871 specified, then that means the function is not interactive. | |
| 1872 This is terrible behavior which is retained for compatibility with old | |
| 1873 `.elc' files which expect these semantics. | |
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1874 |
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1875 arguments: (ARGLIST INSTRUCTIONS CONSTANTS STACK-DEPTH &optional DOC-STRING INTERACTIVE) |
| 428 | 1876 */ |
| 1877 (int nargs, Lisp_Object *args)) | |
| 1878 { | |
| 1879 /* In a non-insane world this function would have this arglist... | |
| 1880 (arglist instructions constants stack_depth &optional doc_string interactive) | |
| 1881 */ | |
| 1882 Lisp_Object fun = make_compiled_function (); | |
| 1883 Lisp_Compiled_Function *f = XCOMPILED_FUNCTION (fun); | |
| 1884 | |
| 1885 Lisp_Object arglist = args[0]; | |
| 1886 Lisp_Object instructions = args[1]; | |
| 1887 Lisp_Object constants = args[2]; | |
| 1888 Lisp_Object stack_depth = args[3]; | |
| 1889 Lisp_Object doc_string = (nargs > 4) ? args[4] : Qnil; | |
| 1890 Lisp_Object interactive = (nargs > 5) ? args[5] : Qunbound; | |
| 1891 | |
| 1892 if (nargs < 4 || nargs > 6) | |
| 1893 return Fsignal (Qwrong_number_of_arguments, | |
| 1894 list2 (intern ("make-byte-code"), make_int (nargs))); | |
| 1895 | |
| 1896 /* Check for valid formal parameter list now, to allow us to use | |
| 1897 SPECBIND_FAST_UNSAFE() later in funcall_compiled_function(). */ | |
| 1898 { | |
| 814 | 1899 EXTERNAL_LIST_LOOP_2 (symbol, arglist) |
| 428 | 1900 { |
| 1901 CHECK_SYMBOL (symbol); | |
| 1902 if (EQ (symbol, Qt) || | |
| 1903 EQ (symbol, Qnil) || | |
| 1904 SYMBOL_IS_KEYWORD (symbol)) | |
| 563 | 1905 invalid_constant_2 |
| 428 | 1906 ("Invalid constant symbol in formal parameter list", |
| 1907 symbol, arglist); | |
| 1908 } | |
| 1909 } | |
| 1910 f->arglist = arglist; | |
| 1911 | |
| 1912 /* `instructions' is a string or a cons (string . int) for a | |
| 1913 lazy-loaded function. */ | |
| 1914 if (CONSP (instructions)) | |
| 1915 { | |
| 1916 CHECK_STRING (XCAR (instructions)); | |
| 1917 CHECK_INT (XCDR (instructions)); | |
| 1918 } | |
| 1919 else | |
| 1920 { | |
| 1921 CHECK_STRING (instructions); | |
| 1922 } | |
| 1923 f->instructions = instructions; | |
| 1924 | |
| 1925 if (!NILP (constants)) | |
| 1926 CHECK_VECTOR (constants); | |
| 1927 f->constants = constants; | |
| 1928 | |
| 1929 CHECK_NATNUM (stack_depth); | |
| 442 | 1930 f->stack_depth = (unsigned short) XINT (stack_depth); |
| 428 | 1931 |
| 1932 #ifdef COMPILED_FUNCTION_ANNOTATION_HACK | |
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1933 f->annotated = Vload_file_name_internal; |
| 428 | 1934 #endif /* COMPILED_FUNCTION_ANNOTATION_HACK */ |
| 1935 | |
| 1936 /* doc_string may be nil, string, int, or a cons (string . int). | |
| 1937 interactive may be list or string (or unbound). */ | |
| 1938 f->doc_and_interactive = Qunbound; | |
| 1939 #ifdef I18N3 | |
| 1940 if ((f->flags.domainp = !NILP (Vfile_domain)) != 0) | |
| 1941 f->doc_and_interactive = Vfile_domain; | |
| 1942 #endif | |
| 1943 if ((f->flags.interactivep = !UNBOUNDP (interactive)) != 0) | |
| 1944 { | |
| 1945 f->doc_and_interactive | |
| 1946 = (UNBOUNDP (f->doc_and_interactive) ? interactive : | |
| 1947 Fcons (interactive, f->doc_and_interactive)); | |
| 1948 } | |
| 1949 if ((f->flags.documentationp = !NILP (doc_string)) != 0) | |
| 1950 { | |
| 1951 f->doc_and_interactive | |
| 1952 = (UNBOUNDP (f->doc_and_interactive) ? doc_string : | |
| 1953 Fcons (doc_string, f->doc_and_interactive)); | |
| 1954 } | |
| 1955 if (UNBOUNDP (f->doc_and_interactive)) | |
| 1956 f->doc_and_interactive = Qnil; | |
| 1957 | |
| 1958 return fun; | |
| 1959 } | |
| 1960 | |
| 1961 | |
| 1962 /************************************************************************/ | |
| 1963 /* Symbol allocation */ | |
| 1964 /************************************************************************/ | |
| 1965 | |
| 440 | 1966 DECLARE_FIXED_TYPE_ALLOC (symbol, Lisp_Symbol); |
| 428 | 1967 #define MINIMUM_ALLOWED_FIXED_TYPE_CELLS_symbol 1000 |
| 1968 | |
| 1969 DEFUN ("make-symbol", Fmake_symbol, 1, 1, 0, /* | |
| 1970 Return a newly allocated uninterned symbol whose name is NAME. | |
| 1971 Its value and function definition are void, and its property list is nil. | |
| 1972 */ | |
| 1973 (name)) | |
| 1974 { | |
| 440 | 1975 Lisp_Symbol *p; |
| 428 | 1976 |
| 1977 CHECK_STRING (name); | |
| 1978 | |
| 3017 | 1979 ALLOCATE_FIXED_TYPE_AND_SET_IMPL (symbol, Lisp_Symbol, p, &lrecord_symbol); |
| 793 | 1980 p->name = name; |
| 428 | 1981 p->plist = Qnil; |
| 1982 p->value = Qunbound; | |
| 1983 p->function = Qunbound; | |
| 1984 symbol_next (p) = 0; | |
| 793 | 1985 return wrap_symbol (p); |
| 428 | 1986 } |
| 1987 | |
| 1988 | |
| 1989 /************************************************************************/ | |
| 1990 /* Extent allocation */ | |
| 1991 /************************************************************************/ | |
| 1992 | |
| 1993 DECLARE_FIXED_TYPE_ALLOC (extent, struct extent); | |
| 1994 #define MINIMUM_ALLOWED_FIXED_TYPE_CELLS_extent 1000 | |
| 1995 | |
| 1996 struct extent * | |
| 1997 allocate_extent (void) | |
| 1998 { | |
| 1999 struct extent *e; | |
| 2000 | |
| 3017 | 2001 ALLOCATE_FIXED_TYPE_AND_SET_IMPL (extent, struct extent, e, &lrecord_extent); |
| 428 | 2002 extent_object (e) = Qnil; |
| 2003 set_extent_start (e, -1); | |
| 2004 set_extent_end (e, -1); | |
| 2005 e->plist = Qnil; | |
| 2006 | |
| 2007 xzero (e->flags); | |
| 2008 | |
| 2009 extent_face (e) = Qnil; | |
| 2010 e->flags.end_open = 1; /* default is for endpoints to behave like markers */ | |
| 2011 e->flags.detachable = 1; | |
| 2012 | |
| 2013 return e; | |
| 2014 } | |
| 2015 | |
| 2016 | |
| 2017 /************************************************************************/ | |
| 2018 /* Event allocation */ | |
| 2019 /************************************************************************/ | |
| 2020 | |
| 440 | 2021 DECLARE_FIXED_TYPE_ALLOC (event, Lisp_Event); |
| 428 | 2022 #define MINIMUM_ALLOWED_FIXED_TYPE_CELLS_event 1000 |
| 2023 | |
| 2024 Lisp_Object | |
| 2025 allocate_event (void) | |
| 2026 { | |
| 440 | 2027 Lisp_Event *e; |
| 2028 | |
| 3017 | 2029 ALLOCATE_FIXED_TYPE_AND_SET_IMPL (event, Lisp_Event, e, &lrecord_event); |
| 428 | 2030 |
| 793 | 2031 return wrap_event (e); |
| 428 | 2032 } |
| 2033 | |
| 1204 | 2034 #ifdef EVENT_DATA_AS_OBJECTS |
| 934 | 2035 DECLARE_FIXED_TYPE_ALLOC (key_data, Lisp_Key_Data); |
| 2036 #define MINIMUM_ALLOWED_FIXED_TYPE_CELLS_key_data 1000 | |
| 2037 | |
| 2038 Lisp_Object | |
| 1204 | 2039 make_key_data (void) |
| 934 | 2040 { |
| 2041 Lisp_Key_Data *d; | |
| 2042 | |
| 3017 | 2043 ALLOCATE_FIXED_TYPE_AND_SET_IMPL (key_data, Lisp_Key_Data, d, |
| 2044 &lrecord_key_data); | |
| 2045 zero_lrecord (d); | |
| 1204 | 2046 d->keysym = Qnil; |
| 2047 | |
| 2048 return wrap_key_data (d); | |
| 934 | 2049 } |
| 2050 | |
| 2051 DECLARE_FIXED_TYPE_ALLOC (button_data, Lisp_Button_Data); | |
| 2052 #define MINIMUM_ALLOWED_FIXED_TYPE_CELLS_button_data 1000 | |
| 2053 | |
| 2054 Lisp_Object | |
| 1204 | 2055 make_button_data (void) |
| 934 | 2056 { |
| 2057 Lisp_Button_Data *d; | |
| 2058 | |
| 3017 | 2059 ALLOCATE_FIXED_TYPE_AND_SET_IMPL (button_data, Lisp_Button_Data, d, &lrecord_button_data); |
| 2060 zero_lrecord (d); | |
| 1204 | 2061 return wrap_button_data (d); |
| 934 | 2062 } |
| 2063 | |
| 2064 DECLARE_FIXED_TYPE_ALLOC (motion_data, Lisp_Motion_Data); | |
| 2065 #define MINIMUM_ALLOWED_FIXED_TYPE_CELLS_motion_data 1000 | |
| 2066 | |
| 2067 Lisp_Object | |
| 1204 | 2068 make_motion_data (void) |
| 934 | 2069 { |
| 2070 Lisp_Motion_Data *d; | |
| 2071 | |
| 3017 | 2072 ALLOCATE_FIXED_TYPE_AND_SET_IMPL (motion_data, Lisp_Motion_Data, d, &lrecord_motion_data); |
| 2073 zero_lrecord (d); | |
| 934 | 2074 |
| 1204 | 2075 return wrap_motion_data (d); |
| 934 | 2076 } |
| 2077 | |
| 2078 DECLARE_FIXED_TYPE_ALLOC (process_data, Lisp_Process_Data); | |
| 2079 #define MINIMUM_ALLOWED_FIXED_TYPE_CELLS_process_data 1000 | |
| 2080 | |
| 2081 Lisp_Object | |
| 1204 | 2082 make_process_data (void) |
| 934 | 2083 { |
| 2084 Lisp_Process_Data *d; | |
| 2085 | |
| 3017 | 2086 ALLOCATE_FIXED_TYPE_AND_SET_IMPL (process_data, Lisp_Process_Data, d, &lrecord_process_data); |
| 2087 zero_lrecord (d); | |
| 1204 | 2088 d->process = Qnil; |
| 2089 | |
| 2090 return wrap_process_data (d); | |
| 934 | 2091 } |
| 2092 | |
| 2093 DECLARE_FIXED_TYPE_ALLOC (timeout_data, Lisp_Timeout_Data); | |
| 2094 #define MINIMUM_ALLOWED_FIXED_TYPE_CELLS_timeout_data 1000 | |
| 2095 | |
| 2096 Lisp_Object | |
| 1204 | 2097 make_timeout_data (void) |
| 934 | 2098 { |
| 2099 Lisp_Timeout_Data *d; | |
| 2100 | |
| 3017 | 2101 ALLOCATE_FIXED_TYPE_AND_SET_IMPL (timeout_data, Lisp_Timeout_Data, d, &lrecord_timeout_data); |
| 2102 zero_lrecord (d); | |
| 1204 | 2103 d->function = Qnil; |
| 2104 d->object = Qnil; | |
| 2105 | |
| 2106 return wrap_timeout_data (d); | |
| 934 | 2107 } |
| 2108 | |
| 2109 DECLARE_FIXED_TYPE_ALLOC (magic_data, Lisp_Magic_Data); | |
| 2110 #define MINIMUM_ALLOWED_FIXED_TYPE_CELLS_magic_data 1000 | |
| 2111 | |
| 2112 Lisp_Object | |
| 1204 | 2113 make_magic_data (void) |
| 934 | 2114 { |
| 2115 Lisp_Magic_Data *d; | |
| 2116 | |
| 3017 | 2117 ALLOCATE_FIXED_TYPE_AND_SET_IMPL (magic_data, Lisp_Magic_Data, d, &lrecord_magic_data); |
| 2118 zero_lrecord (d); | |
| 934 | 2119 |
| 1204 | 2120 return wrap_magic_data (d); |
| 934 | 2121 } |
| 2122 | |
| 2123 DECLARE_FIXED_TYPE_ALLOC (magic_eval_data, Lisp_Magic_Eval_Data); | |
| 2124 #define MINIMUM_ALLOWED_FIXED_TYPE_CELLS_magic_eval_data 1000 | |
| 2125 | |
| 2126 Lisp_Object | |
| 1204 | 2127 make_magic_eval_data (void) |
| 934 | 2128 { |
| 2129 Lisp_Magic_Eval_Data *d; | |
| 2130 | |
| 3017 | 2131 ALLOCATE_FIXED_TYPE_AND_SET_IMPL (magic_eval_data, Lisp_Magic_Eval_Data, d, &lrecord_magic_eval_data); |
| 2132 zero_lrecord (d); | |
| 1204 | 2133 d->object = Qnil; |
| 2134 | |
| 2135 return wrap_magic_eval_data (d); | |
| 934 | 2136 } |
| 2137 | |
| 2138 DECLARE_FIXED_TYPE_ALLOC (eval_data, Lisp_Eval_Data); | |
| 2139 #define MINIMUM_ALLOWED_FIXED_TYPE_CELLS_eval_data 1000 | |
| 2140 | |
| 2141 Lisp_Object | |
| 1204 | 2142 make_eval_data (void) |
| 934 | 2143 { |
| 2144 Lisp_Eval_Data *d; | |
| 2145 | |
| 3017 | 2146 ALLOCATE_FIXED_TYPE_AND_SET_IMPL (eval_data, Lisp_Eval_Data, d, &lrecord_eval_data); |
| 2147 zero_lrecord (d); | |
| 1204 | 2148 d->function = Qnil; |
| 2149 d->object = Qnil; | |
| 2150 | |
| 2151 return wrap_eval_data (d); | |
| 934 | 2152 } |
| 2153 | |
| 2154 DECLARE_FIXED_TYPE_ALLOC (misc_user_data, Lisp_Misc_User_Data); | |
| 2155 #define MINIMUM_ALLOWED_FIXED_TYPE_CELLS_misc_user_data 1000 | |
| 2156 | |
| 2157 Lisp_Object | |
| 1204 | 2158 make_misc_user_data (void) |
| 934 | 2159 { |
| 2160 Lisp_Misc_User_Data *d; | |
| 2161 | |
| 3017 | 2162 ALLOCATE_FIXED_TYPE_AND_SET_IMPL (misc_user_data, Lisp_Misc_User_Data, d, &lrecord_misc_user_data); |
| 2163 zero_lrecord (d); | |
| 1204 | 2164 d->function = Qnil; |
| 2165 d->object = Qnil; | |
| 2166 | |
| 2167 return wrap_misc_user_data (d); | |
| 934 | 2168 } |
| 1204 | 2169 |
| 2170 #endif /* EVENT_DATA_AS_OBJECTS */ | |
| 428 | 2171 |
| 2172 /************************************************************************/ | |
| 2173 /* Marker allocation */ | |
| 2174 /************************************************************************/ | |
| 2175 | |
| 440 | 2176 DECLARE_FIXED_TYPE_ALLOC (marker, Lisp_Marker); |
| 428 | 2177 #define MINIMUM_ALLOWED_FIXED_TYPE_CELLS_marker 1000 |
| 2178 | |
| 2179 DEFUN ("make-marker", Fmake_marker, 0, 0, 0, /* | |
| 2180 Return a new marker which does not point at any place. | |
| 2181 */ | |
| 2182 ()) | |
| 2183 { | |
| 440 | 2184 Lisp_Marker *p; |
| 2185 | |
| 3017 | 2186 ALLOCATE_FIXED_TYPE_AND_SET_IMPL (marker, Lisp_Marker, p, &lrecord_marker); |
| 428 | 2187 p->buffer = 0; |
| 665 | 2188 p->membpos = 0; |
| 428 | 2189 marker_next (p) = 0; |
| 2190 marker_prev (p) = 0; | |
| 2191 p->insertion_type = 0; | |
| 793 | 2192 return wrap_marker (p); |
| 428 | 2193 } |
| 2194 | |
| 2195 Lisp_Object | |
| 2196 noseeum_make_marker (void) | |
| 2197 { | |
| 440 | 2198 Lisp_Marker *p; |
| 2199 | |
| 3017 | 2200 NOSEEUM_ALLOCATE_FIXED_TYPE_AND_SET_IMPL (marker, Lisp_Marker, p, |
| 2201 &lrecord_marker); | |
| 428 | 2202 p->buffer = 0; |
| 665 | 2203 p->membpos = 0; |
| 428 | 2204 marker_next (p) = 0; |
| 2205 marker_prev (p) = 0; | |
| 2206 p->insertion_type = 0; | |
| 793 | 2207 return wrap_marker (p); |
| 428 | 2208 } |
| 2209 | |
| 2210 | |
| 2211 /************************************************************************/ | |
| 2212 /* String allocation */ | |
| 2213 /************************************************************************/ | |
| 2214 | |
| 2215 /* The data for "short" strings generally resides inside of structs of type | |
| 2216 string_chars_block. The Lisp_String structure is allocated just like any | |
| 1204 | 2217 other basic lrecord, and these are freelisted when they get garbage |
| 2218 collected. The data for short strings get compacted, but the data for | |
| 2219 large strings do not. | |
| 428 | 2220 |
| 2221 Previously Lisp_String structures were relocated, but this caused a lot | |
| 2222 of bus-errors because the C code didn't include enough GCPRO's for | |
| 2223 strings (since EVERY REFERENCE to a short string needed to be GCPRO'd so | |
| 2224 that the reference would get relocated). | |
| 2225 | |
| 2226 This new method makes things somewhat bigger, but it is MUCH safer. */ | |
| 2227 | |
| 438 | 2228 DECLARE_FIXED_TYPE_ALLOC (string, Lisp_String); |
| 428 | 2229 /* strings are used and freed quite often */ |
| 2230 /* #define MINIMUM_ALLOWED_FIXED_TYPE_CELLS_string 10000 */ | |
| 2231 #define MINIMUM_ALLOWED_FIXED_TYPE_CELLS_string 1000 | |
| 2232 | |
| 2233 static Lisp_Object | |
| 2234 mark_string (Lisp_Object obj) | |
| 2235 { | |
| 793 | 2236 if (CONSP (XSTRING_PLIST (obj)) && EXTENT_INFOP (XCAR (XSTRING_PLIST (obj)))) |
| 2237 flush_cached_extent_info (XCAR (XSTRING_PLIST (obj))); | |
| 2238 return XSTRING_PLIST (obj); | |
| 428 | 2239 } |
| 2240 | |
| 2241 static int | |
|
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|
2242 string_equal (Lisp_Object obj1, Lisp_Object obj2, int UNUSED (depth), |
|
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|
2243 int foldcase) |
| 428 | 2244 { |
| 2245 Bytecount len; | |
|
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|
2246 if (foldcase) |
|
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|
2247 return !lisp_strcasecmp_i18n (obj1, obj2); |
|
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|
2248 else |
|
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2249 return (((len = XSTRING_LENGTH (obj1)) == XSTRING_LENGTH (obj2)) && |
|
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|
2250 !memcmp (XSTRING_DATA (obj1), XSTRING_DATA (obj2), len)); |
| 428 | 2251 } |
| 2252 | |
| 1204 | 2253 static const struct memory_description string_description[] = { |
| 3092 | 2254 #ifdef NEW_GC |
| 2255 { XD_LISP_OBJECT, offsetof (Lisp_String, data_object) }, | |
| 2256 #else /* not NEW_GC */ | |
| 793 | 2257 { XD_BYTECOUNT, offsetof (Lisp_String, size_) }, |
| 2258 { XD_OPAQUE_DATA_PTR, offsetof (Lisp_String, data_), XD_INDIRECT(0, 1) }, | |
| 3092 | 2259 #endif /* not NEW_GC */ |
| 440 | 2260 { XD_LISP_OBJECT, offsetof (Lisp_String, plist) }, |
| 428 | 2261 { XD_END } |
| 2262 }; | |
| 2263 | |
| 442 | 2264 /* We store the string's extent info as the first element of the string's |
| 2265 property list; and the string's MODIFF as the first or second element | |
| 2266 of the string's property list (depending on whether the extent info | |
| 2267 is present), but only if the string has been modified. This is ugly | |
| 2268 but it reduces the memory allocated for the string in the vast | |
| 2269 majority of cases, where the string is never modified and has no | |
| 2270 extent info. | |
| 2271 | |
| 2272 #### This means you can't use an int as a key in a string's plist. */ | |
| 2273 | |
| 2274 static Lisp_Object * | |
| 2275 string_plist_ptr (Lisp_Object string) | |
| 2276 { | |
| 793 | 2277 Lisp_Object *ptr = &XSTRING_PLIST (string); |
| 442 | 2278 |
| 2279 if (CONSP (*ptr) && EXTENT_INFOP (XCAR (*ptr))) | |
| 2280 ptr = &XCDR (*ptr); | |
| 2281 if (CONSP (*ptr) && INTP (XCAR (*ptr))) | |
| 2282 ptr = &XCDR (*ptr); | |
| 2283 return ptr; | |
| 2284 } | |
| 2285 | |
| 2286 static Lisp_Object | |
| 2287 string_getprop (Lisp_Object string, Lisp_Object property) | |
| 2288 { | |
| 2289 return external_plist_get (string_plist_ptr (string), property, 0, ERROR_ME); | |
| 2290 } | |
| 2291 | |
| 2292 static int | |
| 2293 string_putprop (Lisp_Object string, Lisp_Object property, Lisp_Object value) | |
| 2294 { | |
| 2295 external_plist_put (string_plist_ptr (string), property, value, 0, ERROR_ME); | |
| 2296 return 1; | |
| 2297 } | |
| 2298 | |
| 2299 static int | |
| 2300 string_remprop (Lisp_Object string, Lisp_Object property) | |
| 2301 { | |
| 2302 return external_remprop (string_plist_ptr (string), property, 0, ERROR_ME); | |
| 2303 } | |
| 2304 | |
| 2305 static Lisp_Object | |
| 2306 string_plist (Lisp_Object string) | |
| 2307 { | |
| 2308 return *string_plist_ptr (string); | |
| 2309 } | |
| 2310 | |
| 3263 | 2311 #ifndef NEW_GC |
| 442 | 2312 /* No `finalize', or `hash' methods. |
| 2313 internal_hash() already knows how to hash strings and finalization | |
| 2314 is done with the ADDITIONAL_FREE_string macro, which is the | |
| 2315 standard way to do finalization when using | |
| 2316 SWEEP_FIXED_TYPE_BLOCK(). */ | |
| 2720 | 2317 |
| 934 | 2318 DEFINE_BASIC_LRECORD_IMPLEMENTATION_WITH_PROPS ("string", string, |
| 2319 1, /*dumpable-flag*/ | |
| 2320 mark_string, print_string, | |
| 2321 0, string_equal, 0, | |
| 2322 string_description, | |
| 2323 string_getprop, | |
| 2324 string_putprop, | |
| 2325 string_remprop, | |
| 2326 string_plist, | |
| 2327 Lisp_String); | |
| 3263 | 2328 #endif /* not NEW_GC */ |
| 2720 | 2329 |
| 3092 | 2330 #ifdef NEW_GC |
| 2331 #define STRING_FULLSIZE(size) \ | |
| 2332 ALIGN_SIZE (FLEXIBLE_ARRAY_STRUCT_SIZEOF (Lisp_String_Direct_Data, Lisp_Object, data, (size) + 1), sizeof (Lisp_Object *)); | |
| 2333 #else /* not NEW_GC */ | |
| 428 | 2334 /* String blocks contain this many useful bytes. */ |
| 2335 #define STRING_CHARS_BLOCK_SIZE \ | |
| 814 | 2336 ((Bytecount) (8192 - MALLOC_OVERHEAD - \ |
| 2337 ((2 * sizeof (struct string_chars_block *)) \ | |
| 2338 + sizeof (EMACS_INT)))) | |
| 428 | 2339 /* Block header for small strings. */ |
| 2340 struct string_chars_block | |
| 2341 { | |
| 2342 EMACS_INT pos; | |
| 2343 struct string_chars_block *next; | |
| 2344 struct string_chars_block *prev; | |
| 2345 /* Contents of string_chars_block->string_chars are interleaved | |
| 2346 string_chars structures (see below) and the actual string data */ | |
| 2347 unsigned char string_chars[STRING_CHARS_BLOCK_SIZE]; | |
| 2348 }; | |
| 2349 | |
| 2350 static struct string_chars_block *first_string_chars_block; | |
| 2351 static struct string_chars_block *current_string_chars_block; | |
| 2352 | |
| 2353 /* If SIZE is the length of a string, this returns how many bytes | |
| 2354 * the string occupies in string_chars_block->string_chars | |
| 2355 * (including alignment padding). | |
| 2356 */ | |
| 438 | 2357 #define STRING_FULLSIZE(size) \ |
| 826 | 2358 ALIGN_FOR_TYPE (((size) + 1 + sizeof (Lisp_String *)), Lisp_String *) |
| 428 | 2359 |
| 2360 #define BIG_STRING_FULLSIZE_P(fullsize) ((fullsize) >= STRING_CHARS_BLOCK_SIZE) | |
| 2361 #define BIG_STRING_SIZE_P(size) (BIG_STRING_FULLSIZE_P (STRING_FULLSIZE(size))) | |
| 2362 | |
| 454 | 2363 #define STRING_CHARS_FREE_P(ptr) ((ptr)->string == NULL) |
| 2364 #define MARK_STRING_CHARS_AS_FREE(ptr) ((void) ((ptr)->string = NULL)) | |
| 3092 | 2365 #endif /* not NEW_GC */ |
| 454 | 2366 |
| 3263 | 2367 #ifdef NEW_GC |
| 3092 | 2368 DEFINE_LRECORD_IMPLEMENTATION_WITH_PROPS ("string", string, |
| 2369 1, /*dumpable-flag*/ | |
| 2370 mark_string, print_string, | |
| 2371 0, | |
| 2372 string_equal, 0, | |
| 2373 string_description, | |
| 2374 string_getprop, | |
| 2375 string_putprop, | |
| 2376 string_remprop, | |
| 2377 string_plist, | |
| 2378 Lisp_String); | |
| 2379 | |
| 2380 | |
| 2381 static const struct memory_description string_direct_data_description[] = { | |
| 3514 | 2382 { XD_BYTECOUNT, offsetof (Lisp_String_Direct_Data, size) }, |
| 3092 | 2383 { XD_END } |
| 2384 }; | |
| 2385 | |
| 2386 static Bytecount | |
| 2387 size_string_direct_data (const void *lheader) | |
| 2388 { | |
| 2389 return STRING_FULLSIZE (((Lisp_String_Direct_Data *) lheader)->size); | |
| 2390 } | |
| 2391 | |
| 2392 | |
| 2393 DEFINE_LRECORD_SEQUENCE_IMPLEMENTATION ("string-direct-data", | |
| 2394 string_direct_data, | |
| 2395 1, /*dumpable-flag*/ | |
| 2396 0, 0, 0, 0, 0, | |
| 2397 string_direct_data_description, | |
| 2398 size_string_direct_data, | |
| 2399 Lisp_String_Direct_Data); | |
| 2400 | |
| 2401 | |
| 2402 static const struct memory_description string_indirect_data_description[] = { | |
| 2403 { XD_BYTECOUNT, offsetof (Lisp_String_Indirect_Data, size) }, | |
| 2404 { XD_OPAQUE_DATA_PTR, offsetof (Lisp_String_Indirect_Data, data), | |
| 2405 XD_INDIRECT(0, 1) }, | |
| 2406 { XD_END } | |
| 2407 }; | |
| 2408 | |
| 2409 DEFINE_LRECORD_IMPLEMENTATION ("string-indirect-data", | |
| 2410 string_indirect_data, | |
| 2411 1, /*dumpable-flag*/ | |
| 2412 0, 0, 0, 0, 0, | |
| 2413 string_indirect_data_description, | |
| 2414 Lisp_String_Indirect_Data); | |
| 2415 #endif /* NEW_GC */ | |
| 2720 | 2416 |
| 3092 | 2417 #ifndef NEW_GC |
| 428 | 2418 struct string_chars |
| 2419 { | |
| 438 | 2420 Lisp_String *string; |
| 428 | 2421 unsigned char chars[1]; |
| 2422 }; | |
| 2423 | |
| 2424 struct unused_string_chars | |
| 2425 { | |
| 438 | 2426 Lisp_String *string; |
| 428 | 2427 EMACS_INT fullsize; |
| 2428 }; | |
| 2429 | |
| 2430 static void | |
| 2431 init_string_chars_alloc (void) | |
| 2432 { | |
| 2433 first_string_chars_block = xnew (struct string_chars_block); | |
| 2434 first_string_chars_block->prev = 0; | |
| 2435 first_string_chars_block->next = 0; | |
| 2436 first_string_chars_block->pos = 0; | |
| 2437 current_string_chars_block = first_string_chars_block; | |
| 2438 } | |
| 2439 | |
| 1550 | 2440 static Ibyte * |
| 2441 allocate_big_string_chars (Bytecount length) | |
| 2442 { | |
| 2443 Ibyte *p = xnew_array (Ibyte, length); | |
| 2444 INCREMENT_CONS_COUNTER (length, "string chars"); | |
| 2445 return p; | |
| 2446 } | |
| 2447 | |
| 428 | 2448 static struct string_chars * |
| 793 | 2449 allocate_string_chars_struct (Lisp_Object string_it_goes_with, |
| 814 | 2450 Bytecount fullsize) |
| 428 | 2451 { |
| 2452 struct string_chars *s_chars; | |
| 2453 | |
| 438 | 2454 if (fullsize <= |
| 2455 (countof (current_string_chars_block->string_chars) | |
| 2456 - current_string_chars_block->pos)) | |
| 428 | 2457 { |
| 2458 /* This string can fit in the current string chars block */ | |
| 2459 s_chars = (struct string_chars *) | |
| 2460 (current_string_chars_block->string_chars | |
| 2461 + current_string_chars_block->pos); | |
| 2462 current_string_chars_block->pos += fullsize; | |
| 2463 } | |
| 2464 else | |
| 2465 { | |
| 2466 /* Make a new current string chars block */ | |
| 2467 struct string_chars_block *new_scb = xnew (struct string_chars_block); | |
| 2468 | |
| 2469 current_string_chars_block->next = new_scb; | |
| 2470 new_scb->prev = current_string_chars_block; | |
| 2471 new_scb->next = 0; | |
| 2472 current_string_chars_block = new_scb; | |
| 2473 new_scb->pos = fullsize; | |
| 2474 s_chars = (struct string_chars *) | |
| 2475 current_string_chars_block->string_chars; | |
| 2476 } | |
| 2477 | |
| 793 | 2478 s_chars->string = XSTRING (string_it_goes_with); |
| 428 | 2479 |
| 2480 INCREMENT_CONS_COUNTER (fullsize, "string chars"); | |
| 2481 | |
| 2482 return s_chars; | |
| 2483 } | |
| 3092 | 2484 #endif /* not NEW_GC */ |
| 428 | 2485 |
| 771 | 2486 #ifdef SLEDGEHAMMER_CHECK_ASCII_BEGIN |
| 2487 void | |
| 2488 sledgehammer_check_ascii_begin (Lisp_Object str) | |
| 2489 { | |
| 2490 Bytecount i; | |
| 2491 | |
| 2492 for (i = 0; i < XSTRING_LENGTH (str); i++) | |
| 2493 { | |
| 826 | 2494 if (!byte_ascii_p (string_byte (str, i))) |
| 771 | 2495 break; |
| 2496 } | |
| 2497 | |
| 2498 assert (i == (Bytecount) XSTRING_ASCII_BEGIN (str) || | |
| 2499 (i > MAX_STRING_ASCII_BEGIN && | |
| 2500 (Bytecount) XSTRING_ASCII_BEGIN (str) == | |
| 2501 (Bytecount) MAX_STRING_ASCII_BEGIN)); | |
| 2502 } | |
| 2503 #endif | |
| 2504 | |
| 2505 /* You do NOT want to be calling this! (And if you do, you must call | |
| 851 | 2506 XSET_STRING_ASCII_BEGIN() after modifying the string.) Use ALLOCA () |
| 771 | 2507 instead and then call make_string() like the rest of the world. */ |
| 2508 | |
| 428 | 2509 Lisp_Object |
| 2510 make_uninit_string (Bytecount length) | |
| 2511 { | |
| 438 | 2512 Lisp_String *s; |
| 814 | 2513 Bytecount fullsize = STRING_FULLSIZE (length); |
| 428 | 2514 |
| 438 | 2515 assert (length >= 0 && fullsize > 0); |
| 428 | 2516 |
| 3263 | 2517 #ifdef NEW_GC |
| 2720 | 2518 s = alloc_lrecord_type (Lisp_String, &lrecord_string); |
| 3263 | 2519 #else /* not NEW_GC */ |
| 428 | 2520 /* Allocate the string header */ |
| 438 | 2521 ALLOCATE_FIXED_TYPE (string, Lisp_String, s); |
| 793 | 2522 xzero (*s); |
| 771 | 2523 set_lheader_implementation (&s->u.lheader, &lrecord_string); |
| 3263 | 2524 #endif /* not NEW_GC */ |
| 2720 | 2525 |
| 3063 | 2526 /* The above allocations set the UID field, which overlaps with the |
| 2527 ascii-length field, to some non-zero value. We need to zero it. */ | |
| 2528 XSET_STRING_ASCII_BEGIN (wrap_string (s), 0); | |
| 2529 | |
| 3092 | 2530 #ifdef NEW_GC |
| 3304 | 2531 set_lispstringp_direct (s); |
| 3092 | 2532 STRING_DATA_OBJECT (s) = |
| 2533 wrap_string_direct_data (alloc_lrecord (fullsize, | |
| 2534 &lrecord_string_direct_data)); | |
| 2535 #else /* not NEW_GC */ | |
| 826 | 2536 set_lispstringp_data (s, BIG_STRING_FULLSIZE_P (fullsize) |
| 2720 | 2537 ? allocate_big_string_chars (length + 1) |
| 2538 : allocate_string_chars_struct (wrap_string (s), | |
| 2539 fullsize)->chars); | |
| 3092 | 2540 #endif /* not NEW_GC */ |
| 438 | 2541 |
| 826 | 2542 set_lispstringp_length (s, length); |
| 428 | 2543 s->plist = Qnil; |
| 793 | 2544 set_string_byte (wrap_string (s), length, 0); |
| 2545 | |
| 2546 return wrap_string (s); | |
| 428 | 2547 } |
| 2548 | |
| 2549 #ifdef VERIFY_STRING_CHARS_INTEGRITY | |
| 2550 static void verify_string_chars_integrity (void); | |
| 2551 #endif | |
| 2552 | |
| 2553 /* Resize the string S so that DELTA bytes can be inserted starting | |
| 2554 at POS. If DELTA < 0, it means deletion starting at POS. If | |
| 2555 POS < 0, resize the string but don't copy any characters. Use | |
| 2556 this if you're planning on completely overwriting the string. | |
| 2557 */ | |
| 2558 | |
| 2559 void | |
| 793 | 2560 resize_string (Lisp_Object s, Bytecount pos, Bytecount delta) |
| 428 | 2561 { |
| 3092 | 2562 #ifdef NEW_GC |
| 2563 Bytecount newfullsize, len; | |
| 2564 #else /* not NEW_GC */ | |
| 438 | 2565 Bytecount oldfullsize, newfullsize; |
| 3092 | 2566 #endif /* not NEW_GC */ |
| 428 | 2567 #ifdef VERIFY_STRING_CHARS_INTEGRITY |
| 2568 verify_string_chars_integrity (); | |
| 2569 #endif | |
| 800 | 2570 #ifdef ERROR_CHECK_TEXT |
| 428 | 2571 if (pos >= 0) |
| 2572 { | |
| 793 | 2573 assert (pos <= XSTRING_LENGTH (s)); |
| 428 | 2574 if (delta < 0) |
| 793 | 2575 assert (pos + (-delta) <= XSTRING_LENGTH (s)); |
| 428 | 2576 } |
| 2577 else | |
| 2578 { | |
| 2579 if (delta < 0) | |
| 793 | 2580 assert ((-delta) <= XSTRING_LENGTH (s)); |
| 428 | 2581 } |
| 800 | 2582 #endif /* ERROR_CHECK_TEXT */ |
| 428 | 2583 |
| 2584 if (delta == 0) | |
| 2585 /* simplest case: no size change. */ | |
| 2586 return; | |
| 438 | 2587 |
| 2588 if (pos >= 0 && delta < 0) | |
| 2589 /* If DELTA < 0, the functions below will delete the characters | |
| 2590 before POS. We want to delete characters *after* POS, however, | |
| 2591 so convert this to the appropriate form. */ | |
| 2592 pos += -delta; | |
| 2593 | |
| 3092 | 2594 #ifdef NEW_GC |
| 2595 newfullsize = STRING_FULLSIZE (XSTRING_LENGTH (s) + delta); | |
| 2596 | |
| 2597 len = XSTRING_LENGTH (s) + 1 - pos; | |
| 2598 | |
| 2599 if (delta < 0 && pos >= 0) | |
| 2600 memmove (XSTRING_DATA (s) + pos + delta, | |
| 2601 XSTRING_DATA (s) + pos, len); | |
| 2602 | |
| 2603 XSTRING_DATA_OBJECT (s) = | |
| 2604 wrap_string_direct_data (mc_realloc (XPNTR (XSTRING_DATA_OBJECT (s)), | |
| 2605 newfullsize)); | |
| 2606 if (delta > 0 && pos >= 0) | |
| 2607 memmove (XSTRING_DATA (s) + pos + delta, XSTRING_DATA (s) + pos, | |
| 2608 len); | |
| 2609 | |
| 3263 | 2610 #else /* not NEW_GC */ |
| 793 | 2611 oldfullsize = STRING_FULLSIZE (XSTRING_LENGTH (s)); |
| 2612 newfullsize = STRING_FULLSIZE (XSTRING_LENGTH (s) + delta); | |
| 438 | 2613 |
| 2614 if (BIG_STRING_FULLSIZE_P (oldfullsize)) | |
| 428 | 2615 { |
| 438 | 2616 if (BIG_STRING_FULLSIZE_P (newfullsize)) |
| 428 | 2617 { |
| 440 | 2618 /* Both strings are big. We can just realloc(). |
| 2619 But careful! If the string is shrinking, we have to | |
| 2620 memmove() _before_ realloc(), and if growing, we have to | |
| 2621 memmove() _after_ realloc() - otherwise the access is | |
| 2622 illegal, and we might crash. */ | |
| 793 | 2623 Bytecount len = XSTRING_LENGTH (s) + 1 - pos; |
| 440 | 2624 |
| 2625 if (delta < 0 && pos >= 0) | |
| 793 | 2626 memmove (XSTRING_DATA (s) + pos + delta, |
| 2627 XSTRING_DATA (s) + pos, len); | |
| 2628 XSET_STRING_DATA | |
| 867 | 2629 (s, (Ibyte *) xrealloc (XSTRING_DATA (s), |
| 793 | 2630 XSTRING_LENGTH (s) + delta + 1)); |
| 440 | 2631 if (delta > 0 && pos >= 0) |
| 793 | 2632 memmove (XSTRING_DATA (s) + pos + delta, XSTRING_DATA (s) + pos, |
| 2633 len); | |
| 1550 | 2634 /* Bump the cons counter. |
| 2635 Conservative; Martin let the increment be delta. */ | |
| 2636 INCREMENT_CONS_COUNTER (newfullsize, "string chars"); | |
| 428 | 2637 } |
| 438 | 2638 else /* String has been demoted from BIG_STRING. */ |
| 428 | 2639 { |
| 867 | 2640 Ibyte *new_data = |
| 438 | 2641 allocate_string_chars_struct (s, newfullsize)->chars; |
| 867 | 2642 Ibyte *old_data = XSTRING_DATA (s); |
| 438 | 2643 |
| 2644 if (pos >= 0) | |
| 2645 { | |
| 2646 memcpy (new_data, old_data, pos); | |
| 2647 memcpy (new_data + pos + delta, old_data + pos, | |
| 793 | 2648 XSTRING_LENGTH (s) + 1 - pos); |
| 438 | 2649 } |
| 793 | 2650 XSET_STRING_DATA (s, new_data); |
|
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Ben Wing <ben@xemacs.org>
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4969
diff
changeset
|
2651 xfree (old_data); |
| 438 | 2652 } |
| 2653 } | |
| 2654 else /* old string is small */ | |
| 2655 { | |
| 2656 if (oldfullsize == newfullsize) | |
| 2657 { | |
| 2658 /* special case; size change but the necessary | |
| 2659 allocation size won't change (up or down; code | |
| 2660 somewhere depends on there not being any unused | |
| 2661 allocation space, modulo any alignment | |
| 2662 constraints). */ | |
| 428 | 2663 if (pos >= 0) |
| 2664 { | |
| 867 | 2665 Ibyte *addroff = pos + XSTRING_DATA (s); |
| 428 | 2666 |
| 2667 memmove (addroff + delta, addroff, | |
| 2668 /* +1 due to zero-termination. */ | |
| 793 | 2669 XSTRING_LENGTH (s) + 1 - pos); |
| 428 | 2670 } |
| 2671 } | |
| 2672 else | |
| 2673 { | |
| 867 | 2674 Ibyte *old_data = XSTRING_DATA (s); |
| 2675 Ibyte *new_data = | |
| 438 | 2676 BIG_STRING_FULLSIZE_P (newfullsize) |
| 1550 | 2677 ? allocate_big_string_chars (XSTRING_LENGTH (s) + delta + 1) |
| 438 | 2678 : allocate_string_chars_struct (s, newfullsize)->chars; |
| 2679 | |
| 428 | 2680 if (pos >= 0) |
| 2681 { | |
| 438 | 2682 memcpy (new_data, old_data, pos); |
| 2683 memcpy (new_data + pos + delta, old_data + pos, | |
| 793 | 2684 XSTRING_LENGTH (s) + 1 - pos); |
| 428 | 2685 } |
| 793 | 2686 XSET_STRING_DATA (s, new_data); |
| 438 | 2687 |
|
4776
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4735
diff
changeset
|
2688 if (!DUMPEDP (old_data)) /* Can't free dumped data. */ |
|
73e8632018ad
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4735
diff
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|
2689 { |
|
73e8632018ad
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4735
diff
changeset
|
2690 /* We need to mark this chunk of the string_chars_block |
|
73e8632018ad
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4735
diff
changeset
|
2691 as unused so that compact_string_chars() doesn't |
|
73e8632018ad
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4735
diff
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|
2692 freak. */ |
|
73e8632018ad
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4735
diff
changeset
|
2693 struct string_chars *old_s_chars = (struct string_chars *) |
|
73e8632018ad
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Aidan Kehoe <kehoea@parhasard.net>
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4735
diff
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|
2694 ((char *) old_data - offsetof (struct string_chars, chars)); |
|
73e8632018ad
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4735
diff
changeset
|
2695 /* Sanity check to make sure we aren't hosed by strange |
|
73e8632018ad
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Aidan Kehoe <kehoea@parhasard.net>
parents:
4735
diff
changeset
|
2696 alignment/padding. */ |
|
73e8632018ad
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Aidan Kehoe <kehoea@parhasard.net>
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4735
diff
changeset
|
2697 assert (old_s_chars->string == XSTRING (s)); |
|
73e8632018ad
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Aidan Kehoe <kehoea@parhasard.net>
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4735
diff
changeset
|
2698 MARK_STRING_CHARS_AS_FREE (old_s_chars); |
|
73e8632018ad
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4735
diff
changeset
|
2699 ((struct unused_string_chars *) old_s_chars)->fullsize = |
|
73e8632018ad
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Aidan Kehoe <kehoea@parhasard.net>
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4735
diff
changeset
|
2700 oldfullsize; |
|
73e8632018ad
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4735
diff
changeset
|
2701 } |
| 428 | 2702 } |
| 438 | 2703 } |
| 3092 | 2704 #endif /* not NEW_GC */ |
| 438 | 2705 |
| 793 | 2706 XSET_STRING_LENGTH (s, XSTRING_LENGTH (s) + delta); |
| 438 | 2707 /* If pos < 0, the string won't be zero-terminated. |
| 2708 Terminate now just to make sure. */ | |
| 793 | 2709 XSTRING_DATA (s)[XSTRING_LENGTH (s)] = '\0'; |
| 438 | 2710 |
| 2711 if (pos >= 0) | |
| 793 | 2712 /* We also have to adjust all of the extent indices after the |
| 2713 place we did the change. We say "pos - 1" because | |
| 2714 adjust_extents() is exclusive of the starting position | |
| 2715 passed to it. */ | |
| 2716 adjust_extents (s, pos - 1, XSTRING_LENGTH (s), delta); | |
| 428 | 2717 |
| 2718 #ifdef VERIFY_STRING_CHARS_INTEGRITY | |
| 2719 verify_string_chars_integrity (); | |
| 2720 #endif | |
| 2721 } | |
| 2722 | |
| 2723 #ifdef MULE | |
| 2724 | |
| 771 | 2725 /* WARNING: If you modify an existing string, you must call |
| 2726 CHECK_LISP_WRITEABLE() before and bump_string_modiff() afterwards. */ | |
| 428 | 2727 void |
| 867 | 2728 set_string_char (Lisp_Object s, Charcount i, Ichar c) |
| 428 | 2729 { |
| 867 | 2730 Ibyte newstr[MAX_ICHAR_LEN]; |
| 771 | 2731 Bytecount bytoff = string_index_char_to_byte (s, i); |
| 867 | 2732 Bytecount oldlen = itext_ichar_len (XSTRING_DATA (s) + bytoff); |
| 2733 Bytecount newlen = set_itext_ichar (newstr, c); | |
| 428 | 2734 |
| 793 | 2735 sledgehammer_check_ascii_begin (s); |
| 428 | 2736 if (oldlen != newlen) |
| 2737 resize_string (s, bytoff, newlen - oldlen); | |
| 793 | 2738 /* Remember, XSTRING_DATA (s) might have changed so we can't cache it. */ |
| 2739 memcpy (XSTRING_DATA (s) + bytoff, newstr, newlen); | |
| 771 | 2740 if (oldlen != newlen) |
| 2741 { | |
| 793 | 2742 if (newlen > 1 && i <= (Charcount) XSTRING_ASCII_BEGIN (s)) |
| 771 | 2743 /* Everything starting with the new char is no longer part of |
| 2744 ascii_begin */ | |
| 793 | 2745 XSET_STRING_ASCII_BEGIN (s, i); |
| 2746 else if (newlen == 1 && i == (Charcount) XSTRING_ASCII_BEGIN (s)) | |
| 771 | 2747 /* We've extended ascii_begin, and we have to figure out how much by */ |
| 2748 { | |
| 2749 Bytecount j; | |
| 814 | 2750 for (j = (Bytecount) i + 1; j < XSTRING_LENGTH (s); j++) |
| 771 | 2751 { |
| 826 | 2752 if (!byte_ascii_p (XSTRING_DATA (s)[j])) |
| 771 | 2753 break; |
| 2754 } | |
| 814 | 2755 XSET_STRING_ASCII_BEGIN (s, min (j, (Bytecount) MAX_STRING_ASCII_BEGIN)); |
| 771 | 2756 } |
| 2757 } | |
| 793 | 2758 sledgehammer_check_ascii_begin (s); |
| 428 | 2759 } |
| 2760 | |
| 2761 #endif /* MULE */ | |
| 2762 | |
| 2763 DEFUN ("make-string", Fmake_string, 2, 2, 0, /* | |
| 444 | 2764 Return a new string consisting of LENGTH copies of CHARACTER. |
| 2765 LENGTH must be a non-negative integer. | |
| 428 | 2766 */ |
| 444 | 2767 (length, character)) |
| 428 | 2768 { |
| 2769 CHECK_NATNUM (length); | |
| 444 | 2770 CHECK_CHAR_COERCE_INT (character); |
| 428 | 2771 { |
| 867 | 2772 Ibyte init_str[MAX_ICHAR_LEN]; |
| 2773 int len = set_itext_ichar (init_str, XCHAR (character)); | |
| 428 | 2774 Lisp_Object val = make_uninit_string (len * XINT (length)); |
| 2775 | |
| 2776 if (len == 1) | |
| 771 | 2777 { |
| 2778 /* Optimize the single-byte case */ | |
| 2779 memset (XSTRING_DATA (val), XCHAR (character), XSTRING_LENGTH (val)); | |
| 793 | 2780 XSET_STRING_ASCII_BEGIN (val, min (MAX_STRING_ASCII_BEGIN, |
| 2781 len * XINT (length))); | |
| 771 | 2782 } |
| 428 | 2783 else |
| 2784 { | |
| 647 | 2785 EMACS_INT i; |
| 867 | 2786 Ibyte *ptr = XSTRING_DATA (val); |
| 428 | 2787 |
| 2788 for (i = XINT (length); i; i--) | |
| 2789 { | |
| 867 | 2790 Ibyte *init_ptr = init_str; |
| 428 | 2791 switch (len) |
| 2792 { | |
| 2793 case 4: *ptr++ = *init_ptr++; | |
| 2794 case 3: *ptr++ = *init_ptr++; | |
| 2795 case 2: *ptr++ = *init_ptr++; | |
| 2796 case 1: *ptr++ = *init_ptr++; | |
| 2797 } | |
| 2798 } | |
| 2799 } | |
| 771 | 2800 sledgehammer_check_ascii_begin (val); |
| 428 | 2801 return val; |
| 2802 } | |
| 2803 } | |
| 2804 | |
| 2805 DEFUN ("string", Fstring, 0, MANY, 0, /* | |
| 2806 Concatenate all the argument characters and make the result a string. | |
|
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|
2807 |
|
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|
2808 arguments: (&rest ARGS) |
| 428 | 2809 */ |
| 2810 (int nargs, Lisp_Object *args)) | |
| 2811 { | |
| 2367 | 2812 Ibyte *storage = alloca_ibytes (nargs * MAX_ICHAR_LEN); |
| 867 | 2813 Ibyte *p = storage; |
| 428 | 2814 |
| 2815 for (; nargs; nargs--, args++) | |
| 2816 { | |
| 2817 Lisp_Object lisp_char = *args; | |
| 2818 CHECK_CHAR_COERCE_INT (lisp_char); | |
| 867 | 2819 p += set_itext_ichar (p, XCHAR (lisp_char)); |
| 428 | 2820 } |
| 2821 return make_string (storage, p - storage); | |
| 2822 } | |
| 2823 | |
| 771 | 2824 /* Initialize the ascii_begin member of a string to the correct value. */ |
| 2825 | |
| 2826 void | |
| 2827 init_string_ascii_begin (Lisp_Object string) | |
| 2828 { | |
| 2829 #ifdef MULE | |
| 2830 int i; | |
| 2831 Bytecount length = XSTRING_LENGTH (string); | |
| 867 | 2832 Ibyte *contents = XSTRING_DATA (string); |
| 771 | 2833 |
| 2834 for (i = 0; i < length; i++) | |
| 2835 { | |
| 826 | 2836 if (!byte_ascii_p (contents[i])) |
| 771 | 2837 break; |
| 2838 } | |
| 793 | 2839 XSET_STRING_ASCII_BEGIN (string, min (i, MAX_STRING_ASCII_BEGIN)); |
| 771 | 2840 #else |
| 793 | 2841 XSET_STRING_ASCII_BEGIN (string, min (XSTRING_LENGTH (string), |
| 2842 MAX_STRING_ASCII_BEGIN)); | |
| 771 | 2843 #endif |
| 2844 sledgehammer_check_ascii_begin (string); | |
| 2845 } | |
| 428 | 2846 |
| 2847 /* Take some raw memory, which MUST already be in internal format, | |
| 2848 and package it up into a Lisp string. */ | |
| 2849 Lisp_Object | |
| 867 | 2850 make_string (const Ibyte *contents, Bytecount length) |
| 428 | 2851 { |
| 2852 Lisp_Object val; | |
| 2853 | |
| 2854 /* Make sure we find out about bad make_string's when they happen */ | |
| 800 | 2855 #if defined (ERROR_CHECK_TEXT) && defined (MULE) |
| 428 | 2856 bytecount_to_charcount (contents, length); /* Just for the assertions */ |
| 2857 #endif | |
| 2858 | |
| 2859 val = make_uninit_string (length); | |
| 2860 memcpy (XSTRING_DATA (val), contents, length); | |
| 771 | 2861 init_string_ascii_begin (val); |
| 2862 sledgehammer_check_ascii_begin (val); | |
| 428 | 2863 return val; |
| 2864 } | |
| 2865 | |
| 2866 /* Take some raw memory, encoded in some external data format, | |
| 2867 and convert it into a Lisp string. */ | |
| 2868 Lisp_Object | |
|
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2869 make_extstring (const Extbyte *contents, EMACS_INT length, |
| 440 | 2870 Lisp_Object coding_system) |
| 428 | 2871 { |
| 440 | 2872 Lisp_Object string; |
| 2873 TO_INTERNAL_FORMAT (DATA, (contents, length), | |
| 2874 LISP_STRING, string, | |
| 2875 coding_system); | |
| 2876 return string; | |
| 428 | 2877 } |
| 2878 | |
| 2879 Lisp_Object | |
|
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|
2880 build_istring (const Ibyte *str) |
| 771 | 2881 { |
| 2882 /* Some strlen's crash and burn if passed null. */ | |
| 814 | 2883 return make_string (str, (str ? qxestrlen (str) : (Bytecount) 0)); |
| 771 | 2884 } |
| 2885 | |
| 2886 Lisp_Object | |
|
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|
2887 build_cistring (const CIbyte *str) |
|
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|
2888 { |
|
304aebb79cd3
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|
2889 return build_istring ((const Ibyte *) str); |
|
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|
2890 } |
|
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|
2891 |
|
19a72041c5ed
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|
2892 Lisp_Object |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2893 build_ascstring (const Ascbyte *str) |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2894 { |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2895 ASSERT_ASCTEXT_ASCII (str); |
|
4953
304aebb79cd3
function renamings to track names of char typedefs
Ben Wing <ben@xemacs.org>
parents:
4952
diff
changeset
|
2896 return build_istring ((const Ibyte *) str); |
| 428 | 2897 } |
| 2898 | |
| 2899 Lisp_Object | |
|
4953
304aebb79cd3
function renamings to track names of char typedefs
Ben Wing <ben@xemacs.org>
parents:
4952
diff
changeset
|
2900 build_extstring (const Extbyte *str, Lisp_Object coding_system) |
| 428 | 2901 { |
| 2902 /* Some strlen's crash and burn if passed null. */ | |
|
4953
304aebb79cd3
function renamings to track names of char typedefs
Ben Wing <ben@xemacs.org>
parents:
4952
diff
changeset
|
2903 return make_extstring ((const Extbyte *) str, |
| 2367 | 2904 (str ? dfc_external_data_len (str, coding_system) : |
| 2905 0), | |
| 440 | 2906 coding_system); |
| 428 | 2907 } |
| 2908 | |
|
4952
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2909 /* Build a string whose content is a translatable message, and translate |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2910 the message according to the current language environment. */ |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
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4938
diff
changeset
|
2911 |
| 428 | 2912 Lisp_Object |
|
4952
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2913 build_msg_istring (const Ibyte *str) |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2914 { |
|
4953
304aebb79cd3
function renamings to track names of char typedefs
Ben Wing <ben@xemacs.org>
parents:
4952
diff
changeset
|
2915 return build_istring (IGETTEXT (str)); |
|
4952
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2916 } |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2917 |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2918 /* Build a string whose content is a translatable message, and translate |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2919 the message according to the current language environment. */ |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2920 |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2921 Lisp_Object |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2922 build_msg_cistring (const CIbyte *str) |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2923 { |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2924 return build_msg_istring ((const Ibyte *) str); |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2925 } |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2926 |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2927 /* Build a string whose content is a translatable message, and translate |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2928 the message according to the current language environment. |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2929 String must be pure-ASCII, and when compiled with error-checking, |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2930 an abort will have if not pure-ASCII. */ |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2931 |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
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4938
diff
changeset
|
2932 Lisp_Object |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
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4938
diff
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|
2933 build_msg_ascstring (const Ascbyte *str) |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
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4938
diff
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|
2934 { |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
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4938
diff
changeset
|
2935 ASSERT_ASCTEXT_ASCII (str); |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2936 return build_msg_istring ((const Ibyte *) str); |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
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4938
diff
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|
2937 } |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
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4938
diff
changeset
|
2938 |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
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4938
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changeset
|
2939 /* Build a string whose content is a translatable message, but don't |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2940 translate the message immediately. Perhaps do something else instead, |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
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4938
diff
changeset
|
2941 such as put a property on the string indicating that it needs to be |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2942 translated. |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
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4938
diff
changeset
|
2943 |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
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4938
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changeset
|
2944 This is useful for strings that are built at dump time or init time, |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
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4938
diff
changeset
|
2945 rather than on-the-fly when the current language environment is set |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2946 properly. */ |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2947 |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
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changeset
|
2948 Lisp_Object |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2949 build_defer_istring (const Ibyte *str) |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2950 { |
|
4953
304aebb79cd3
function renamings to track names of char typedefs
Ben Wing <ben@xemacs.org>
parents:
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|
2951 Lisp_Object retval = build_istring ((Ibyte *) str); |
|
4952
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2952 /* Possibly do something to the return value */ |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2953 return retval; |
| 771 | 2954 } |
| 2955 | |
| 428 | 2956 Lisp_Object |
|
4952
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2957 build_defer_cistring (const CIbyte *str) |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2958 { |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2959 return build_defer_istring ((Ibyte *) str); |
| 771 | 2960 } |
| 2961 | |
| 2962 Lisp_Object | |
|
4952
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2963 build_defer_ascstring (const Ascbyte *str) |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2964 { |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2965 ASSERT_ASCTEXT_ASCII (str); |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
2966 return build_defer_istring ((Ibyte *) str); |
| 428 | 2967 } |
| 2968 | |
| 2969 Lisp_Object | |
| 867 | 2970 make_string_nocopy (const Ibyte *contents, Bytecount length) |
| 428 | 2971 { |
| 438 | 2972 Lisp_String *s; |
| 428 | 2973 Lisp_Object val; |
| 2974 | |
| 2975 /* Make sure we find out about bad make_string_nocopy's when they happen */ | |
| 800 | 2976 #if defined (ERROR_CHECK_TEXT) && defined (MULE) |
| 428 | 2977 bytecount_to_charcount (contents, length); /* Just for the assertions */ |
| 2978 #endif | |
| 2979 | |
| 3263 | 2980 #ifdef NEW_GC |
| 2720 | 2981 s = alloc_lrecord_type (Lisp_String, &lrecord_string); |
| 2982 mcpro (wrap_pointer_1 (s)); /* otherwise nocopy_strings get | |
| 2983 collected and static data is tried to | |
| 2984 be freed. */ | |
| 3263 | 2985 #else /* not NEW_GC */ |
| 428 | 2986 /* Allocate the string header */ |
| 438 | 2987 ALLOCATE_FIXED_TYPE (string, Lisp_String, s); |
| 771 | 2988 set_lheader_implementation (&s->u.lheader, &lrecord_string); |
| 2989 SET_C_READONLY_RECORD_HEADER (&s->u.lheader); | |
| 3263 | 2990 #endif /* not NEW_GC */ |
| 3063 | 2991 /* Don't need to XSET_STRING_ASCII_BEGIN() here because it happens in |
| 2992 init_string_ascii_begin(). */ | |
| 428 | 2993 s->plist = Qnil; |
| 3092 | 2994 #ifdef NEW_GC |
| 2995 set_lispstringp_indirect (s); | |
| 2996 STRING_DATA_OBJECT (s) = | |
| 2997 wrap_string_indirect_data | |
| 2998 (alloc_lrecord_type (Lisp_String_Indirect_Data, | |
| 2999 &lrecord_string_indirect_data)); | |
| 3000 XSTRING_INDIRECT_DATA_DATA (STRING_DATA_OBJECT (s)) = (Ibyte *) contents; | |
| 3001 XSTRING_INDIRECT_DATA_SIZE (STRING_DATA_OBJECT (s)) = length; | |
| 3002 #else /* not NEW_GC */ | |
| 867 | 3003 set_lispstringp_data (s, (Ibyte *) contents); |
| 826 | 3004 set_lispstringp_length (s, length); |
| 3092 | 3005 #endif /* not NEW_GC */ |
| 793 | 3006 val = wrap_string (s); |
| 771 | 3007 init_string_ascii_begin (val); |
| 3008 sledgehammer_check_ascii_begin (val); | |
| 3009 | |
| 428 | 3010 return val; |
| 3011 } | |
| 3012 | |
| 3013 | |
| 3263 | 3014 #ifndef NEW_GC |
| 428 | 3015 /************************************************************************/ |
| 3016 /* lcrecord lists */ | |
| 3017 /************************************************************************/ | |
| 3018 | |
| 3019 /* Lcrecord lists are used to manage the allocation of particular | |
| 3024 | 3020 sorts of lcrecords, to avoid calling BASIC_ALLOC_LCRECORD() (and thus |
| 428 | 3021 malloc() and garbage-collection junk) as much as possible. |
| 3022 It is similar to the Blocktype class. | |
| 3023 | |
| 1204 | 3024 See detailed comment in lcrecord.h. |
| 3025 */ | |
| 3026 | |
| 3027 const struct memory_description free_description[] = { | |
| 2551 | 3028 { XD_LISP_OBJECT, offsetof (struct free_lcrecord_header, chain), 0, { 0 }, |
| 1204 | 3029 XD_FLAG_FREE_LISP_OBJECT }, |
| 3030 { XD_END } | |
| 3031 }; | |
| 3032 | |
| 3033 DEFINE_LRECORD_IMPLEMENTATION ("free", free, | |
| 3034 0, /*dumpable-flag*/ | |
| 3035 0, internal_object_printer, | |
| 3036 0, 0, 0, free_description, | |
| 3037 struct free_lcrecord_header); | |
| 3038 | |
| 3039 const struct memory_description lcrecord_list_description[] = { | |
| 2551 | 3040 { XD_LISP_OBJECT, offsetof (struct lcrecord_list, free), 0, { 0 }, |
| 1204 | 3041 XD_FLAG_FREE_LISP_OBJECT }, |
| 3042 { XD_END } | |
| 3043 }; | |
| 428 | 3044 |
| 3045 static Lisp_Object | |
| 3046 mark_lcrecord_list (Lisp_Object obj) | |
| 3047 { | |
| 3048 struct lcrecord_list *list = XLCRECORD_LIST (obj); | |
| 3049 Lisp_Object chain = list->free; | |
| 3050 | |
| 3051 while (!NILP (chain)) | |
| 3052 { | |
| 3053 struct lrecord_header *lheader = XRECORD_LHEADER (chain); | |
| 3054 struct free_lcrecord_header *free_header = | |
| 3055 (struct free_lcrecord_header *) lheader; | |
| 3056 | |
| 442 | 3057 gc_checking_assert |
| 3058 (/* There should be no other pointers to the free list. */ | |
| 3059 ! MARKED_RECORD_HEADER_P (lheader) | |
| 3060 && | |
| 3061 /* Only lcrecords should be here. */ | |
| 1204 | 3062 ! list->implementation->basic_p |
| 442 | 3063 && |
| 3064 /* Only free lcrecords should be here. */ | |
| 3065 free_header->lcheader.free | |
| 3066 && | |
| 3067 /* The type of the lcrecord must be right. */ | |
| 1204 | 3068 lheader->type == lrecord_type_free |
| 442 | 3069 && |
| 3070 /* So must the size. */ | |
| 1204 | 3071 (list->implementation->static_size == 0 || |
| 3072 list->implementation->static_size == list->size) | |
| 442 | 3073 ); |
| 428 | 3074 |
| 3075 MARK_RECORD_HEADER (lheader); | |
| 3076 chain = free_header->chain; | |
| 3077 } | |
| 3078 | |
| 3079 return Qnil; | |
| 3080 } | |
| 3081 | |
| 934 | 3082 DEFINE_LRECORD_IMPLEMENTATION ("lcrecord-list", lcrecord_list, |
| 3083 0, /*dumpable-flag*/ | |
| 3084 mark_lcrecord_list, internal_object_printer, | |
| 1204 | 3085 0, 0, 0, lcrecord_list_description, |
| 3086 struct lcrecord_list); | |
| 934 | 3087 |
| 428 | 3088 Lisp_Object |
| 665 | 3089 make_lcrecord_list (Elemcount size, |
| 442 | 3090 const struct lrecord_implementation *implementation) |
| 428 | 3091 { |
| 3024 | 3092 /* Don't use old_alloc_lcrecord_type() avoid infinite recursion |
| 1204 | 3093 allocating this, */ |
| 3094 struct lcrecord_list *p = (struct lcrecord_list *) | |
| 3024 | 3095 old_basic_alloc_lcrecord (sizeof (struct lcrecord_list), |
| 3096 &lrecord_lcrecord_list); | |
| 428 | 3097 |
| 3098 p->implementation = implementation; | |
| 3099 p->size = size; | |
| 3100 p->free = Qnil; | |
| 793 | 3101 return wrap_lcrecord_list (p); |
| 428 | 3102 } |
| 3103 | |
| 3104 Lisp_Object | |
| 1204 | 3105 alloc_managed_lcrecord (Lisp_Object lcrecord_list) |
| 428 | 3106 { |
| 3107 struct lcrecord_list *list = XLCRECORD_LIST (lcrecord_list); | |
| 3108 if (!NILP (list->free)) | |
| 3109 { | |
| 3110 Lisp_Object val = list->free; | |
| 3111 struct free_lcrecord_header *free_header = | |
| 3112 (struct free_lcrecord_header *) XPNTR (val); | |
| 1204 | 3113 struct lrecord_header *lheader = &free_header->lcheader.lheader; |
| 428 | 3114 |
| 3115 #ifdef ERROR_CHECK_GC | |
| 1204 | 3116 /* Major overkill here. */ |
| 428 | 3117 /* There should be no other pointers to the free list. */ |
| 442 | 3118 assert (! MARKED_RECORD_HEADER_P (lheader)); |
| 428 | 3119 /* Only free lcrecords should be here. */ |
| 3120 assert (free_header->lcheader.free); | |
| 1204 | 3121 assert (lheader->type == lrecord_type_free); |
| 3122 /* Only lcrecords should be here. */ | |
| 3123 assert (! (list->implementation->basic_p)); | |
| 3124 #if 0 /* Not used anymore, now that we set the type of the header to | |
| 3125 lrecord_type_free. */ | |
| 428 | 3126 /* The type of the lcrecord must be right. */ |
| 442 | 3127 assert (LHEADER_IMPLEMENTATION (lheader) == list->implementation); |
| 1204 | 3128 #endif /* 0 */ |
| 428 | 3129 /* So must the size. */ |
| 1204 | 3130 assert (list->implementation->static_size == 0 || |
| 3131 list->implementation->static_size == list->size); | |
| 428 | 3132 #endif /* ERROR_CHECK_GC */ |
| 442 | 3133 |
| 428 | 3134 list->free = free_header->chain; |
| 3135 free_header->lcheader.free = 0; | |
| 1204 | 3136 /* Put back the correct type, as we set it to lrecord_type_free. */ |
| 3137 lheader->type = list->implementation->lrecord_type_index; | |
| 3024 | 3138 old_zero_sized_lcrecord (free_header, list->size); |
| 428 | 3139 return val; |
| 3140 } | |
| 3141 else | |
| 3024 | 3142 return wrap_pointer_1 (old_basic_alloc_lcrecord (list->size, |
| 3143 list->implementation)); | |
| 428 | 3144 } |
| 3145 | |
| 771 | 3146 /* "Free" a Lisp object LCRECORD by placing it on its associated free list |
| 1204 | 3147 LCRECORD_LIST; next time alloc_managed_lcrecord() is called with the |
| 771 | 3148 same LCRECORD_LIST as its parameter, it will return an object from the |
| 3149 free list, which may be this one. Be VERY VERY SURE there are no | |
| 3150 pointers to this object hanging around anywhere where they might be | |
| 3151 used! | |
| 3152 | |
| 3153 The first thing this does before making any global state change is to | |
| 3154 call the finalize method of the object, if it exists. */ | |
| 3155 | |
| 428 | 3156 void |
| 3157 free_managed_lcrecord (Lisp_Object lcrecord_list, Lisp_Object lcrecord) | |
| 3158 { | |
| 3159 struct lcrecord_list *list = XLCRECORD_LIST (lcrecord_list); | |
| 3160 struct free_lcrecord_header *free_header = | |
| 3161 (struct free_lcrecord_header *) XPNTR (lcrecord); | |
| 442 | 3162 struct lrecord_header *lheader = &free_header->lcheader.lheader; |
| 3163 const struct lrecord_implementation *implementation | |
| 428 | 3164 = LHEADER_IMPLEMENTATION (lheader); |
| 3165 | |
|
4880
ae81a2c00f4f
try harder to avoid crashing when debug-printing
Ben Wing <ben@xemacs.org>
parents:
4803
diff
changeset
|
3166 /* If we try to debug-print during GC, we'll likely get a crash on the |
|
ae81a2c00f4f
try harder to avoid crashing when debug-printing
Ben Wing <ben@xemacs.org>
parents:
4803
diff
changeset
|
3167 following assert (called from Lstream_delete(), from prin1_to_string()). |
|
ae81a2c00f4f
try harder to avoid crashing when debug-printing
Ben Wing <ben@xemacs.org>
parents:
4803
diff
changeset
|
3168 Instead, just don't do anything. Worst comes to worst, we have a |
|
ae81a2c00f4f
try harder to avoid crashing when debug-printing
Ben Wing <ben@xemacs.org>
parents:
4803
diff
changeset
|
3169 small memory leak -- and programs being debugged usually won't be |
|
ae81a2c00f4f
try harder to avoid crashing when debug-printing
Ben Wing <ben@xemacs.org>
parents:
4803
diff
changeset
|
3170 super long-lived afterwards, anyway. */ |
|
ae81a2c00f4f
try harder to avoid crashing when debug-printing
Ben Wing <ben@xemacs.org>
parents:
4803
diff
changeset
|
3171 if (gc_in_progress && in_debug_print) |
|
ae81a2c00f4f
try harder to avoid crashing when debug-printing
Ben Wing <ben@xemacs.org>
parents:
4803
diff
changeset
|
3172 return; |
|
ae81a2c00f4f
try harder to avoid crashing when debug-printing
Ben Wing <ben@xemacs.org>
parents:
4803
diff
changeset
|
3173 |
| 771 | 3174 /* Finalizer methods may try to free objects within them, which typically |
| 3175 won't be marked and thus are scheduled for demolition. Putting them | |
| 3176 on the free list would be very bad, as we'd have xfree()d memory in | |
| 3177 the list. Even if for some reason the objects are still live | |
| 3178 (generally a logic error!), we still will have problems putting such | |
| 3179 an object on the free list right now (e.g. we'd have to avoid calling | |
| 3180 the finalizer twice, etc.). So basically, those finalizers should not | |
| 3181 be freeing any objects if during GC. Abort now to catch those | |
| 3182 problems. */ | |
| 3183 gc_checking_assert (!gc_in_progress); | |
| 3184 | |
| 428 | 3185 /* Make sure the size is correct. This will catch, for example, |
| 3186 putting a window configuration on the wrong free list. */ | |
| 1204 | 3187 gc_checking_assert (detagged_lisp_object_size (lheader) == list->size); |
| 771 | 3188 /* Make sure the object isn't already freed. */ |
| 3189 gc_checking_assert (!free_header->lcheader.free); | |
| 2367 | 3190 /* Freeing stuff in dumped memory is bad. If you trip this, you |
| 3191 may need to check for this before freeing. */ | |
| 3192 gc_checking_assert (!OBJECT_DUMPED_P (lcrecord)); | |
| 771 | 3193 |
| 428 | 3194 if (implementation->finalizer) |
| 3195 implementation->finalizer (lheader, 0); | |
| 1204 | 3196 /* Yes, there are two ways to indicate freeness -- the type is |
| 3197 lrecord_type_free or the ->free flag is set. We used to do only the | |
| 3198 latter; now we do the former as well for KKCC purposes. Probably | |
| 3199 safer in any case, as we will lose quicker this way than keeping | |
| 3200 around an lrecord of apparently correct type but bogus junk in it. */ | |
| 3201 MARK_LRECORD_AS_FREE (lheader); | |
| 428 | 3202 free_header->chain = list->free; |
| 3203 free_header->lcheader.free = 1; | |
| 3204 list->free = lcrecord; | |
| 3205 } | |
| 3206 | |
| 771 | 3207 static Lisp_Object all_lcrecord_lists[countof (lrecord_implementations_table)]; |
| 3208 | |
| 3209 void * | |
| 3210 alloc_automanaged_lcrecord (Bytecount size, | |
| 3211 const struct lrecord_implementation *imp) | |
| 3212 { | |
| 3213 if (EQ (all_lcrecord_lists[imp->lrecord_type_index], Qzero)) | |
| 3214 all_lcrecord_lists[imp->lrecord_type_index] = | |
| 3215 make_lcrecord_list (size, imp); | |
| 3216 | |
| 1204 | 3217 return XPNTR (alloc_managed_lcrecord |
| 771 | 3218 (all_lcrecord_lists[imp->lrecord_type_index])); |
| 3219 } | |
| 3220 | |
| 3221 void | |
| 3024 | 3222 old_free_lcrecord (Lisp_Object rec) |
| 771 | 3223 { |
| 3224 int type = XRECORD_LHEADER (rec)->type; | |
| 3225 | |
| 3226 assert (!EQ (all_lcrecord_lists[type], Qzero)); | |
| 3227 | |
| 3228 free_managed_lcrecord (all_lcrecord_lists[type], rec); | |
| 3229 } | |
| 3263 | 3230 #endif /* not NEW_GC */ |
| 428 | 3231 |
| 3232 | |
| 3233 DEFUN ("purecopy", Fpurecopy, 1, 1, 0, /* | |
| 3234 Kept for compatibility, returns its argument. | |
| 3235 Old: | |
| 3236 Make a copy of OBJECT in pure storage. | |
| 3237 Recursively copies contents of vectors and cons cells. | |
| 3238 Does not copy symbols. | |
| 3239 */ | |
| 444 | 3240 (object)) |
| 428 | 3241 { |
| 444 | 3242 return object; |
| 428 | 3243 } |
| 3244 | |
| 3245 | |
| 3246 /************************************************************************/ | |
| 3247 /* Garbage Collection */ | |
| 3248 /************************************************************************/ | |
| 3249 | |
| 442 | 3250 /* All the built-in lisp object types are enumerated in `enum lrecord_type'. |
| 3251 Additional ones may be defined by a module (none yet). We leave some | |
| 3252 room in `lrecord_implementations_table' for such new lisp object types. */ | |
| 647 | 3253 const struct lrecord_implementation *lrecord_implementations_table[(int)lrecord_type_last_built_in_type + MODULE_DEFINABLE_TYPE_COUNT]; |
| 3254 int lrecord_type_count = lrecord_type_last_built_in_type; | |
| 1676 | 3255 #ifndef USE_KKCC |
| 442 | 3256 /* Object marker functions are in the lrecord_implementation structure. |
| 3257 But copying them to a parallel array is much more cache-friendly. | |
| 3258 This hack speeds up (garbage-collect) by about 5%. */ | |
| 3259 Lisp_Object (*lrecord_markers[countof (lrecord_implementations_table)]) (Lisp_Object); | |
| 1676 | 3260 #endif /* not USE_KKCC */ |
| 428 | 3261 |
| 3262 struct gcpro *gcprolist; | |
| 3263 | |
| 771 | 3264 /* We want the staticpro list relocated, but not the pointers found |
| 3265 therein, because they refer to locations in the global data segment, not | |
| 3266 in the heap; we only dump heap objects. Hence we use a trivial | |
| 3267 description, as for pointerless objects. (Note that the data segment | |
| 3268 objects, which are global variables like Qfoo or Vbar, themselves are | |
| 3269 pointers to heap objects. Each needs to be described to pdump as a | |
| 3270 "root pointer"; this happens in the call to staticpro(). */ | |
| 1204 | 3271 static const struct memory_description staticpro_description_1[] = { |
| 452 | 3272 { XD_END } |
| 3273 }; | |
| 3274 | |
| 1204 | 3275 static const struct sized_memory_description staticpro_description = { |
| 452 | 3276 sizeof (Lisp_Object *), |
| 3277 staticpro_description_1 | |
| 3278 }; | |
| 3279 | |
| 1204 | 3280 static const struct memory_description staticpros_description_1[] = { |
| 452 | 3281 XD_DYNARR_DESC (Lisp_Object_ptr_dynarr, &staticpro_description), |
| 3282 { XD_END } | |
| 3283 }; | |
| 3284 | |
| 1204 | 3285 static const struct sized_memory_description staticpros_description = { |
| 452 | 3286 sizeof (Lisp_Object_ptr_dynarr), |
| 3287 staticpros_description_1 | |
| 3288 }; | |
| 3289 | |
| 771 | 3290 #ifdef DEBUG_XEMACS |
| 3291 | |
| 3292 /* Help debug crashes gc-marking a staticpro'ed object. */ | |
| 3293 | |
| 3294 Lisp_Object_ptr_dynarr *staticpros; | |
|
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3295 const_Ascbyte_ptr_dynarr *staticpro_names; |
| 771 | 3296 |
| 3297 /* Mark the Lisp_Object at non-heap VARADDRESS as a root object for | |
| 3298 garbage collection, and for dumping. */ | |
| 3299 void | |
|
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3300 staticpro_1 (Lisp_Object *varaddress, const Ascbyte *varname) |
| 771 | 3301 { |
| 3302 Dynarr_add (staticpros, varaddress); | |
| 3303 Dynarr_add (staticpro_names, varname); | |
| 1204 | 3304 dump_add_root_lisp_object (varaddress); |
| 771 | 3305 } |
| 3306 | |
|
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3307 const Ascbyte *staticpro_name (int count); |
|
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3308 |
|
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3309 /* External debugging function: Return the name of the variable at offset |
|
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3310 COUNT. */ |
|
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3311 const Ascbyte * |
|
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3312 staticpro_name (int count) |
|
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3313 { |
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3314 return Dynarr_at (staticpro_names, count); |
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3315 } |
| 771 | 3316 |
| 3317 Lisp_Object_ptr_dynarr *staticpros_nodump; | |
|
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3318 const_Ascbyte_ptr_dynarr *staticpro_nodump_names; |
| 771 | 3319 |
| 3320 /* Mark the Lisp_Object at heap VARADDRESS as a root object for | |
| 3321 garbage collection, but not for dumping. (See below.) */ | |
| 3322 void | |
|
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3323 staticpro_nodump_1 (Lisp_Object *varaddress, const Ascbyte *varname) |
| 771 | 3324 { |
| 3325 Dynarr_add (staticpros_nodump, varaddress); | |
| 3326 Dynarr_add (staticpro_nodump_names, varname); | |
| 3327 } | |
| 3328 | |
|
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3329 const Ascbyte *staticpro_nodump_name (int count); |
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3330 |
|
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3331 /* External debugging function: Return the name of the variable at offset |
|
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3332 COUNT. */ |
|
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3333 const Ascbyte * |
|
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3334 staticpro_nodump_name (int count) |
|
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3335 { |
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3336 return Dynarr_at (staticpro_nodump_names, count); |
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3337 } |
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3338 |
| 996 | 3339 #ifdef HAVE_SHLIB |
| 3340 /* Stop treating the Lisp_Object at non-heap VARADDRESS as a root object | |
| 3341 for garbage collection, but not for dumping. */ | |
| 3342 void | |
|
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3343 unstaticpro_nodump_1 (Lisp_Object *varaddress, const Ascbyte *varname) |
| 996 | 3344 { |
| 3345 Dynarr_delete_object (staticpros, varaddress); | |
| 3346 Dynarr_delete_object (staticpro_names, varname); | |
| 3347 } | |
| 3348 #endif | |
| 3349 | |
| 771 | 3350 #else /* not DEBUG_XEMACS */ |
| 3351 | |
| 452 | 3352 Lisp_Object_ptr_dynarr *staticpros; |
| 3353 | |
| 3354 /* Mark the Lisp_Object at non-heap VARADDRESS as a root object for | |
| 3355 garbage collection, and for dumping. */ | |
| 428 | 3356 void |
| 3357 staticpro (Lisp_Object *varaddress) | |
| 3358 { | |
| 452 | 3359 Dynarr_add (staticpros, varaddress); |
| 1204 | 3360 dump_add_root_lisp_object (varaddress); |
| 428 | 3361 } |
| 3362 | |
| 442 | 3363 |
| 452 | 3364 Lisp_Object_ptr_dynarr *staticpros_nodump; |
| 3365 | |
| 771 | 3366 /* Mark the Lisp_Object at heap VARADDRESS as a root object for garbage |
| 3367 collection, but not for dumping. This is used for objects where the | |
| 3368 only sure pointer is in the heap (rather than in the global data | |
| 3369 segment, as must be the case for pdump root pointers), but not inside of | |
| 3370 another Lisp object (where it will be marked as a result of that Lisp | |
| 3371 object's mark method). The call to staticpro_nodump() must occur *BOTH* | |
| 3372 at initialization time and at "reinitialization" time (startup, after | |
| 3373 pdump load.) (For example, this is the case with the predicate symbols | |
| 3374 for specifier and coding system types. The pointer to this symbol is | |
| 3375 inside of a methods structure, which is allocated on the heap. The | |
| 3376 methods structure will be written out to the pdump data file, and may be | |
| 3377 reloaded at a different address.) | |
| 3378 | |
| 3379 #### The necessity for reinitialization is a bug in pdump. Pdump should | |
| 3380 automatically regenerate the staticpro()s for these symbols when it | |
| 3381 loads the data in. */ | |
| 3382 | |
| 428 | 3383 void |
| 3384 staticpro_nodump (Lisp_Object *varaddress) | |
| 3385 { | |
| 452 | 3386 Dynarr_add (staticpros_nodump, varaddress); |
| 428 | 3387 } |
| 3388 | |
| 996 | 3389 #ifdef HAVE_SHLIB |
| 3390 /* Unmark the Lisp_Object at non-heap VARADDRESS as a root object for | |
| 3391 garbage collection, but not for dumping. */ | |
| 3392 void | |
| 3393 unstaticpro_nodump (Lisp_Object *varaddress) | |
| 3394 { | |
| 3395 Dynarr_delete_object (staticpros, varaddress); | |
| 3396 } | |
| 3397 #endif | |
| 3398 | |
| 771 | 3399 #endif /* not DEBUG_XEMACS */ |
| 3400 | |
| 2720 | 3401 |
| 3402 | |
| 3403 | |
| 3404 | |
| 3263 | 3405 #ifdef NEW_GC |
| 2720 | 3406 static const struct memory_description mcpro_description_1[] = { |
| 3407 { XD_END } | |
| 3408 }; | |
| 3409 | |
| 3410 static const struct sized_memory_description mcpro_description = { | |
| 3411 sizeof (Lisp_Object *), | |
| 3412 mcpro_description_1 | |
| 3413 }; | |
| 3414 | |
| 3415 static const struct memory_description mcpros_description_1[] = { | |
| 3416 XD_DYNARR_DESC (Lisp_Object_dynarr, &mcpro_description), | |
| 3417 { XD_END } | |
| 3418 }; | |
| 3419 | |
| 3420 static const struct sized_memory_description mcpros_description = { | |
| 3421 sizeof (Lisp_Object_dynarr), | |
| 3422 mcpros_description_1 | |
| 3423 }; | |
| 3424 | |
| 3425 #ifdef DEBUG_XEMACS | |
| 3426 | |
| 3427 /* Help debug crashes gc-marking a mcpro'ed object. */ | |
| 3428 | |
| 3429 Lisp_Object_dynarr *mcpros; | |
|
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3430 const_Ascbyte_ptr_dynarr *mcpro_names; |
| 2720 | 3431 |
| 3432 /* Mark the Lisp_Object at non-heap VARADDRESS as a root object for | |
| 3433 garbage collection, and for dumping. */ | |
| 3434 void | |
|
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3435 mcpro_1 (Lisp_Object varaddress, const Ascbyte *varname) |
| 2720 | 3436 { |
| 3437 Dynarr_add (mcpros, varaddress); | |
| 3438 Dynarr_add (mcpro_names, varname); | |
| 3439 } | |
| 3440 | |
| 5046 | 3441 const Ascbyte *mcpro_name (int count); |
| 3442 | |
|
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3443 /* External debugging function: Return the name of the variable at offset |
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3444 COUNT. */ |
|
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3445 const Ascbyte * |
|
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3446 mcpro_name (int count) |
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3447 { |
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3448 return Dynarr_at (mcpro_names, count); |
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3449 } |
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3450 |
| 2720 | 3451 #else /* not DEBUG_XEMACS */ |
| 3452 | |
| 3453 Lisp_Object_dynarr *mcpros; | |
| 3454 | |
| 3455 /* Mark the Lisp_Object at non-heap VARADDRESS as a root object for | |
| 3456 garbage collection, and for dumping. */ | |
| 3457 void | |
| 3458 mcpro (Lisp_Object varaddress) | |
| 3459 { | |
| 3460 Dynarr_add (mcpros, varaddress); | |
| 3461 } | |
| 3462 | |
| 3463 #endif /* not DEBUG_XEMACS */ | |
| 3263 | 3464 #endif /* NEW_GC */ |
| 3465 | |
| 3466 | |
| 3467 #ifndef NEW_GC | |
| 428 | 3468 static int gc_count_num_short_string_in_use; |
| 647 | 3469 static Bytecount gc_count_string_total_size; |
| 3470 static Bytecount gc_count_short_string_total_size; | |
| 428 | 3471 |
| 3472 /* static int gc_count_total_records_used, gc_count_records_total_size; */ | |
| 3473 | |
| 3474 | |
| 3475 /* stats on lcrecords in use - kinda kludgy */ | |
| 3476 | |
| 3477 static struct | |
| 3478 { | |
| 3479 int instances_in_use; | |
| 3480 int bytes_in_use; | |
| 3481 int instances_freed; | |
| 3482 int bytes_freed; | |
| 3483 int instances_on_free_list; | |
| 3461 | 3484 } lcrecord_stats [countof (lrecord_implementations_table)]; |
| 428 | 3485 |
| 3486 static void | |
| 442 | 3487 tick_lcrecord_stats (const struct lrecord_header *h, int free_p) |
| 428 | 3488 { |
| 647 | 3489 int type_index = h->type; |
| 428 | 3490 |
| 3024 | 3491 if (((struct old_lcrecord_header *) h)->free) |
| 428 | 3492 { |
| 442 | 3493 gc_checking_assert (!free_p); |
| 428 | 3494 lcrecord_stats[type_index].instances_on_free_list++; |
| 3495 } | |
| 3496 else | |
| 3497 { | |
| 1204 | 3498 Bytecount sz = detagged_lisp_object_size (h); |
| 3499 | |
| 428 | 3500 if (free_p) |
| 3501 { | |
| 3502 lcrecord_stats[type_index].instances_freed++; | |
| 3503 lcrecord_stats[type_index].bytes_freed += sz; | |
| 3504 } | |
| 3505 else | |
| 3506 { | |
| 3507 lcrecord_stats[type_index].instances_in_use++; | |
| 3508 lcrecord_stats[type_index].bytes_in_use += sz; | |
| 3509 } | |
| 3510 } | |
| 3511 } | |
| 3263 | 3512 #endif /* not NEW_GC */ |
| 428 | 3513 |
| 3514 | |
| 3263 | 3515 #ifndef NEW_GC |
| 428 | 3516 /* Free all unmarked records */ |
| 3517 static void | |
| 3024 | 3518 sweep_lcrecords_1 (struct old_lcrecord_header **prev, int *used) |
| 3519 { | |
| 3520 struct old_lcrecord_header *header; | |
| 428 | 3521 int num_used = 0; |
| 3522 /* int total_size = 0; */ | |
| 3523 | |
| 3524 xzero (lcrecord_stats); /* Reset all statistics to 0. */ | |
| 3525 | |
| 3526 /* First go through and call all the finalize methods. | |
| 3527 Then go through and free the objects. There used to | |
| 3528 be only one loop here, with the call to the finalizer | |
| 3529 occurring directly before the xfree() below. That | |
| 3530 is marginally faster but much less safe -- if the | |
| 3531 finalize method for an object needs to reference any | |
| 3532 other objects contained within it (and many do), | |
| 3533 we could easily be screwed by having already freed that | |
| 3534 other object. */ | |
| 3535 | |
| 3536 for (header = *prev; header; header = header->next) | |
| 3537 { | |
| 3538 struct lrecord_header *h = &(header->lheader); | |
| 442 | 3539 |
| 3540 GC_CHECK_LHEADER_INVARIANTS (h); | |
| 3541 | |
| 3542 if (! MARKED_RECORD_HEADER_P (h) && ! header->free) | |
| 428 | 3543 { |
| 3544 if (LHEADER_IMPLEMENTATION (h)->finalizer) | |
| 3545 LHEADER_IMPLEMENTATION (h)->finalizer (h, 0); | |
| 3546 } | |
| 3547 } | |
| 3548 | |
| 3549 for (header = *prev; header; ) | |
| 3550 { | |
| 3551 struct lrecord_header *h = &(header->lheader); | |
| 442 | 3552 if (MARKED_RECORD_HEADER_P (h)) |
| 428 | 3553 { |
| 442 | 3554 if (! C_READONLY_RECORD_HEADER_P (h)) |
| 428 | 3555 UNMARK_RECORD_HEADER (h); |
| 3556 num_used++; | |
| 3557 /* total_size += n->implementation->size_in_bytes (h);*/ | |
| 440 | 3558 /* #### May modify header->next on a C_READONLY lcrecord */ |
| 428 | 3559 prev = &(header->next); |
| 3560 header = *prev; | |
| 3561 tick_lcrecord_stats (h, 0); | |
| 3562 } | |
| 3563 else | |
| 3564 { | |
| 3024 | 3565 struct old_lcrecord_header *next = header->next; |
| 428 | 3566 *prev = next; |
| 3567 tick_lcrecord_stats (h, 1); | |
| 3568 /* used to call finalizer right here. */ | |
|
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3569 xfree (header); |
| 428 | 3570 header = next; |
| 3571 } | |
| 3572 } | |
| 3573 *used = num_used; | |
| 3574 /* *total = total_size; */ | |
| 3575 } | |
| 3576 | |
| 3577 /* And the Lord said: Thou shalt use the `c-backslash-region' command | |
| 3578 to make macros prettier. */ | |
| 3579 | |
| 3580 #ifdef ERROR_CHECK_GC | |
| 3581 | |
| 771 | 3582 #define SWEEP_FIXED_TYPE_BLOCK_1(typename, obj_type, lheader) \ |
| 428 | 3583 do { \ |
| 3584 struct typename##_block *SFTB_current; \ | |
| 3585 int SFTB_limit; \ | |
| 3586 int num_free = 0, num_used = 0; \ | |
| 3587 \ | |
| 444 | 3588 for (SFTB_current = current_##typename##_block, \ |
| 428 | 3589 SFTB_limit = current_##typename##_block_index; \ |
| 3590 SFTB_current; \ | |
| 3591 ) \ | |
| 3592 { \ | |
| 3593 int SFTB_iii; \ | |
| 3594 \ | |
| 3595 for (SFTB_iii = 0; SFTB_iii < SFTB_limit; SFTB_iii++) \ | |
| 3596 { \ | |
| 3597 obj_type *SFTB_victim = &(SFTB_current->block[SFTB_iii]); \ | |
| 3598 \ | |
| 454 | 3599 if (LRECORD_FREE_P (SFTB_victim)) \ |
| 428 | 3600 { \ |
| 3601 num_free++; \ | |
| 3602 } \ | |
| 3603 else if (C_READONLY_RECORD_HEADER_P (&SFTB_victim->lheader)) \ | |
| 3604 { \ | |
| 3605 num_used++; \ | |
| 3606 } \ | |
| 442 | 3607 else if (! MARKED_RECORD_HEADER_P (&SFTB_victim->lheader)) \ |
| 428 | 3608 { \ |
| 3609 num_free++; \ | |
| 3610 FREE_FIXED_TYPE (typename, obj_type, SFTB_victim); \ | |
| 3611 } \ | |
| 3612 else \ | |
| 3613 { \ | |
| 3614 num_used++; \ | |
| 3615 UNMARK_##typename (SFTB_victim); \ | |
| 3616 } \ | |
| 3617 } \ | |
| 3618 SFTB_current = SFTB_current->prev; \ | |
| 3619 SFTB_limit = countof (current_##typename##_block->block); \ | |
| 3620 } \ | |
| 3621 \ | |
| 3622 gc_count_num_##typename##_in_use = num_used; \ | |
| 3623 gc_count_num_##typename##_freelist = num_free; \ | |
| 3624 } while (0) | |
| 3625 | |
| 3626 #else /* !ERROR_CHECK_GC */ | |
| 3627 | |
| 771 | 3628 #define SWEEP_FIXED_TYPE_BLOCK_1(typename, obj_type, lheader) \ |
| 3629 do { \ | |
| 3630 struct typename##_block *SFTB_current; \ | |
| 3631 struct typename##_block **SFTB_prev; \ | |
| 3632 int SFTB_limit; \ | |
| 3633 int num_free = 0, num_used = 0; \ | |
| 3634 \ | |
| 3635 typename##_free_list = 0; \ | |
| 3636 \ | |
| 3637 for (SFTB_prev = ¤t_##typename##_block, \ | |
| 3638 SFTB_current = current_##typename##_block, \ | |
| 3639 SFTB_limit = current_##typename##_block_index; \ | |
| 3640 SFTB_current; \ | |
| 3641 ) \ | |
| 3642 { \ | |
| 3643 int SFTB_iii; \ | |
| 3644 int SFTB_empty = 1; \ | |
| 3645 Lisp_Free *SFTB_old_free_list = typename##_free_list; \ | |
| 3646 \ | |
| 3647 for (SFTB_iii = 0; SFTB_iii < SFTB_limit; SFTB_iii++) \ | |
| 3648 { \ | |
| 3649 obj_type *SFTB_victim = &(SFTB_current->block[SFTB_iii]); \ | |
| 3650 \ | |
| 3651 if (LRECORD_FREE_P (SFTB_victim)) \ | |
| 3652 { \ | |
| 3653 num_free++; \ | |
| 3654 PUT_FIXED_TYPE_ON_FREE_LIST (typename, obj_type, SFTB_victim); \ | |
| 3655 } \ | |
| 3656 else if (C_READONLY_RECORD_HEADER_P (&SFTB_victim->lheader)) \ | |
| 3657 { \ | |
| 3658 SFTB_empty = 0; \ | |
| 3659 num_used++; \ | |
| 3660 } \ | |
| 3661 else if (! MARKED_RECORD_HEADER_P (&SFTB_victim->lheader)) \ | |
| 3662 { \ | |
| 3663 num_free++; \ | |
| 3664 FREE_FIXED_TYPE (typename, obj_type, SFTB_victim); \ | |
| 3665 } \ | |
| 3666 else \ | |
| 3667 { \ | |
| 3668 SFTB_empty = 0; \ | |
| 3669 num_used++; \ | |
| 3670 UNMARK_##typename (SFTB_victim); \ | |
| 3671 } \ | |
| 3672 } \ | |
| 3673 if (!SFTB_empty) \ | |
| 3674 { \ | |
| 3675 SFTB_prev = &(SFTB_current->prev); \ | |
| 3676 SFTB_current = SFTB_current->prev; \ | |
| 3677 } \ | |
| 3678 else if (SFTB_current == current_##typename##_block \ | |
| 3679 && !SFTB_current->prev) \ | |
| 3680 { \ | |
| 3681 /* No real point in freeing sole allocation block */ \ | |
| 3682 break; \ | |
| 3683 } \ | |
| 3684 else \ | |
| 3685 { \ | |
| 3686 struct typename##_block *SFTB_victim_block = SFTB_current; \ | |
| 3687 if (SFTB_victim_block == current_##typename##_block) \ | |
| 3688 current_##typename##_block_index \ | |
| 3689 = countof (current_##typename##_block->block); \ | |
| 3690 SFTB_current = SFTB_current->prev; \ | |
| 3691 { \ | |
| 3692 *SFTB_prev = SFTB_current; \ | |
|
4976
16112448d484
Rename xfree(FOO, TYPE) -> xfree(FOO)
Ben Wing <ben@xemacs.org>
parents:
4969
diff
changeset
|
3693 xfree (SFTB_victim_block); \ |
| 771 | 3694 /* Restore free list to what it was before victim was swept */ \ |
| 3695 typename##_free_list = SFTB_old_free_list; \ | |
| 3696 num_free -= SFTB_limit; \ | |
| 3697 } \ | |
| 3698 } \ | |
| 3699 SFTB_limit = countof (current_##typename##_block->block); \ | |
| 3700 } \ | |
| 3701 \ | |
| 3702 gc_count_num_##typename##_in_use = num_used; \ | |
| 3703 gc_count_num_##typename##_freelist = num_free; \ | |
| 428 | 3704 } while (0) |
| 3705 | |
| 3706 #endif /* !ERROR_CHECK_GC */ | |
| 3707 | |
| 771 | 3708 #define SWEEP_FIXED_TYPE_BLOCK(typename, obj_type) \ |
| 3709 SWEEP_FIXED_TYPE_BLOCK_1 (typename, obj_type, lheader) | |
| 3710 | |
| 3263 | 3711 #endif /* not NEW_GC */ |
| 2720 | 3712 |
| 428 | 3713 |
| 3263 | 3714 #ifndef NEW_GC |
| 428 | 3715 static void |
| 3716 sweep_conses (void) | |
| 3717 { | |
| 3718 #define UNMARK_cons(ptr) UNMARK_RECORD_HEADER (&((ptr)->lheader)) | |
| 3719 #define ADDITIONAL_FREE_cons(ptr) | |
| 3720 | |
| 440 | 3721 SWEEP_FIXED_TYPE_BLOCK (cons, Lisp_Cons); |
| 428 | 3722 } |
| 3263 | 3723 #endif /* not NEW_GC */ |
| 428 | 3724 |
| 3725 /* Explicitly free a cons cell. */ | |
| 3726 void | |
| 853 | 3727 free_cons (Lisp_Object cons) |
| 428 | 3728 { |
| 3263 | 3729 #ifndef NEW_GC /* to avoid compiler warning */ |
| 853 | 3730 Lisp_Cons *ptr = XCONS (cons); |
| 3263 | 3731 #endif /* not NEW_GC */ |
| 853 | 3732 |
| 428 | 3733 #ifdef ERROR_CHECK_GC |
| 3263 | 3734 #ifdef NEW_GC |
| 2720 | 3735 Lisp_Cons *ptr = XCONS (cons); |
| 3263 | 3736 #endif /* NEW_GC */ |
| 428 | 3737 /* If the CAR is not an int, then it will be a pointer, which will |
| 3738 always be four-byte aligned. If this cons cell has already been | |
| 3739 placed on the free list, however, its car will probably contain | |
| 3740 a chain pointer to the next cons on the list, which has cleverly | |
| 3741 had all its 0's and 1's inverted. This allows for a quick | |
| 1204 | 3742 check to make sure we're not freeing something already freed. |
| 3743 | |
| 3744 NOTE: This check may not be necessary. Freeing an object sets its | |
| 3745 type to lrecord_type_free, which will trip up the XCONS() above -- as | |
| 3746 well as a check in FREE_FIXED_TYPE(). */ | |
| 853 | 3747 if (POINTER_TYPE_P (XTYPE (cons_car (ptr)))) |
| 3748 ASSERT_VALID_POINTER (XPNTR (cons_car (ptr))); | |
| 428 | 3749 #endif /* ERROR_CHECK_GC */ |
| 3750 | |
| 3263 | 3751 #ifdef NEW_GC |
| 2720 | 3752 free_lrecord (cons); |
| 3263 | 3753 #else /* not NEW_GC */ |
| 440 | 3754 FREE_FIXED_TYPE_WHEN_NOT_IN_GC (cons, Lisp_Cons, ptr); |
| 3263 | 3755 #endif /* not NEW_GC */ |
| 428 | 3756 } |
| 3757 | |
| 3758 /* explicitly free a list. You **must make sure** that you have | |
| 3759 created all the cons cells that make up this list and that there | |
| 3760 are no pointers to any of these cons cells anywhere else. If there | |
| 3761 are, you will lose. */ | |
| 3762 | |
| 3763 void | |
| 3764 free_list (Lisp_Object list) | |
| 3765 { | |
| 3766 Lisp_Object rest, next; | |
| 3767 | |
| 3768 for (rest = list; !NILP (rest); rest = next) | |
| 3769 { | |
| 3770 next = XCDR (rest); | |
| 853 | 3771 free_cons (rest); |
| 428 | 3772 } |
| 3773 } | |
| 3774 | |
| 3775 /* explicitly free an alist. You **must make sure** that you have | |
| 3776 created all the cons cells that make up this alist and that there | |
| 3777 are no pointers to any of these cons cells anywhere else. If there | |
| 3778 are, you will lose. */ | |
| 3779 | |
| 3780 void | |
| 3781 free_alist (Lisp_Object alist) | |
| 3782 { | |
| 3783 Lisp_Object rest, next; | |
| 3784 | |
| 3785 for (rest = alist; !NILP (rest); rest = next) | |
| 3786 { | |
| 3787 next = XCDR (rest); | |
| 853 | 3788 free_cons (XCAR (rest)); |
| 3789 free_cons (rest); | |
| 428 | 3790 } |
| 3791 } | |
| 3792 | |
| 3263 | 3793 #ifndef NEW_GC |
| 428 | 3794 static void |
| 3795 sweep_compiled_functions (void) | |
| 3796 { | |
| 3797 #define UNMARK_compiled_function(ptr) UNMARK_RECORD_HEADER (&((ptr)->lheader)) | |
| 945 | 3798 #define ADDITIONAL_FREE_compiled_function(ptr) \ |
|
4976
16112448d484
Rename xfree(FOO, TYPE) -> xfree(FOO)
Ben Wing <ben@xemacs.org>
parents:
4969
diff
changeset
|
3799 if (ptr->args_in_array) xfree (ptr->args) |
| 428 | 3800 |
| 3801 SWEEP_FIXED_TYPE_BLOCK (compiled_function, Lisp_Compiled_Function); | |
| 3802 } | |
| 3803 | |
| 3804 static void | |
| 3805 sweep_floats (void) | |
| 3806 { | |
| 3807 #define UNMARK_float(ptr) UNMARK_RECORD_HEADER (&((ptr)->lheader)) | |
| 3808 #define ADDITIONAL_FREE_float(ptr) | |
| 3809 | |
| 440 | 3810 SWEEP_FIXED_TYPE_BLOCK (float, Lisp_Float); |
| 428 | 3811 } |
| 3812 | |
| 1983 | 3813 #ifdef HAVE_BIGNUM |
| 3814 static void | |
| 3815 sweep_bignums (void) | |
| 3816 { | |
| 3817 #define UNMARK_bignum(ptr) UNMARK_RECORD_HEADER (&((ptr)->lheader)) | |
| 3818 #define ADDITIONAL_FREE_bignum(ptr) bignum_fini (ptr->data) | |
| 3819 | |
| 3820 SWEEP_FIXED_TYPE_BLOCK (bignum, Lisp_Bignum); | |
| 3821 } | |
| 3822 #endif /* HAVE_BIGNUM */ | |
| 3823 | |
| 3824 #ifdef HAVE_RATIO | |
| 3825 static void | |
| 3826 sweep_ratios (void) | |
| 3827 { | |
| 3828 #define UNMARK_ratio(ptr) UNMARK_RECORD_HEADER (&((ptr)->lheader)) | |
| 3829 #define ADDITIONAL_FREE_ratio(ptr) ratio_fini (ptr->data) | |
| 3830 | |
| 3831 SWEEP_FIXED_TYPE_BLOCK (ratio, Lisp_Ratio); | |
| 3832 } | |
| 3833 #endif /* HAVE_RATIO */ | |
| 3834 | |
| 3835 #ifdef HAVE_BIGFLOAT | |
| 3836 static void | |
| 3837 sweep_bigfloats (void) | |
| 3838 { | |
| 3839 #define UNMARK_bigfloat(ptr) UNMARK_RECORD_HEADER (&((ptr)->lheader)) | |
| 3840 #define ADDITIONAL_FREE_bigfloat(ptr) bigfloat_fini (ptr->bf) | |
| 3841 | |
| 3842 SWEEP_FIXED_TYPE_BLOCK (bigfloat, Lisp_Bigfloat); | |
| 3843 } | |
| 3844 #endif | |
| 3845 | |
| 428 | 3846 static void |
| 3847 sweep_symbols (void) | |
| 3848 { | |
| 3849 #define UNMARK_symbol(ptr) UNMARK_RECORD_HEADER (&((ptr)->lheader)) | |
| 3850 #define ADDITIONAL_FREE_symbol(ptr) | |
| 3851 | |
| 440 | 3852 SWEEP_FIXED_TYPE_BLOCK (symbol, Lisp_Symbol); |
| 428 | 3853 } |
| 3854 | |
| 3855 static void | |
| 3856 sweep_extents (void) | |
| 3857 { | |
| 3858 #define UNMARK_extent(ptr) UNMARK_RECORD_HEADER (&((ptr)->lheader)) | |
| 3859 #define ADDITIONAL_FREE_extent(ptr) | |
| 3860 | |
| 3861 SWEEP_FIXED_TYPE_BLOCK (extent, struct extent); | |
| 3862 } | |
| 3863 | |
| 3864 static void | |
| 3865 sweep_events (void) | |
| 3866 { | |
| 3867 #define UNMARK_event(ptr) UNMARK_RECORD_HEADER (&((ptr)->lheader)) | |
| 3868 #define ADDITIONAL_FREE_event(ptr) | |
| 3869 | |
| 440 | 3870 SWEEP_FIXED_TYPE_BLOCK (event, Lisp_Event); |
| 428 | 3871 } |
| 3263 | 3872 #endif /* not NEW_GC */ |
| 428 | 3873 |
| 1204 | 3874 #ifdef EVENT_DATA_AS_OBJECTS |
| 934 | 3875 |
| 3263 | 3876 #ifndef NEW_GC |
| 934 | 3877 static void |
| 3878 sweep_key_data (void) | |
| 3879 { | |
| 3880 #define UNMARK_key_data(ptr) UNMARK_RECORD_HEADER (&((ptr)->lheader)) | |
| 3881 #define ADDITIONAL_FREE_key_data(ptr) | |
| 3882 | |
| 3883 SWEEP_FIXED_TYPE_BLOCK (key_data, Lisp_Key_Data); | |
| 3884 } | |
| 3263 | 3885 #endif /* not NEW_GC */ |
| 934 | 3886 |
| 1204 | 3887 void |
| 3888 free_key_data (Lisp_Object ptr) | |
| 3889 { | |
| 3263 | 3890 #ifdef NEW_GC |
| 2720 | 3891 free_lrecord (ptr); |
| 3263 | 3892 #else /* not NEW_GC */ |
| 1204 | 3893 FREE_FIXED_TYPE_WHEN_NOT_IN_GC (key_data, Lisp_Key_Data, XKEY_DATA (ptr)); |
| 3263 | 3894 #endif /* not NEW_GC */ |
| 2720 | 3895 } |
| 3896 | |
| 3263 | 3897 #ifndef NEW_GC |
| 934 | 3898 static void |
| 3899 sweep_button_data (void) | |
| 3900 { | |
| 3901 #define UNMARK_button_data(ptr) UNMARK_RECORD_HEADER (&((ptr)->lheader)) | |
| 3902 #define ADDITIONAL_FREE_button_data(ptr) | |
| 3903 | |
| 3904 SWEEP_FIXED_TYPE_BLOCK (button_data, Lisp_Button_Data); | |
| 3905 } | |
| 3263 | 3906 #endif /* not NEW_GC */ |
| 934 | 3907 |
| 1204 | 3908 void |
| 3909 free_button_data (Lisp_Object ptr) | |
| 3910 { | |
| 3263 | 3911 #ifdef NEW_GC |
| 2720 | 3912 free_lrecord (ptr); |
| 3263 | 3913 #else /* not NEW_GC */ |
| 1204 | 3914 FREE_FIXED_TYPE_WHEN_NOT_IN_GC (button_data, Lisp_Button_Data, XBUTTON_DATA (ptr)); |
| 3263 | 3915 #endif /* not NEW_GC */ |
| 2720 | 3916 } |
| 3917 | |
| 3263 | 3918 #ifndef NEW_GC |
| 934 | 3919 static void |
| 3920 sweep_motion_data (void) | |
| 3921 { | |
| 3922 #define UNMARK_motion_data(ptr) UNMARK_RECORD_HEADER (&((ptr)->lheader)) | |
| 3923 #define ADDITIONAL_FREE_motion_data(ptr) | |
| 3924 | |
| 3925 SWEEP_FIXED_TYPE_BLOCK (motion_data, Lisp_Motion_Data); | |
| 3926 } | |
| 3263 | 3927 #endif /* not NEW_GC */ |
| 934 | 3928 |
| 1204 | 3929 void |
| 3930 free_motion_data (Lisp_Object ptr) | |
| 3931 { | |
| 3263 | 3932 #ifdef NEW_GC |
| 2720 | 3933 free_lrecord (ptr); |
| 3263 | 3934 #else /* not NEW_GC */ |
| 1204 | 3935 FREE_FIXED_TYPE_WHEN_NOT_IN_GC (motion_data, Lisp_Motion_Data, XMOTION_DATA (ptr)); |
| 3263 | 3936 #endif /* not NEW_GC */ |
| 2720 | 3937 } |
| 3938 | |
| 3263 | 3939 #ifndef NEW_GC |
| 934 | 3940 static void |
| 3941 sweep_process_data (void) | |
| 3942 { | |
| 3943 #define UNMARK_process_data(ptr) UNMARK_RECORD_HEADER (&((ptr)->lheader)) | |
| 3944 #define ADDITIONAL_FREE_process_data(ptr) | |
| 3945 | |
| 3946 SWEEP_FIXED_TYPE_BLOCK (process_data, Lisp_Process_Data); | |
| 3947 } | |
| 3263 | 3948 #endif /* not NEW_GC */ |
| 934 | 3949 |
| 1204 | 3950 void |
| 3951 free_process_data (Lisp_Object ptr) | |
| 3952 { | |
| 3263 | 3953 #ifdef NEW_GC |
| 2720 | 3954 free_lrecord (ptr); |
| 3263 | 3955 #else /* not NEW_GC */ |
| 1204 | 3956 FREE_FIXED_TYPE_WHEN_NOT_IN_GC (process_data, Lisp_Process_Data, XPROCESS_DATA (ptr)); |
| 3263 | 3957 #endif /* not NEW_GC */ |
| 2720 | 3958 } |
| 3959 | |
| 3263 | 3960 #ifndef NEW_GC |
| 934 | 3961 static void |
| 3962 sweep_timeout_data (void) | |
| 3963 { | |
| 3964 #define UNMARK_timeout_data(ptr) UNMARK_RECORD_HEADER (&((ptr)->lheader)) | |
| 3965 #define ADDITIONAL_FREE_timeout_data(ptr) | |
| 3966 | |
| 3967 SWEEP_FIXED_TYPE_BLOCK (timeout_data, Lisp_Timeout_Data); | |
| 3968 } | |
| 3263 | 3969 #endif /* not NEW_GC */ |
| 934 | 3970 |
| 1204 | 3971 void |
| 3972 free_timeout_data (Lisp_Object ptr) | |
| 3973 { | |
| 3263 | 3974 #ifdef NEW_GC |
| 2720 | 3975 free_lrecord (ptr); |
| 3263 | 3976 #else /* not NEW_GC */ |
| 1204 | 3977 FREE_FIXED_TYPE_WHEN_NOT_IN_GC (timeout_data, Lisp_Timeout_Data, XTIMEOUT_DATA (ptr)); |
| 3263 | 3978 #endif /* not NEW_GC */ |
| 2720 | 3979 } |
| 3980 | |
| 3263 | 3981 #ifndef NEW_GC |
| 934 | 3982 static void |
| 3983 sweep_magic_data (void) | |
| 3984 { | |
| 3985 #define UNMARK_magic_data(ptr) UNMARK_RECORD_HEADER (&((ptr)->lheader)) | |
| 3986 #define ADDITIONAL_FREE_magic_data(ptr) | |
| 3987 | |
| 3988 SWEEP_FIXED_TYPE_BLOCK (magic_data, Lisp_Magic_Data); | |
| 3989 } | |
| 3263 | 3990 #endif /* not NEW_GC */ |
| 934 | 3991 |
| 1204 | 3992 void |
| 3993 free_magic_data (Lisp_Object ptr) | |
| 3994 { | |
| 3263 | 3995 #ifdef NEW_GC |
| 2720 | 3996 free_lrecord (ptr); |
| 3263 | 3997 #else /* not NEW_GC */ |
| 1204 | 3998 FREE_FIXED_TYPE_WHEN_NOT_IN_GC (magic_data, Lisp_Magic_Data, XMAGIC_DATA (ptr)); |
| 3263 | 3999 #endif /* not NEW_GC */ |
| 2720 | 4000 } |
| 4001 | |
| 3263 | 4002 #ifndef NEW_GC |
| 934 | 4003 static void |
| 4004 sweep_magic_eval_data (void) | |
| 4005 { | |
| 4006 #define UNMARK_magic_eval_data(ptr) UNMARK_RECORD_HEADER (&((ptr)->lheader)) | |
| 4007 #define ADDITIONAL_FREE_magic_eval_data(ptr) | |
| 4008 | |
| 4009 SWEEP_FIXED_TYPE_BLOCK (magic_eval_data, Lisp_Magic_Eval_Data); | |
| 4010 } | |
| 3263 | 4011 #endif /* not NEW_GC */ |
| 934 | 4012 |
| 1204 | 4013 void |
| 4014 free_magic_eval_data (Lisp_Object ptr) | |
| 4015 { | |
| 3263 | 4016 #ifdef NEW_GC |
| 2720 | 4017 free_lrecord (ptr); |
| 3263 | 4018 #else /* not NEW_GC */ |
| 1204 | 4019 FREE_FIXED_TYPE_WHEN_NOT_IN_GC (magic_eval_data, Lisp_Magic_Eval_Data, XMAGIC_EVAL_DATA (ptr)); |
| 3263 | 4020 #endif /* not NEW_GC */ |
| 2720 | 4021 } |
| 4022 | |
| 3263 | 4023 #ifndef NEW_GC |
| 934 | 4024 static void |
| 4025 sweep_eval_data (void) | |
| 4026 { | |
| 4027 #define UNMARK_eval_data(ptr) UNMARK_RECORD_HEADER (&((ptr)->lheader)) | |
| 4028 #define ADDITIONAL_FREE_eval_data(ptr) | |
| 4029 | |
| 4030 SWEEP_FIXED_TYPE_BLOCK (eval_data, Lisp_Eval_Data); | |
| 4031 } | |
| 3263 | 4032 #endif /* not NEW_GC */ |
| 934 | 4033 |
| 1204 | 4034 void |
| 4035 free_eval_data (Lisp_Object ptr) | |
| 4036 { | |
| 3263 | 4037 #ifdef NEW_GC |
| 2720 | 4038 free_lrecord (ptr); |
| 3263 | 4039 #else /* not NEW_GC */ |
| 1204 | 4040 FREE_FIXED_TYPE_WHEN_NOT_IN_GC (eval_data, Lisp_Eval_Data, XEVAL_DATA (ptr)); |
| 3263 | 4041 #endif /* not NEW_GC */ |
| 2720 | 4042 } |
| 4043 | |
| 3263 | 4044 #ifndef NEW_GC |
| 934 | 4045 static void |
| 4046 sweep_misc_user_data (void) | |
| 4047 { | |
| 4048 #define UNMARK_misc_user_data(ptr) UNMARK_RECORD_HEADER (&((ptr)->lheader)) | |
| 4049 #define ADDITIONAL_FREE_misc_user_data(ptr) | |
| 4050 | |
| 4051 SWEEP_FIXED_TYPE_BLOCK (misc_user_data, Lisp_Misc_User_Data); | |
| 4052 } | |
| 3263 | 4053 #endif /* not NEW_GC */ |
| 934 | 4054 |
| 1204 | 4055 void |
| 4056 free_misc_user_data (Lisp_Object ptr) | |
| 4057 { | |
| 3263 | 4058 #ifdef NEW_GC |
| 2720 | 4059 free_lrecord (ptr); |
| 3263 | 4060 #else /* not NEW_GC */ |
| 1204 | 4061 FREE_FIXED_TYPE_WHEN_NOT_IN_GC (misc_user_data, Lisp_Misc_User_Data, XMISC_USER_DATA (ptr)); |
| 3263 | 4062 #endif /* not NEW_GC */ |
| 1204 | 4063 } |
| 4064 | |
| 4065 #endif /* EVENT_DATA_AS_OBJECTS */ | |
| 934 | 4066 |
| 3263 | 4067 #ifndef NEW_GC |
| 428 | 4068 static void |
| 4069 sweep_markers (void) | |
| 4070 { | |
| 4071 #define UNMARK_marker(ptr) UNMARK_RECORD_HEADER (&((ptr)->lheader)) | |
| 4072 #define ADDITIONAL_FREE_marker(ptr) \ | |
| 4073 do { Lisp_Object tem; \ | |
| 793 | 4074 tem = wrap_marker (ptr); \ |
| 428 | 4075 unchain_marker (tem); \ |
| 4076 } while (0) | |
| 4077 | |
| 440 | 4078 SWEEP_FIXED_TYPE_BLOCK (marker, Lisp_Marker); |
| 428 | 4079 } |
| 3263 | 4080 #endif /* not NEW_GC */ |
| 428 | 4081 |
| 4082 /* Explicitly free a marker. */ | |
| 4083 void | |
| 1204 | 4084 free_marker (Lisp_Object ptr) |
| 428 | 4085 { |
| 3263 | 4086 #ifdef NEW_GC |
| 2720 | 4087 free_lrecord (ptr); |
| 3263 | 4088 #else /* not NEW_GC */ |
| 1204 | 4089 FREE_FIXED_TYPE_WHEN_NOT_IN_GC (marker, Lisp_Marker, XMARKER (ptr)); |
| 3263 | 4090 #endif /* not NEW_GC */ |
| 428 | 4091 } |
| 4092 | |
| 4093 | |
| 4094 #if defined (MULE) && defined (VERIFY_STRING_CHARS_INTEGRITY) | |
| 4095 | |
| 4096 static void | |
| 4097 verify_string_chars_integrity (void) | |
| 4098 { | |
| 4099 struct string_chars_block *sb; | |
| 4100 | |
| 4101 /* Scan each existing string block sequentially, string by string. */ | |
| 4102 for (sb = first_string_chars_block; sb; sb = sb->next) | |
| 4103 { | |
| 4104 int pos = 0; | |
| 4105 /* POS is the index of the next string in the block. */ | |
| 4106 while (pos < sb->pos) | |
| 4107 { | |
| 4108 struct string_chars *s_chars = | |
| 4109 (struct string_chars *) &(sb->string_chars[pos]); | |
| 438 | 4110 Lisp_String *string; |
| 428 | 4111 int size; |
| 4112 int fullsize; | |
| 4113 | |
| 454 | 4114 /* If the string_chars struct is marked as free (i.e. the |
| 4115 STRING pointer is NULL) then this is an unused chunk of | |
| 4116 string storage. (See below.) */ | |
| 4117 | |
| 4118 if (STRING_CHARS_FREE_P (s_chars)) | |
| 428 | 4119 { |
| 4120 fullsize = ((struct unused_string_chars *) s_chars)->fullsize; | |
| 4121 pos += fullsize; | |
| 4122 continue; | |
| 4123 } | |
| 4124 | |
| 4125 string = s_chars->string; | |
| 4126 /* Must be 32-bit aligned. */ | |
| 4127 assert ((((int) string) & 3) == 0); | |
| 4128 | |
| 793 | 4129 size = string->size_; |
| 428 | 4130 fullsize = STRING_FULLSIZE (size); |
| 4131 | |
| 4132 assert (!BIG_STRING_FULLSIZE_P (fullsize)); | |
| 2720 | 4133 assert (XSTRING_DATA (string) == s_chars->chars); |
| 428 | 4134 pos += fullsize; |
| 4135 } | |
| 4136 assert (pos == sb->pos); | |
| 4137 } | |
| 4138 } | |
| 4139 | |
| 1204 | 4140 #endif /* defined (MULE) && defined (VERIFY_STRING_CHARS_INTEGRITY) */ |
| 428 | 4141 |
| 3092 | 4142 #ifndef NEW_GC |
| 428 | 4143 /* Compactify string chars, relocating the reference to each -- |
| 4144 free any empty string_chars_block we see. */ | |
|
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Ben Wing <ben@xemacs.org>
parents:
4976
diff
changeset
|
4145 static void |
| 428 | 4146 compact_string_chars (void) |
| 4147 { | |
| 4148 struct string_chars_block *to_sb = first_string_chars_block; | |
| 4149 int to_pos = 0; | |
| 4150 struct string_chars_block *from_sb; | |
| 4151 | |
| 4152 /* Scan each existing string block sequentially, string by string. */ | |
| 4153 for (from_sb = first_string_chars_block; from_sb; from_sb = from_sb->next) | |
| 4154 { | |
| 4155 int from_pos = 0; | |
| 4156 /* FROM_POS is the index of the next string in the block. */ | |
| 4157 while (from_pos < from_sb->pos) | |
| 4158 { | |
| 4159 struct string_chars *from_s_chars = | |
| 4160 (struct string_chars *) &(from_sb->string_chars[from_pos]); | |
| 4161 struct string_chars *to_s_chars; | |
| 438 | 4162 Lisp_String *string; |
| 428 | 4163 int size; |
| 4164 int fullsize; | |
| 4165 | |
| 454 | 4166 /* If the string_chars struct is marked as free (i.e. the |
| 4167 STRING pointer is NULL) then this is an unused chunk of | |
| 4168 string storage. This happens under Mule when a string's | |
| 4169 size changes in such a way that its fullsize changes. | |
| 4170 (Strings can change size because a different-length | |
| 4171 character can be substituted for another character.) | |
| 4172 In this case, after the bogus string pointer is the | |
| 4173 "fullsize" of this entry, i.e. how many bytes to skip. */ | |
| 4174 | |
| 4175 if (STRING_CHARS_FREE_P (from_s_chars)) | |
| 428 | 4176 { |
| 4177 fullsize = ((struct unused_string_chars *) from_s_chars)->fullsize; | |
| 4178 from_pos += fullsize; | |
| 4179 continue; | |
| 4180 } | |
| 4181 | |
| 4182 string = from_s_chars->string; | |
| 1204 | 4183 gc_checking_assert (!(LRECORD_FREE_P (string))); |
| 428 | 4184 |
| 793 | 4185 size = string->size_; |
| 428 | 4186 fullsize = STRING_FULLSIZE (size); |
| 4187 | |
| 442 | 4188 gc_checking_assert (! BIG_STRING_FULLSIZE_P (fullsize)); |
| 428 | 4189 |
| 4190 /* Just skip it if it isn't marked. */ | |
| 771 | 4191 if (! MARKED_RECORD_HEADER_P (&(string->u.lheader))) |
| 428 | 4192 { |
| 4193 from_pos += fullsize; | |
| 4194 continue; | |
| 4195 } | |
| 4196 | |
| 4197 /* If it won't fit in what's left of TO_SB, close TO_SB out | |
| 4198 and go on to the next string_chars_block. We know that TO_SB | |
| 4199 cannot advance past FROM_SB here since FROM_SB is large enough | |
| 4200 to currently contain this string. */ | |
| 4201 if ((to_pos + fullsize) > countof (to_sb->string_chars)) | |
| 4202 { | |
| 4203 to_sb->pos = to_pos; | |
| 4204 to_sb = to_sb->next; | |
| 4205 to_pos = 0; | |
| 4206 } | |
| 4207 | |
| 4208 /* Compute new address of this string | |
| 4209 and update TO_POS for the space being used. */ | |
| 4210 to_s_chars = (struct string_chars *) &(to_sb->string_chars[to_pos]); | |
| 4211 | |
| 4212 /* Copy the string_chars to the new place. */ | |
| 4213 if (from_s_chars != to_s_chars) | |
| 4214 memmove (to_s_chars, from_s_chars, fullsize); | |
| 4215 | |
| 4216 /* Relocate FROM_S_CHARS's reference */ | |
| 826 | 4217 set_lispstringp_data (string, &(to_s_chars->chars[0])); |
| 428 | 4218 |
| 4219 from_pos += fullsize; | |
| 4220 to_pos += fullsize; | |
| 4221 } | |
| 4222 } | |
| 4223 | |
| 4224 /* Set current to the last string chars block still used and | |
| 4225 free any that follow. */ | |
| 4226 { | |
| 4227 struct string_chars_block *victim; | |
| 4228 | |
| 4229 for (victim = to_sb->next; victim; ) | |
| 4230 { | |
| 4231 struct string_chars_block *next = victim->next; | |
|
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parents:
4969
diff
changeset
|
4232 xfree (victim); |
| 428 | 4233 victim = next; |
| 4234 } | |
| 4235 | |
| 4236 current_string_chars_block = to_sb; | |
| 4237 current_string_chars_block->pos = to_pos; | |
| 4238 current_string_chars_block->next = 0; | |
| 4239 } | |
| 4240 } | |
| 3092 | 4241 #endif /* not NEW_GC */ |
| 428 | 4242 |
| 3263 | 4243 #ifndef NEW_GC |
| 428 | 4244 #if 1 /* Hack to debug missing purecopy's */ |
| 4245 static int debug_string_purity; | |
| 4246 | |
| 4247 static void | |
| 793 | 4248 debug_string_purity_print (Lisp_Object p) |
| 428 | 4249 { |
| 4250 Charcount i; | |
| 826 | 4251 Charcount s = string_char_length (p); |
| 442 | 4252 stderr_out ("\""); |
| 428 | 4253 for (i = 0; i < s; i++) |
| 4254 { | |
| 867 | 4255 Ichar ch = string_ichar (p, i); |
| 428 | 4256 if (ch < 32 || ch >= 126) |
| 4257 stderr_out ("\\%03o", ch); | |
| 4258 else if (ch == '\\' || ch == '\"') | |
| 4259 stderr_out ("\\%c", ch); | |
| 4260 else | |
| 4261 stderr_out ("%c", ch); | |
| 4262 } | |
| 4263 stderr_out ("\"\n"); | |
| 4264 } | |
| 4265 #endif /* 1 */ | |
| 3263 | 4266 #endif /* not NEW_GC */ |
| 4267 | |
| 4268 #ifndef NEW_GC | |
| 428 | 4269 static void |
| 4270 sweep_strings (void) | |
| 4271 { | |
| 647 | 4272 int num_small_used = 0; |
| 4273 Bytecount num_small_bytes = 0, num_bytes = 0; | |
| 428 | 4274 int debug = debug_string_purity; |
| 4275 | |
| 793 | 4276 #define UNMARK_string(ptr) do { \ |
| 4277 Lisp_String *p = (ptr); \ | |
| 4278 Bytecount size = p->size_; \ | |
| 4279 UNMARK_RECORD_HEADER (&(p->u.lheader)); \ | |
| 4280 num_bytes += size; \ | |
| 4281 if (!BIG_STRING_SIZE_P (size)) \ | |
| 4282 { \ | |
| 4283 num_small_bytes += size; \ | |
| 4284 num_small_used++; \ | |
| 4285 } \ | |
| 4286 if (debug) \ | |
| 4287 debug_string_purity_print (wrap_string (p)); \ | |
| 438 | 4288 } while (0) |
| 4289 #define ADDITIONAL_FREE_string(ptr) do { \ | |
| 793 | 4290 Bytecount size = ptr->size_; \ |
| 438 | 4291 if (BIG_STRING_SIZE_P (size)) \ |
|
4976
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Ben Wing <ben@xemacs.org>
parents:
4969
diff
changeset
|
4292 xfree (ptr->data_); \ |
| 438 | 4293 } while (0) |
| 4294 | |
| 771 | 4295 SWEEP_FIXED_TYPE_BLOCK_1 (string, Lisp_String, u.lheader); |
| 428 | 4296 |
| 4297 gc_count_num_short_string_in_use = num_small_used; | |
| 4298 gc_count_string_total_size = num_bytes; | |
| 4299 gc_count_short_string_total_size = num_small_bytes; | |
| 4300 } | |
| 3263 | 4301 #endif /* not NEW_GC */ |
| 428 | 4302 |
| 3092 | 4303 #ifndef NEW_GC |
| 4304 void | |
| 4305 gc_sweep_1 (void) | |
| 428 | 4306 { |
| 4307 /* Free all unmarked records. Do this at the very beginning, | |
| 4308 before anything else, so that the finalize methods can safely | |
| 4309 examine items in the objects. sweep_lcrecords_1() makes | |
| 4310 sure to call all the finalize methods *before* freeing anything, | |
| 4311 to complete the safety. */ | |
| 4312 { | |
| 4313 int ignored; | |
| 4314 sweep_lcrecords_1 (&all_lcrecords, &ignored); | |
| 4315 } | |
| 4316 | |
| 4317 compact_string_chars (); | |
| 4318 | |
| 4319 /* Finalize methods below (called through the ADDITIONAL_FREE_foo | |
| 4320 macros) must be *extremely* careful to make sure they're not | |
| 4321 referencing freed objects. The only two existing finalize | |
| 4322 methods (for strings and markers) pass muster -- the string | |
| 4323 finalizer doesn't look at anything but its own specially- | |
| 4324 created block, and the marker finalizer only looks at live | |
| 4325 buffers (which will never be freed) and at the markers before | |
| 4326 and after it in the chain (which, by induction, will never be | |
| 4327 freed because if so, they would have already removed themselves | |
| 4328 from the chain). */ | |
| 4329 | |
| 4330 /* Put all unmarked strings on free list, free'ing the string chars | |
| 4331 of large unmarked strings */ | |
| 4332 sweep_strings (); | |
| 4333 | |
| 4334 /* Put all unmarked conses on free list */ | |
| 4335 sweep_conses (); | |
| 4336 | |
| 4337 /* Free all unmarked compiled-function objects */ | |
| 4338 sweep_compiled_functions (); | |
| 4339 | |
| 4340 /* Put all unmarked floats on free list */ | |
| 4341 sweep_floats (); | |
| 4342 | |
| 1983 | 4343 #ifdef HAVE_BIGNUM |
| 4344 /* Put all unmarked bignums on free list */ | |
| 4345 sweep_bignums (); | |
| 4346 #endif | |
| 4347 | |
| 4348 #ifdef HAVE_RATIO | |
| 4349 /* Put all unmarked ratios on free list */ | |
| 4350 sweep_ratios (); | |
| 4351 #endif | |
| 4352 | |
| 4353 #ifdef HAVE_BIGFLOAT | |
| 4354 /* Put all unmarked bigfloats on free list */ | |
| 4355 sweep_bigfloats (); | |
| 4356 #endif | |
| 4357 | |
| 428 | 4358 /* Put all unmarked symbols on free list */ |
| 4359 sweep_symbols (); | |
| 4360 | |
| 4361 /* Put all unmarked extents on free list */ | |
| 4362 sweep_extents (); | |
| 4363 | |
| 4364 /* Put all unmarked markers on free list. | |
| 4365 Dechain each one first from the buffer into which it points. */ | |
| 4366 sweep_markers (); | |
| 4367 | |
| 4368 sweep_events (); | |
| 4369 | |
| 1204 | 4370 #ifdef EVENT_DATA_AS_OBJECTS |
| 934 | 4371 sweep_key_data (); |
| 4372 sweep_button_data (); | |
| 4373 sweep_motion_data (); | |
| 4374 sweep_process_data (); | |
| 4375 sweep_timeout_data (); | |
| 4376 sweep_magic_data (); | |
| 4377 sweep_magic_eval_data (); | |
| 4378 sweep_eval_data (); | |
| 4379 sweep_misc_user_data (); | |
| 1204 | 4380 #endif /* EVENT_DATA_AS_OBJECTS */ |
| 3263 | 4381 #endif /* not NEW_GC */ |
| 4382 | |
| 4383 #ifndef NEW_GC | |
| 428 | 4384 #ifdef PDUMP |
| 442 | 4385 pdump_objects_unmark (); |
| 428 | 4386 #endif |
| 4387 } | |
| 3092 | 4388 #endif /* not NEW_GC */ |
| 428 | 4389 |
| 4390 /* Clearing for disksave. */ | |
| 4391 | |
| 4392 void | |
| 4393 disksave_object_finalization (void) | |
| 4394 { | |
| 4395 /* It's important that certain information from the environment not get | |
| 4396 dumped with the executable (pathnames, environment variables, etc.). | |
| 4397 To make it easier to tell when this has happened with strings(1) we | |
| 4398 clear some known-to-be-garbage blocks of memory, so that leftover | |
| 4399 results of old evaluation don't look like potential problems. | |
| 4400 But first we set some notable variables to nil and do one more GC, | |
| 4401 to turn those strings into garbage. | |
| 440 | 4402 */ |
| 428 | 4403 |
| 4404 /* Yeah, this list is pretty ad-hoc... */ | |
| 4405 Vprocess_environment = Qnil; | |
| 771 | 4406 env_initted = 0; |
| 428 | 4407 Vexec_directory = Qnil; |
| 4408 Vdata_directory = Qnil; | |
| 4409 Vsite_directory = Qnil; | |
| 4410 Vdoc_directory = Qnil; | |
| 4411 Vexec_path = Qnil; | |
| 4412 Vload_path = Qnil; | |
| 4413 /* Vdump_load_path = Qnil; */ | |
| 4414 /* Release hash tables for locate_file */ | |
| 4415 Flocate_file_clear_hashing (Qt); | |
| 771 | 4416 uncache_home_directory (); |
| 776 | 4417 zero_out_command_line_status_vars (); |
| 872 | 4418 clear_default_devices (); |
| 428 | 4419 |
| 4420 #if defined(LOADHIST) && !(defined(LOADHIST_DUMPED) || \ | |
| 4421 defined(LOADHIST_BUILTIN)) | |
| 4422 Vload_history = Qnil; | |
| 4423 #endif | |
| 4424 Vshell_file_name = Qnil; | |
| 4425 | |
| 3092 | 4426 #ifdef NEW_GC |
| 4427 gc_full (); | |
| 4428 #else /* not NEW_GC */ | |
| 428 | 4429 garbage_collect_1 (); |
| 3092 | 4430 #endif /* not NEW_GC */ |
| 428 | 4431 |
| 4432 /* Run the disksave finalization methods of all live objects. */ | |
| 4433 disksave_object_finalization_1 (); | |
| 4434 | |
| 3092 | 4435 #ifndef NEW_GC |
| 428 | 4436 /* Zero out the uninitialized (really, unused) part of the containers |
| 4437 for the live strings. */ | |
| 4438 { | |
| 4439 struct string_chars_block *scb; | |
| 4440 for (scb = first_string_chars_block; scb; scb = scb->next) | |
| 4441 { | |
| 4442 int count = sizeof (scb->string_chars) - scb->pos; | |
| 4443 | |
| 4444 assert (count >= 0 && count < STRING_CHARS_BLOCK_SIZE); | |
| 440 | 4445 if (count != 0) |
| 4446 { | |
| 4447 /* from the block's fill ptr to the end */ | |
| 4448 memset ((scb->string_chars + scb->pos), 0, count); | |
| 4449 } | |
| 428 | 4450 } |
| 4451 } | |
| 3092 | 4452 #endif /* not NEW_GC */ |
| 428 | 4453 |
| 4454 /* There, that ought to be enough... */ | |
| 4455 | |
| 4456 } | |
| 4457 | |
| 2994 | 4458 #ifdef ALLOC_TYPE_STATS |
| 4459 | |
| 2720 | 4460 static Lisp_Object |
| 2994 | 4461 gc_plist_hack (const Ascbyte *name, EMACS_INT value, Lisp_Object tail) |
| 2720 | 4462 { |
| 4463 /* C doesn't have local functions (or closures, or GC, or readable syntax, | |
| 4464 or portable numeric datatypes, or bit-vectors, or characters, or | |
| 4465 arrays, or exceptions, or ...) */ | |
| 4466 return cons3 (intern (name), make_int (value), tail); | |
| 4467 } | |
| 2775 | 4468 |
| 2994 | 4469 static Lisp_Object |
| 4470 object_memory_usage_stats (int set_total_gc_usage) | |
| 2720 | 4471 { |
| 4472 Lisp_Object pl = Qnil; | |
| 4473 int i; | |
| 2994 | 4474 EMACS_INT tgu_val = 0; |
| 4475 | |
| 3263 | 4476 #ifdef NEW_GC |
| 2775 | 4477 |
| 3461 | 4478 for (i = 0; i < countof (lrecord_implementations_table); i++) |
| 2720 | 4479 { |
| 4480 if (lrecord_stats[i].instances_in_use != 0) | |
| 4481 { | |
|
4952
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Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
4482 Ascbyte buf[255]; |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
4483 const Ascbyte *name = lrecord_implementations_table[i]->name; |
| 2720 | 4484 int len = strlen (name); |
| 4485 | |
| 4486 if (lrecord_stats[i].bytes_in_use_including_overhead != | |
| 4487 lrecord_stats[i].bytes_in_use) | |
| 4488 { | |
| 4489 sprintf (buf, "%s-storage-including-overhead", name); | |
| 4490 pl = gc_plist_hack (buf, | |
| 4491 lrecord_stats[i] | |
| 4492 .bytes_in_use_including_overhead, | |
| 4493 pl); | |
| 4494 } | |
| 4495 | |
| 4496 sprintf (buf, "%s-storage", name); | |
| 4497 pl = gc_plist_hack (buf, | |
| 4498 lrecord_stats[i].bytes_in_use, | |
| 4499 pl); | |
| 2994 | 4500 tgu_val += lrecord_stats[i].bytes_in_use_including_overhead; |
| 2720 | 4501 |
| 4502 if (name[len-1] == 's') | |
| 4503 sprintf (buf, "%ses-used", name); | |
| 4504 else | |
| 4505 sprintf (buf, "%ss-used", name); | |
| 4506 pl = gc_plist_hack (buf, lrecord_stats[i].instances_in_use, pl); | |
| 4507 } | |
| 4508 } | |
| 2994 | 4509 |
| 3263 | 4510 #else /* not NEW_GC */ |
| 428 | 4511 |
| 4512 #define HACK_O_MATIC(type, name, pl) do { \ | |
| 2994 | 4513 EMACS_INT s = 0; \ |
| 428 | 4514 struct type##_block *x = current_##type##_block; \ |
| 4515 while (x) { s += sizeof (*x) + MALLOC_OVERHEAD; x = x->prev; } \ | |
| 2994 | 4516 tgu_val += s; \ |
| 428 | 4517 (pl) = gc_plist_hack ((name), s, (pl)); \ |
| 4518 } while (0) | |
| 4519 | |
| 442 | 4520 for (i = 0; i < lrecord_type_count; i++) |
| 428 | 4521 { |
| 4522 if (lcrecord_stats[i].bytes_in_use != 0 | |
| 4523 || lcrecord_stats[i].bytes_freed != 0 | |
| 4524 || lcrecord_stats[i].instances_on_free_list != 0) | |
| 4525 { | |
|
4952
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Ben Wing <ben@xemacs.org>
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4938
diff
changeset
|
4526 Ascbyte buf[255]; |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
4527 const Ascbyte *name = lrecord_implementations_table[i]->name; |
| 428 | 4528 int len = strlen (name); |
| 4529 | |
| 4530 sprintf (buf, "%s-storage", name); | |
| 4531 pl = gc_plist_hack (buf, lcrecord_stats[i].bytes_in_use, pl); | |
| 2994 | 4532 tgu_val += lcrecord_stats[i].bytes_in_use; |
| 428 | 4533 /* Okay, simple pluralization check for `symbol-value-varalias' */ |
| 4534 if (name[len-1] == 's') | |
| 4535 sprintf (buf, "%ses-freed", name); | |
| 4536 else | |
| 4537 sprintf (buf, "%ss-freed", name); | |
| 4538 if (lcrecord_stats[i].instances_freed != 0) | |
| 4539 pl = gc_plist_hack (buf, lcrecord_stats[i].instances_freed, pl); | |
| 4540 if (name[len-1] == 's') | |
| 4541 sprintf (buf, "%ses-on-free-list", name); | |
| 4542 else | |
| 4543 sprintf (buf, "%ss-on-free-list", name); | |
| 4544 if (lcrecord_stats[i].instances_on_free_list != 0) | |
| 4545 pl = gc_plist_hack (buf, lcrecord_stats[i].instances_on_free_list, | |
| 4546 pl); | |
| 4547 if (name[len-1] == 's') | |
| 4548 sprintf (buf, "%ses-used", name); | |
| 4549 else | |
| 4550 sprintf (buf, "%ss-used", name); | |
| 4551 pl = gc_plist_hack (buf, lcrecord_stats[i].instances_in_use, pl); | |
| 4552 } | |
| 4553 } | |
| 4554 | |
| 4555 HACK_O_MATIC (extent, "extent-storage", pl); | |
| 4556 pl = gc_plist_hack ("extents-free", gc_count_num_extent_freelist, pl); | |
| 4557 pl = gc_plist_hack ("extents-used", gc_count_num_extent_in_use, pl); | |
| 4558 HACK_O_MATIC (event, "event-storage", pl); | |
| 4559 pl = gc_plist_hack ("events-free", gc_count_num_event_freelist, pl); | |
| 4560 pl = gc_plist_hack ("events-used", gc_count_num_event_in_use, pl); | |
| 4561 HACK_O_MATIC (marker, "marker-storage", pl); | |
| 4562 pl = gc_plist_hack ("markers-free", gc_count_num_marker_freelist, pl); | |
| 4563 pl = gc_plist_hack ("markers-used", gc_count_num_marker_in_use, pl); | |
| 4564 HACK_O_MATIC (float, "float-storage", pl); | |
| 4565 pl = gc_plist_hack ("floats-free", gc_count_num_float_freelist, pl); | |
| 4566 pl = gc_plist_hack ("floats-used", gc_count_num_float_in_use, pl); | |
| 1983 | 4567 #ifdef HAVE_BIGNUM |
| 4568 HACK_O_MATIC (bignum, "bignum-storage", pl); | |
| 4569 pl = gc_plist_hack ("bignums-free", gc_count_num_bignum_freelist, pl); | |
| 4570 pl = gc_plist_hack ("bignums-used", gc_count_num_bignum_in_use, pl); | |
| 4571 #endif /* HAVE_BIGNUM */ | |
| 4572 #ifdef HAVE_RATIO | |
| 4573 HACK_O_MATIC (ratio, "ratio-storage", pl); | |
| 4574 pl = gc_plist_hack ("ratios-free", gc_count_num_ratio_freelist, pl); | |
| 4575 pl = gc_plist_hack ("ratios-used", gc_count_num_ratio_in_use, pl); | |
| 4576 #endif /* HAVE_RATIO */ | |
| 4577 #ifdef HAVE_BIGFLOAT | |
| 4578 HACK_O_MATIC (bigfloat, "bigfloat-storage", pl); | |
| 4579 pl = gc_plist_hack ("bigfloats-free", gc_count_num_bigfloat_freelist, pl); | |
| 4580 pl = gc_plist_hack ("bigfloats-used", gc_count_num_bigfloat_in_use, pl); | |
| 4581 #endif /* HAVE_BIGFLOAT */ | |
| 428 | 4582 HACK_O_MATIC (string, "string-header-storage", pl); |
| 4583 pl = gc_plist_hack ("long-strings-total-length", | |
| 4584 gc_count_string_total_size | |
| 4585 - gc_count_short_string_total_size, pl); | |
| 4586 HACK_O_MATIC (string_chars, "short-string-storage", pl); | |
| 4587 pl = gc_plist_hack ("short-strings-total-length", | |
| 4588 gc_count_short_string_total_size, pl); | |
| 4589 pl = gc_plist_hack ("strings-free", gc_count_num_string_freelist, pl); | |
| 4590 pl = gc_plist_hack ("long-strings-used", | |
| 4591 gc_count_num_string_in_use | |
| 4592 - gc_count_num_short_string_in_use, pl); | |
| 4593 pl = gc_plist_hack ("short-strings-used", | |
| 4594 gc_count_num_short_string_in_use, pl); | |
| 4595 | |
| 4596 HACK_O_MATIC (compiled_function, "compiled-function-storage", pl); | |
| 4597 pl = gc_plist_hack ("compiled-functions-free", | |
| 4598 gc_count_num_compiled_function_freelist, pl); | |
| 4599 pl = gc_plist_hack ("compiled-functions-used", | |
| 4600 gc_count_num_compiled_function_in_use, pl); | |
| 4601 | |
| 4602 HACK_O_MATIC (symbol, "symbol-storage", pl); | |
| 4603 pl = gc_plist_hack ("symbols-free", gc_count_num_symbol_freelist, pl); | |
| 4604 pl = gc_plist_hack ("symbols-used", gc_count_num_symbol_in_use, pl); | |
| 4605 | |
| 4606 HACK_O_MATIC (cons, "cons-storage", pl); | |
| 4607 pl = gc_plist_hack ("conses-free", gc_count_num_cons_freelist, pl); | |
| 4608 pl = gc_plist_hack ("conses-used", gc_count_num_cons_in_use, pl); | |
| 4609 | |
| 2994 | 4610 #undef HACK_O_MATIC |
| 4611 | |
| 3263 | 4612 #endif /* NEW_GC */ |
| 2994 | 4613 |
| 4614 if (set_total_gc_usage) | |
| 4615 { | |
| 4616 total_gc_usage = tgu_val; | |
| 4617 total_gc_usage_set = 1; | |
| 4618 } | |
| 4619 | |
| 4620 return pl; | |
| 4621 } | |
| 4622 | |
| 4623 DEFUN("object-memory-usage-stats", Fobject_memory_usage_stats, 0, 0 ,"", /* | |
| 4624 Return statistics about memory usage of Lisp objects. | |
| 4625 */ | |
| 4626 ()) | |
| 4627 { | |
| 4628 return object_memory_usage_stats (0); | |
| 4629 } | |
| 4630 | |
| 4631 #endif /* ALLOC_TYPE_STATS */ | |
| 4632 | |
| 4633 /* Debugging aids. */ | |
| 4634 | |
| 4635 DEFUN ("garbage-collect", Fgarbage_collect, 0, 0, "", /* | |
| 4636 Reclaim storage for Lisp objects no longer needed. | |
| 4637 Return info on amount of space in use: | |
| 4638 ((USED-CONSES . FREE-CONSES) (USED-SYMS . FREE-SYMS) | |
| 4639 (USED-MARKERS . FREE-MARKERS) USED-STRING-CHARS USED-VECTOR-SLOTS | |
| 4640 PLIST) | |
| 4641 where `PLIST' is a list of alternating keyword/value pairs providing | |
| 4642 more detailed information. | |
| 4643 Garbage collection happens automatically if you cons more than | |
| 4644 `gc-cons-threshold' bytes of Lisp data since previous garbage collection. | |
| 4645 */ | |
| 4646 ()) | |
| 4647 { | |
| 4648 /* Record total usage for purposes of determining next GC */ | |
| 3092 | 4649 #ifdef NEW_GC |
| 4650 gc_full (); | |
| 4651 #else /* not NEW_GC */ | |
| 2994 | 4652 garbage_collect_1 (); |
| 3092 | 4653 #endif /* not NEW_GC */ |
| 2994 | 4654 |
| 4655 /* This will get set to 1, and total_gc_usage computed, as part of the | |
| 4656 call to object_memory_usage_stats() -- if ALLOC_TYPE_STATS is enabled. */ | |
| 4657 total_gc_usage_set = 0; | |
| 4658 #ifdef ALLOC_TYPE_STATS | |
| 428 | 4659 /* The things we do for backwards-compatibility */ |
| 3263 | 4660 #ifdef NEW_GC |
| 2994 | 4661 return |
| 4662 list6 | |
| 4663 (Fcons (make_int (lrecord_stats[lrecord_type_cons].instances_in_use), | |
| 4664 make_int (lrecord_stats[lrecord_type_cons] | |
| 4665 .bytes_in_use_including_overhead)), | |
| 4666 Fcons (make_int (lrecord_stats[lrecord_type_symbol].instances_in_use), | |
| 4667 make_int (lrecord_stats[lrecord_type_symbol] | |
| 4668 .bytes_in_use_including_overhead)), | |
| 4669 Fcons (make_int (lrecord_stats[lrecord_type_marker].instances_in_use), | |
| 4670 make_int (lrecord_stats[lrecord_type_marker] | |
| 4671 .bytes_in_use_including_overhead)), | |
| 4672 make_int (lrecord_stats[lrecord_type_string] | |
| 4673 .bytes_in_use_including_overhead), | |
| 4674 make_int (lrecord_stats[lrecord_type_vector] | |
| 4675 .bytes_in_use_including_overhead), | |
| 4676 object_memory_usage_stats (1)); | |
| 3263 | 4677 #else /* not NEW_GC */ |
| 428 | 4678 return |
| 4679 list6 (Fcons (make_int (gc_count_num_cons_in_use), | |
| 4680 make_int (gc_count_num_cons_freelist)), | |
| 4681 Fcons (make_int (gc_count_num_symbol_in_use), | |
| 4682 make_int (gc_count_num_symbol_freelist)), | |
| 4683 Fcons (make_int (gc_count_num_marker_in_use), | |
| 4684 make_int (gc_count_num_marker_freelist)), | |
| 4685 make_int (gc_count_string_total_size), | |
| 2994 | 4686 make_int (lcrecord_stats[lrecord_type_vector].bytes_in_use + |
| 4687 lcrecord_stats[lrecord_type_vector].bytes_freed), | |
| 4688 object_memory_usage_stats (1)); | |
| 3263 | 4689 #endif /* not NEW_GC */ |
| 2994 | 4690 #else /* not ALLOC_TYPE_STATS */ |
| 4691 return Qnil; | |
| 4692 #endif /* ALLOC_TYPE_STATS */ | |
| 4693 } | |
| 428 | 4694 |
| 4695 DEFUN ("consing-since-gc", Fconsing_since_gc, 0, 0, "", /* | |
| 4696 Return the number of bytes consed since the last garbage collection. | |
| 4697 \"Consed\" is a misnomer in that this actually counts allocation | |
| 4698 of all different kinds of objects, not just conses. | |
| 4699 | |
| 4700 If this value exceeds `gc-cons-threshold', a garbage collection happens. | |
| 4701 */ | |
| 4702 ()) | |
| 4703 { | |
| 4704 return make_int (consing_since_gc); | |
| 4705 } | |
| 4706 | |
| 440 | 4707 #if 0 |
| 444 | 4708 DEFUN ("memory-limit", Fmemory_limit, 0, 0, 0, /* |
| 801 | 4709 Return the address of the last byte XEmacs has allocated, divided by 1024. |
| 4710 This may be helpful in debugging XEmacs's memory usage. | |
| 428 | 4711 The value is divided by 1024 to make sure it will fit in a lisp integer. |
| 4712 */ | |
| 4713 ()) | |
| 4714 { | |
| 4715 return make_int ((EMACS_INT) sbrk (0) / 1024); | |
| 4716 } | |
| 440 | 4717 #endif |
| 428 | 4718 |
| 2994 | 4719 DEFUN ("total-memory-usage", Ftotal_memory_usage, 0, 0, 0, /* |
| 801 | 4720 Return the total number of bytes used by the data segment in XEmacs. |
| 4721 This may be helpful in debugging XEmacs's memory usage. | |
| 2994 | 4722 NOTE: This may or may not be accurate! It is hard to determine this |
| 4723 value in a system-independent fashion. On Windows, for example, the | |
| 4724 returned number tends to be much greater than reality. | |
| 801 | 4725 */ |
| 4726 ()) | |
| 4727 { | |
| 4728 return make_int (total_data_usage ()); | |
| 4729 } | |
| 4730 | |
| 2994 | 4731 #ifdef ALLOC_TYPE_STATS |
| 4732 DEFUN ("object-memory-usage", Fobject_memory_usage, 0, 0, 0, /* | |
| 4733 Return total number of bytes used for object storage in XEmacs. | |
| 4734 This may be helpful in debugging XEmacs's memory usage. | |
| 4735 See also `consing-since-gc' and `object-memory-usage-stats'. | |
| 4736 */ | |
| 4737 ()) | |
| 4738 { | |
| 4739 return make_int (total_gc_usage + consing_since_gc); | |
| 4740 } | |
| 4741 #endif /* ALLOC_TYPE_STATS */ | |
| 4742 | |
|
4803
5d120deb60ca
Enable rudimentary support for valgrind, including functions that tell valgrind
Jerry James <james@xemacs.org>
parents:
4776
diff
changeset
|
4743 #ifdef USE_VALGRIND |
|
5d120deb60ca
Enable rudimentary support for valgrind, including functions that tell valgrind
Jerry James <james@xemacs.org>
parents:
4776
diff
changeset
|
4744 DEFUN ("valgrind-leak-check", Fvalgrind_leak_check, 0, 0, "", /* |
|
5d120deb60ca
Enable rudimentary support for valgrind, including functions that tell valgrind
Jerry James <james@xemacs.org>
parents:
4776
diff
changeset
|
4745 Ask valgrind to perform a memory leak check. |
|
5d120deb60ca
Enable rudimentary support for valgrind, including functions that tell valgrind
Jerry James <james@xemacs.org>
parents:
4776
diff
changeset
|
4746 The results of the leak check are sent to stderr. |
|
5d120deb60ca
Enable rudimentary support for valgrind, including functions that tell valgrind
Jerry James <james@xemacs.org>
parents:
4776
diff
changeset
|
4747 */ |
|
5d120deb60ca
Enable rudimentary support for valgrind, including functions that tell valgrind
Jerry James <james@xemacs.org>
parents:
4776
diff
changeset
|
4748 ()) |
|
5d120deb60ca
Enable rudimentary support for valgrind, including functions that tell valgrind
Jerry James <james@xemacs.org>
parents:
4776
diff
changeset
|
4749 { |
|
5d120deb60ca
Enable rudimentary support for valgrind, including functions that tell valgrind
Jerry James <james@xemacs.org>
parents:
4776
diff
changeset
|
4750 VALGRIND_DO_LEAK_CHECK; |
|
5d120deb60ca
Enable rudimentary support for valgrind, including functions that tell valgrind
Jerry James <james@xemacs.org>
parents:
4776
diff
changeset
|
4751 return Qnil; |
|
5d120deb60ca
Enable rudimentary support for valgrind, including functions that tell valgrind
Jerry James <james@xemacs.org>
parents:
4776
diff
changeset
|
4752 } |
|
5d120deb60ca
Enable rudimentary support for valgrind, including functions that tell valgrind
Jerry James <james@xemacs.org>
parents:
4776
diff
changeset
|
4753 |
|
5d120deb60ca
Enable rudimentary support for valgrind, including functions that tell valgrind
Jerry James <james@xemacs.org>
parents:
4776
diff
changeset
|
4754 DEFUN ("valgrind-quick-leak-check", Fvalgrind_quick_leak_check, 0, 0, "", /* |
|
5d120deb60ca
Enable rudimentary support for valgrind, including functions that tell valgrind
Jerry James <james@xemacs.org>
parents:
4776
diff
changeset
|
4755 Ask valgrind to perform a quick memory leak check. |
|
5d120deb60ca
Enable rudimentary support for valgrind, including functions that tell valgrind
Jerry James <james@xemacs.org>
parents:
4776
diff
changeset
|
4756 This just prints a summary of leaked memory, rather than all the details. |
|
5d120deb60ca
Enable rudimentary support for valgrind, including functions that tell valgrind
Jerry James <james@xemacs.org>
parents:
4776
diff
changeset
|
4757 The results of the leak check are sent to stderr. |
|
5d120deb60ca
Enable rudimentary support for valgrind, including functions that tell valgrind
Jerry James <james@xemacs.org>
parents:
4776
diff
changeset
|
4758 */ |
|
5d120deb60ca
Enable rudimentary support for valgrind, including functions that tell valgrind
Jerry James <james@xemacs.org>
parents:
4776
diff
changeset
|
4759 ()) |
|
5d120deb60ca
Enable rudimentary support for valgrind, including functions that tell valgrind
Jerry James <james@xemacs.org>
parents:
4776
diff
changeset
|
4760 { |
|
5d120deb60ca
Enable rudimentary support for valgrind, including functions that tell valgrind
Jerry James <james@xemacs.org>
parents:
4776
diff
changeset
|
4761 VALGRIND_DO_QUICK_LEAK_CHECK; |
|
5d120deb60ca
Enable rudimentary support for valgrind, including functions that tell valgrind
Jerry James <james@xemacs.org>
parents:
4776
diff
changeset
|
4762 return Qnil; |
|
5d120deb60ca
Enable rudimentary support for valgrind, including functions that tell valgrind
Jerry James <james@xemacs.org>
parents:
4776
diff
changeset
|
4763 } |
|
5d120deb60ca
Enable rudimentary support for valgrind, including functions that tell valgrind
Jerry James <james@xemacs.org>
parents:
4776
diff
changeset
|
4764 #endif /* USE_VALGRIND */ |
|
5d120deb60ca
Enable rudimentary support for valgrind, including functions that tell valgrind
Jerry James <james@xemacs.org>
parents:
4776
diff
changeset
|
4765 |
| 851 | 4766 void |
| 4767 recompute_funcall_allocation_flag (void) | |
| 4768 { | |
| 887 | 4769 funcall_allocation_flag = |
| 4770 need_to_garbage_collect || | |
| 4771 need_to_check_c_alloca || | |
| 4772 need_to_signal_post_gc; | |
| 851 | 4773 } |
| 4774 | |
| 428 | 4775 |
| 4776 int | |
| 4777 object_dead_p (Lisp_Object obj) | |
| 4778 { | |
| 4779 return ((BUFFERP (obj) && !BUFFER_LIVE_P (XBUFFER (obj))) || | |
| 4780 (FRAMEP (obj) && !FRAME_LIVE_P (XFRAME (obj))) || | |
| 4781 (WINDOWP (obj) && !WINDOW_LIVE_P (XWINDOW (obj))) || | |
| 4782 (DEVICEP (obj) && !DEVICE_LIVE_P (XDEVICE (obj))) || | |
| 4783 (CONSOLEP (obj) && !CONSOLE_LIVE_P (XCONSOLE (obj))) || | |
| 4784 (EVENTP (obj) && !EVENT_LIVE_P (XEVENT (obj))) || | |
| 4785 (EXTENTP (obj) && !EXTENT_LIVE_P (XEXTENT (obj)))); | |
| 4786 } | |
| 4787 | |
| 4788 #ifdef MEMORY_USAGE_STATS | |
| 4789 | |
| 4790 /* Attempt to determine the actual amount of space that is used for | |
| 4791 the block allocated starting at PTR, supposedly of size "CLAIMED_SIZE". | |
| 4792 | |
| 4793 It seems that the following holds: | |
| 4794 | |
| 4795 1. When using the old allocator (malloc.c): | |
| 4796 | |
| 4797 -- blocks are always allocated in chunks of powers of two. For | |
| 4798 each block, there is an overhead of 8 bytes if rcheck is not | |
| 4799 defined, 20 bytes if it is defined. In other words, a | |
| 4800 one-byte allocation needs 8 bytes of overhead for a total of | |
| 4801 9 bytes, and needs to have 16 bytes of memory chunked out for | |
| 4802 it. | |
| 4803 | |
| 4804 2. When using the new allocator (gmalloc.c): | |
| 4805 | |
| 4806 -- blocks are always allocated in chunks of powers of two up | |
| 4807 to 4096 bytes. Larger blocks are allocated in chunks of | |
| 4808 an integral multiple of 4096 bytes. The minimum block | |
| 4809 size is 2*sizeof (void *), or 16 bytes if SUNOS_LOCALTIME_BUG | |
| 4810 is defined. There is no per-block overhead, but there | |
| 4811 is an overhead of 3*sizeof (size_t) for each 4096 bytes | |
| 4812 allocated. | |
| 4813 | |
| 4814 3. When using the system malloc, anything goes, but they are | |
| 4815 generally slower and more space-efficient than the GNU | |
| 4816 allocators. One possibly reasonable assumption to make | |
| 4817 for want of better data is that sizeof (void *), or maybe | |
| 4818 2 * sizeof (void *), is required as overhead and that | |
| 4819 blocks are allocated in the minimum required size except | |
| 4820 that some minimum block size is imposed (e.g. 16 bytes). */ | |
| 4821 | |
| 665 | 4822 Bytecount |
| 2286 | 4823 malloced_storage_size (void *UNUSED (ptr), Bytecount claimed_size, |
| 428 | 4824 struct overhead_stats *stats) |
| 4825 { | |
| 665 | 4826 Bytecount orig_claimed_size = claimed_size; |
| 428 | 4827 |
|
4735
80d74fed5399
Remove "old" GNU malloc in src/malloc.c, and all references to it. Drop the
Jerry James <james@xemacs.org>
parents:
4693
diff
changeset
|
4828 #ifndef SYSTEM_MALLOC |
| 665 | 4829 if (claimed_size < (Bytecount) (2 * sizeof (void *))) |
| 428 | 4830 claimed_size = 2 * sizeof (void *); |
| 4831 # ifdef SUNOS_LOCALTIME_BUG | |
| 4832 if (claimed_size < 16) | |
| 4833 claimed_size = 16; | |
| 4834 # endif | |
| 4835 if (claimed_size < 4096) | |
| 4836 { | |
| 2260 | 4837 /* fxg: rename log->log2 to supress gcc3 shadow warning */ |
| 4838 int log2 = 1; | |
| 428 | 4839 |
| 4840 /* compute the log base two, more or less, then use it to compute | |
| 4841 the block size needed. */ | |
| 4842 claimed_size--; | |
| 4843 /* It's big, it's heavy, it's wood! */ | |
| 4844 while ((claimed_size /= 2) != 0) | |
| 2260 | 4845 ++log2; |
| 428 | 4846 claimed_size = 1; |
| 4847 /* It's better than bad, it's good! */ | |
| 2260 | 4848 while (log2 > 0) |
| 428 | 4849 { |
| 4850 claimed_size *= 2; | |
| 2260 | 4851 log2--; |
| 428 | 4852 } |
| 4853 /* We have to come up with some average about the amount of | |
| 4854 blocks used. */ | |
| 665 | 4855 if ((Bytecount) (rand () & 4095) < claimed_size) |
| 428 | 4856 claimed_size += 3 * sizeof (void *); |
| 4857 } | |
| 4858 else | |
| 4859 { | |
| 4860 claimed_size += 4095; | |
| 4861 claimed_size &= ~4095; | |
| 4862 claimed_size += (claimed_size / 4096) * 3 * sizeof (size_t); | |
| 4863 } | |
| 4864 | |
|
4735
80d74fed5399
Remove "old" GNU malloc in src/malloc.c, and all references to it. Drop the
Jerry James <james@xemacs.org>
parents:
4693
diff
changeset
|
4865 #else |
| 428 | 4866 |
| 4867 if (claimed_size < 16) | |
| 4868 claimed_size = 16; | |
| 4869 claimed_size += 2 * sizeof (void *); | |
| 4870 | |
|
4735
80d74fed5399
Remove "old" GNU malloc in src/malloc.c, and all references to it. Drop the
Jerry James <james@xemacs.org>
parents:
4693
diff
changeset
|
4871 #endif /* system allocator */ |
| 428 | 4872 |
| 4873 if (stats) | |
| 4874 { | |
| 4875 stats->was_requested += orig_claimed_size; | |
| 4876 stats->malloc_overhead += claimed_size - orig_claimed_size; | |
| 4877 } | |
| 4878 return claimed_size; | |
| 4879 } | |
| 4880 | |
| 3263 | 4881 #ifndef NEW_GC |
| 665 | 4882 Bytecount |
| 4883 fixed_type_block_overhead (Bytecount size) | |
| 428 | 4884 { |
| 665 | 4885 Bytecount per_block = TYPE_ALLOC_SIZE (cons, unsigned char); |
| 4886 Bytecount overhead = 0; | |
| 4887 Bytecount storage_size = malloced_storage_size (0, per_block, 0); | |
| 428 | 4888 while (size >= per_block) |
| 4889 { | |
| 4890 size -= per_block; | |
| 4891 overhead += sizeof (void *) + per_block - storage_size; | |
| 4892 } | |
| 4893 if (rand () % per_block < size) | |
| 4894 overhead += sizeof (void *) + per_block - storage_size; | |
| 4895 return overhead; | |
| 4896 } | |
| 3263 | 4897 #endif /* not NEW_GC */ |
| 428 | 4898 #endif /* MEMORY_USAGE_STATS */ |
| 4899 | |
| 4900 | |
| 4901 /* Initialization */ | |
| 771 | 4902 static void |
| 1204 | 4903 common_init_alloc_early (void) |
| 428 | 4904 { |
| 771 | 4905 #ifndef Qzero |
| 4906 Qzero = make_int (0); /* Only used if Lisp_Object is a union type */ | |
| 4907 #endif | |
| 4908 | |
| 4909 #ifndef Qnull_pointer | |
| 4910 /* C guarantees that Qnull_pointer will be initialized to all 0 bits, | |
| 4911 so the following is actually a no-op. */ | |
| 793 | 4912 Qnull_pointer = wrap_pointer_1 (0); |
| 771 | 4913 #endif |
| 4914 | |
| 3263 | 4915 #ifndef NEW_GC |
| 428 | 4916 breathing_space = 0; |
| 4917 all_lcrecords = 0; | |
| 3263 | 4918 #endif /* not NEW_GC */ |
| 428 | 4919 ignore_malloc_warnings = 1; |
| 4920 #ifdef DOUG_LEA_MALLOC | |
| 4921 mallopt (M_TRIM_THRESHOLD, 128*1024); /* trim threshold */ | |
| 4922 mallopt (M_MMAP_THRESHOLD, 64*1024); /* mmap threshold */ | |
| 4923 #if 0 /* Moved to emacs.c */ | |
| 4924 mallopt (M_MMAP_MAX, 64); /* max. number of mmap'ed areas */ | |
| 4925 #endif | |
| 4926 #endif | |
| 3092 | 4927 #ifndef NEW_GC |
| 2720 | 4928 init_string_chars_alloc (); |
| 428 | 4929 init_string_alloc (); |
| 4930 init_string_chars_alloc (); | |
| 4931 init_cons_alloc (); | |
| 4932 init_symbol_alloc (); | |
| 4933 init_compiled_function_alloc (); | |
| 4934 init_float_alloc (); | |
| 1983 | 4935 #ifdef HAVE_BIGNUM |
| 4936 init_bignum_alloc (); | |
| 4937 #endif | |
| 4938 #ifdef HAVE_RATIO | |
| 4939 init_ratio_alloc (); | |
| 4940 #endif | |
| 4941 #ifdef HAVE_BIGFLOAT | |
| 4942 init_bigfloat_alloc (); | |
| 4943 #endif | |
| 428 | 4944 init_marker_alloc (); |
| 4945 init_extent_alloc (); | |
| 4946 init_event_alloc (); | |
| 1204 | 4947 #ifdef EVENT_DATA_AS_OBJECTS |
| 934 | 4948 init_key_data_alloc (); |
| 4949 init_button_data_alloc (); | |
| 4950 init_motion_data_alloc (); | |
| 4951 init_process_data_alloc (); | |
| 4952 init_timeout_data_alloc (); | |
| 4953 init_magic_data_alloc (); | |
| 4954 init_magic_eval_data_alloc (); | |
| 4955 init_eval_data_alloc (); | |
| 4956 init_misc_user_data_alloc (); | |
| 1204 | 4957 #endif /* EVENT_DATA_AS_OBJECTS */ |
| 3263 | 4958 #endif /* not NEW_GC */ |
| 428 | 4959 |
| 4960 ignore_malloc_warnings = 0; | |
| 4961 | |
| 452 | 4962 if (staticpros_nodump) |
| 4963 Dynarr_free (staticpros_nodump); | |
| 4964 staticpros_nodump = Dynarr_new2 (Lisp_Object_ptr_dynarr, Lisp_Object *); | |
| 4965 Dynarr_resize (staticpros_nodump, 100); /* merely a small optimization */ | |
| 771 | 4966 #ifdef DEBUG_XEMACS |
| 4967 if (staticpro_nodump_names) | |
| 4968 Dynarr_free (staticpro_nodump_names); | |
|
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diff
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|
4969 staticpro_nodump_names = Dynarr_new2 (const_Ascbyte_ptr_dynarr, |
|
19a72041c5ed
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parents:
4938
diff
changeset
|
4970 const Ascbyte *); |
| 771 | 4971 Dynarr_resize (staticpro_nodump_names, 100); /* ditto */ |
| 4972 #endif | |
| 428 | 4973 |
| 3263 | 4974 #ifdef NEW_GC |
| 2720 | 4975 mcpros = Dynarr_new2 (Lisp_Object_dynarr, Lisp_Object); |
| 4976 Dynarr_resize (mcpros, 1410); /* merely a small optimization */ | |
| 4977 dump_add_root_block_ptr (&mcpros, &mcpros_description); | |
| 4978 #ifdef DEBUG_XEMACS | |
|
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diff
changeset
|
4979 mcpro_names = Dynarr_new2 (const_Ascbyte_ptr_dynarr, const Ascbyte *); |
| 2720 | 4980 Dynarr_resize (mcpro_names, 1410); /* merely a small optimization */ |
|
4952
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Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
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4938
diff
changeset
|
4981 dump_add_root_block_ptr (&mcpro_names, |
| 4964 | 4982 &const_Ascbyte_ptr_dynarr_description); |
| 2720 | 4983 #endif |
| 3263 | 4984 #endif /* NEW_GC */ |
| 2720 | 4985 |
| 428 | 4986 consing_since_gc = 0; |
| 851 | 4987 need_to_check_c_alloca = 0; |
| 4988 funcall_allocation_flag = 0; | |
| 4989 funcall_alloca_count = 0; | |
| 814 | 4990 |
| 428 | 4991 lrecord_uid_counter = 259; |
| 3263 | 4992 #ifndef NEW_GC |
| 428 | 4993 debug_string_purity = 0; |
| 3263 | 4994 #endif /* not NEW_GC */ |
| 428 | 4995 |
| 800 | 4996 #ifdef ERROR_CHECK_TYPES |
| 428 | 4997 ERROR_ME.really_unlikely_name_to_have_accidentally_in_a_non_errb_structure = |
| 4998 666; | |
| 4999 ERROR_ME_NOT. | |
| 5000 really_unlikely_name_to_have_accidentally_in_a_non_errb_structure = 42; | |
| 5001 ERROR_ME_WARN. | |
| 5002 really_unlikely_name_to_have_accidentally_in_a_non_errb_structure = | |
| 5003 3333632; | |
| 793 | 5004 ERROR_ME_DEBUG_WARN. |
| 5005 really_unlikely_name_to_have_accidentally_in_a_non_errb_structure = | |
| 5006 8675309; | |
| 800 | 5007 #endif /* ERROR_CHECK_TYPES */ |
| 428 | 5008 } |
| 5009 | |
| 3263 | 5010 #ifndef NEW_GC |
| 771 | 5011 static void |
| 5012 init_lcrecord_lists (void) | |
| 5013 { | |
| 5014 int i; | |
| 5015 | |
| 5016 for (i = 0; i < countof (lrecord_implementations_table); i++) | |
| 5017 { | |
| 5018 all_lcrecord_lists[i] = Qzero; /* Qnil not yet set */ | |
| 5019 staticpro_nodump (&all_lcrecord_lists[i]); | |
| 5020 } | |
| 5021 } | |
| 3263 | 5022 #endif /* not NEW_GC */ |
| 771 | 5023 |
| 5024 void | |
| 1204 | 5025 init_alloc_early (void) |
| 771 | 5026 { |
| 1204 | 5027 #if defined (__cplusplus) && defined (ERROR_CHECK_GC) |
| 5028 static struct gcpro initial_gcpro; | |
| 5029 | |
| 5030 initial_gcpro.next = 0; | |
| 5031 initial_gcpro.var = &Qnil; | |
| 5032 initial_gcpro.nvars = 1; | |
| 5033 gcprolist = &initial_gcpro; | |
| 5034 #else | |
| 5035 gcprolist = 0; | |
| 5036 #endif /* defined (__cplusplus) && defined (ERROR_CHECK_GC) */ | |
| 5037 } | |
| 5038 | |
| 5039 void | |
| 5040 reinit_alloc_early (void) | |
| 5041 { | |
| 5042 common_init_alloc_early (); | |
| 3263 | 5043 #ifndef NEW_GC |
| 771 | 5044 init_lcrecord_lists (); |
| 3263 | 5045 #endif /* not NEW_GC */ |
| 771 | 5046 } |
| 5047 | |
| 428 | 5048 void |
| 5049 init_alloc_once_early (void) | |
| 5050 { | |
| 1204 | 5051 common_init_alloc_early (); |
| 428 | 5052 |
| 442 | 5053 { |
| 5054 int i; | |
| 5055 for (i = 0; i < countof (lrecord_implementations_table); i++) | |
| 5056 lrecord_implementations_table[i] = 0; | |
| 5057 } | |
| 5058 | |
| 5059 INIT_LRECORD_IMPLEMENTATION (cons); | |
| 5060 INIT_LRECORD_IMPLEMENTATION (vector); | |
| 5061 INIT_LRECORD_IMPLEMENTATION (string); | |
| 3092 | 5062 #ifdef NEW_GC |
| 5063 INIT_LRECORD_IMPLEMENTATION (string_indirect_data); | |
| 5064 INIT_LRECORD_IMPLEMENTATION (string_direct_data); | |
| 5065 #endif /* NEW_GC */ | |
| 3263 | 5066 #ifndef NEW_GC |
| 442 | 5067 INIT_LRECORD_IMPLEMENTATION (lcrecord_list); |
| 1204 | 5068 INIT_LRECORD_IMPLEMENTATION (free); |
| 3263 | 5069 #endif /* not NEW_GC */ |
| 428 | 5070 |
| 452 | 5071 staticpros = Dynarr_new2 (Lisp_Object_ptr_dynarr, Lisp_Object *); |
| 5072 Dynarr_resize (staticpros, 1410); /* merely a small optimization */ | |
| 2367 | 5073 dump_add_root_block_ptr (&staticpros, &staticpros_description); |
| 771 | 5074 #ifdef DEBUG_XEMACS |
|
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4938
diff
changeset
|
5075 staticpro_names = Dynarr_new2 (const_Ascbyte_ptr_dynarr, const Ascbyte *); |
| 771 | 5076 Dynarr_resize (staticpro_names, 1410); /* merely a small optimization */ |
|
4952
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diff
changeset
|
5077 dump_add_root_block_ptr (&staticpro_names, |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
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diff
changeset
|
5078 &const_Ascbyte_ptr_dynarr_description); |
| 771 | 5079 #endif |
| 5080 | |
| 3263 | 5081 #ifdef NEW_GC |
| 2720 | 5082 mcpros = Dynarr_new2 (Lisp_Object_dynarr, Lisp_Object); |
| 5083 Dynarr_resize (mcpros, 1410); /* merely a small optimization */ | |
| 5084 dump_add_root_block_ptr (&mcpros, &mcpros_description); | |
| 5085 #ifdef DEBUG_XEMACS | |
|
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Mule-izing, various fixes related to char * arguments
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diff
changeset
|
5086 mcpro_names = Dynarr_new2 (const_Ascbyte_ptr_dynarr, const Ascbyte *); |
| 2720 | 5087 Dynarr_resize (mcpro_names, 1410); /* merely a small optimization */ |
|
4952
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
5088 dump_add_root_block_ptr (&mcpro_names, |
|
19a72041c5ed
Mule-izing, various fixes related to char * arguments
Ben Wing <ben@xemacs.org>
parents:
4938
diff
changeset
|
5089 &const_Ascbyte_ptr_dynarr_description); |
| 2720 | 5090 #endif |
| 3263 | 5091 #else /* not NEW_GC */ |
| 771 | 5092 init_lcrecord_lists (); |
| 3263 | 5093 #endif /* not NEW_GC */ |
| 428 | 5094 } |
| 5095 | |
| 5096 void | |
| 5097 syms_of_alloc (void) | |
| 5098 { | |
| 442 | 5099 DEFSYMBOL (Qgarbage_collecting); |
| 428 | 5100 |
| 5101 DEFSUBR (Fcons); | |
| 5102 DEFSUBR (Flist); | |
| 5103 DEFSUBR (Fvector); | |
| 5104 DEFSUBR (Fbit_vector); | |
| 5105 DEFSUBR (Fmake_byte_code); | |
| 5106 DEFSUBR (Fmake_list); | |
| 5107 DEFSUBR (Fmake_vector); | |
| 5108 DEFSUBR (Fmake_bit_vector); | |
| 5109 DEFSUBR (Fmake_string); | |
| 5110 DEFSUBR (Fstring); | |
| 5111 DEFSUBR (Fmake_symbol); | |
| 5112 DEFSUBR (Fmake_marker); | |
| 5113 DEFSUBR (Fpurecopy); | |
| 2994 | 5114 #ifdef ALLOC_TYPE_STATS |
| 5115 DEFSUBR (Fobject_memory_usage_stats); | |
| 5116 DEFSUBR (Fobject_memory_usage); | |
| 5117 #endif /* ALLOC_TYPE_STATS */ | |
| 428 | 5118 DEFSUBR (Fgarbage_collect); |
| 440 | 5119 #if 0 |
| 428 | 5120 DEFSUBR (Fmemory_limit); |
| 440 | 5121 #endif |
| 2994 | 5122 DEFSUBR (Ftotal_memory_usage); |
| 428 | 5123 DEFSUBR (Fconsing_since_gc); |
|
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diff
changeset
|
5124 #ifdef USE_VALGRIND |
|
5d120deb60ca
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|
5125 DEFSUBR (Fvalgrind_leak_check); |
|
5d120deb60ca
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diff
changeset
|
5126 DEFSUBR (Fvalgrind_quick_leak_check); |
|
5d120deb60ca
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Jerry James <james@xemacs.org>
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diff
changeset
|
5127 #endif |
| 428 | 5128 } |
| 5129 | |
| 5130 void | |
| 5131 vars_of_alloc (void) | |
| 5132 { | |
| 5133 #ifdef DEBUG_XEMACS | |
| 5134 DEFVAR_INT ("debug-allocation", &debug_allocation /* | |
| 5135 If non-zero, print out information to stderr about all objects allocated. | |
| 5136 See also `debug-allocation-backtrace-length'. | |
| 5137 */ ); | |
| 5138 debug_allocation = 0; | |
| 5139 | |
| 5140 DEFVAR_INT ("debug-allocation-backtrace-length", | |
| 5141 &debug_allocation_backtrace_length /* | |
| 5142 Length (in stack frames) of short backtrace printed out by `debug-allocation'. | |
| 5143 */ ); | |
| 5144 debug_allocation_backtrace_length = 2; | |
| 5145 #endif | |
| 5146 | |
| 5147 DEFVAR_BOOL ("purify-flag", &purify_flag /* | |
| 5148 Non-nil means loading Lisp code in order to dump an executable. | |
| 5149 This means that certain objects should be allocated in readonly space. | |
| 5150 */ ); | |
| 5151 } |