* config/avr/avr-arch.h (avr_extra_arch_macro): Remove prototype.
[official-gcc.git] / libobjc / sarray.c
blobf58c416a22dc6e792178005e855e126c557c79b1
1 /* Sparse Arrays for Objective C dispatch tables
2 Copyright (C) 1993, 1995, 1996, 2002, 2004, 2009, 2010
3 Free Software Foundation, Inc.
5 This file is part of GCC.
7 GCC is free software; you can redistribute it and/or modify
8 it under the terms of the GNU General Public License as published by
9 the Free Software Foundation; either version 3, or (at your option)
10 any later version.
12 GCC is distributed in the hope that it will be useful,
13 but WITHOUT ANY WARRANTY; without even the implied warranty of
14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 GNU General Public License for more details.
17 Under Section 7 of GPL version 3, you are granted additional
18 permissions described in the GCC Runtime Library Exception, version
19 3.1, as published by the Free Software Foundation.
21 You should have received a copy of the GNU General Public License and
22 a copy of the GCC Runtime Library Exception along with this program;
23 see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
24 <http://www.gnu.org/licenses/>. */
26 #include "objc-private/common.h"
27 #include "objc-private/sarray.h"
28 #include "objc/runtime.h" /* For objc_malloc */
29 #include "objc/thr.h" /* For objc_mutex_lock */
30 #include "objc-private/module-abi-8.h"
31 #include "objc-private/runtime.h"
32 #include <stdio.h>
33 #include <string.h> /* For memset */
34 #include <assert.h> /* For assert */
36 int nbuckets = 0; /* !T:MUTEX */
37 int nindices = 0; /* !T:MUTEX */
38 int narrays = 0; /* !T:MUTEX */
39 int idxsize = 0; /* !T:MUTEX */
41 static void *first_free_data = NULL; /* !T:MUTEX */
43 #ifdef OBJC_SPARSE2
44 const char *__objc_sparse2_id = "2 level sparse indices";
45 #endif
47 #ifdef OBJC_SPARSE3
48 const char *__objc_sparse3_id = "3 level sparse indices";
49 #endif
51 /* This function removes any structures left over from free operations
52 that were not safe in a multi-threaded environment. */
53 void
54 sarray_remove_garbage (void)
56 void **vp;
57 void *np;
59 objc_mutex_lock (__objc_runtime_mutex);
61 vp = first_free_data;
62 first_free_data = NULL;
64 while (vp)
66 np = *vp;
67 objc_free (vp);
68 vp = np;
71 objc_mutex_unlock (__objc_runtime_mutex);
74 /* Free a block of dynamically allocated memory. If we are in
75 multi-threaded mode, it is ok to free it. If not, we add it to the
76 garbage heap to be freed later. */
77 static void
78 sarray_free_garbage (void *vp)
80 objc_mutex_lock (__objc_runtime_mutex);
82 if (__objc_runtime_threads_alive == 1)
84 objc_free (vp);
85 if (first_free_data)
86 sarray_remove_garbage ();
88 else
90 *(void **)vp = first_free_data;
91 first_free_data = vp;
94 objc_mutex_unlock (__objc_runtime_mutex);
97 /* sarray_at_put copies data in such a way as to be thread reader
98 safe. */
99 void
100 sarray_at_put (struct sarray *array, sidx index, void *element)
102 #ifdef OBJC_SPARSE3
103 struct sindex **the_index;
104 struct sindex *new_index;
105 #endif
106 struct sbucket **the_bucket;
107 struct sbucket *new_bucket;
108 #ifdef OBJC_SPARSE3
109 size_t ioffset;
110 #endif
111 size_t boffset;
112 size_t eoffset;
113 #ifdef PRECOMPUTE_SELECTORS
114 union sofftype xx;
115 xx.idx = index;
116 #ifdef OBJC_SPARSE3
117 ioffset = xx.off.ioffset;
118 #endif
119 boffset = xx.off.boffset;
120 eoffset = xx.off.eoffset;
121 #else /* not PRECOMPUTE_SELECTORS */
122 #ifdef OBJC_SPARSE3
123 ioffset = index/INDEX_CAPACITY;
124 boffset = (index/BUCKET_SIZE)%INDEX_SIZE;
125 eoffset = index%BUCKET_SIZE;
126 #else
127 boffset = index/BUCKET_SIZE;
128 eoffset = index%BUCKET_SIZE;
129 #endif
130 #endif /* not PRECOMPUTE_SELECTORS */
132 assert (soffset_decode (index) < array->capacity); /* Range check */
134 #ifdef OBJC_SPARSE3
135 the_index = &(array->indices[ioffset]);
136 the_bucket = &((*the_index)->buckets[boffset]);
137 #else
138 the_bucket = &(array->buckets[boffset]);
139 #endif
141 if ((*the_bucket)->elems[eoffset] == element)
142 return; /* Great! we just avoided a lazy copy. */
144 #ifdef OBJC_SPARSE3
146 /* First, perform lazy copy/allocation of index if needed. */
148 if ((*the_index) == array->empty_index)
150 /* The index was previously empty, allocate a new. */
151 new_index = (struct sindex *) objc_malloc (sizeof (struct sindex));
152 memcpy (new_index, array->empty_index, sizeof (struct sindex));
153 new_index->version.version = array->version.version;
154 *the_index = new_index; /* Prepared for install. */
155 the_bucket = &((*the_index)->buckets[boffset]);
157 nindices += 1;
159 else if ((*the_index)->version.version != array->version.version)
161 /* This index must be lazy copied. */
162 struct sindex *old_index = *the_index;
163 new_index = (struct sindex *) objc_malloc (sizeof (struct sindex));
164 memcpy (new_index, old_index, sizeof (struct sindex));
165 new_index->version.version = array->version.version;
166 *the_index = new_index; /* Prepared for install. */
167 the_bucket = &((*the_index)->buckets[boffset]);
169 nindices += 1;
172 #endif /* OBJC_SPARSE3 */
174 /* Next, perform lazy allocation/copy of the bucket if needed. */
175 if ((*the_bucket) == array->empty_bucket)
177 /* The bucket was previously empty (or something like that),
178 allocate a new. This is the effect of `lazy' allocation. */
179 new_bucket = (struct sbucket *) objc_malloc (sizeof (struct sbucket));
180 memcpy ((void *) new_bucket, (const void *) array->empty_bucket,
181 sizeof (struct sbucket));
182 new_bucket->version.version = array->version.version;
183 *the_bucket = new_bucket; /* Prepared for install. */
185 nbuckets += 1;
188 else if ((*the_bucket)->version.version != array->version.version)
190 /* Perform lazy copy. */
191 struct sbucket *old_bucket = *the_bucket;
192 new_bucket = (struct sbucket *) objc_malloc (sizeof (struct sbucket));
193 memcpy (new_bucket, old_bucket, sizeof (struct sbucket));
194 new_bucket->version.version = array->version.version;
195 *the_bucket = new_bucket; /* Prepared for install. */
197 nbuckets += 1;
199 (*the_bucket)->elems[eoffset] = element;
202 void
203 sarray_at_put_safe (struct sarray *array, sidx index, void *element)
205 if (soffset_decode (index) >= array->capacity)
206 sarray_realloc (array, soffset_decode (index) + 1);
207 sarray_at_put (array, index, element);
210 struct sarray *
211 sarray_new (int size, void *default_element)
213 struct sarray *arr;
214 #ifdef OBJC_SPARSE3
215 size_t num_indices = ((size - 1)/(INDEX_CAPACITY)) + 1;
216 struct sindex **new_indices;
217 #else /* OBJC_SPARSE2 */
218 size_t num_indices = ((size - 1)/BUCKET_SIZE) + 1;
219 struct sbucket **new_buckets;
220 #endif
221 size_t counter;
223 assert (size > 0);
225 /* Allocate core array. */
226 arr = (struct sarray *) objc_malloc (sizeof (struct sarray));
227 arr->version.version = 0;
229 /* Initialize members. */
230 #ifdef OBJC_SPARSE3
231 arr->capacity = num_indices*INDEX_CAPACITY;
232 new_indices = (struct sindex **)
233 objc_malloc (sizeof (struct sindex *) * num_indices);
235 arr->empty_index = (struct sindex *) objc_malloc (sizeof (struct sindex));
236 arr->empty_index->version.version = 0;
238 narrays += 1;
239 idxsize += num_indices;
240 nindices += 1;
242 #else /* OBJC_SPARSE2 */
243 arr->capacity = num_indices*BUCKET_SIZE;
244 new_buckets = (struct sbucket **)
245 objc_malloc (sizeof (struct sbucket *) * num_indices);
247 narrays += 1;
248 idxsize += num_indices;
250 #endif
252 arr->empty_bucket = (struct sbucket *) objc_malloc (sizeof (struct sbucket));
253 arr->empty_bucket->version.version = 0;
255 nbuckets += 1;
257 arr->ref_count = 1;
258 arr->is_copy_of = (struct sarray *) 0;
260 for (counter = 0; counter < BUCKET_SIZE; counter++)
261 arr->empty_bucket->elems[counter] = default_element;
263 #ifdef OBJC_SPARSE3
264 for (counter = 0; counter < INDEX_SIZE; counter++)
265 arr->empty_index->buckets[counter] = arr->empty_bucket;
267 for (counter = 0; counter < num_indices; counter++)
268 new_indices[counter] = arr->empty_index;
270 #else /* OBJC_SPARSE2 */
272 for (counter = 0; counter < num_indices; counter++)
273 new_buckets[counter] = arr->empty_bucket;
275 #endif
277 #ifdef OBJC_SPARSE3
278 arr->indices = new_indices;
279 #else /* OBJC_SPARSE2 */
280 arr->buckets = new_buckets;
281 #endif
283 return arr;
287 /* Reallocate the sparse array to hold `newsize' entries Note: We
288 really allocate and then free. We have to do this to ensure that
289 any concurrent readers notice the update. */
290 void
291 sarray_realloc (struct sarray *array, int newsize)
293 #ifdef OBJC_SPARSE3
294 size_t old_max_index = (array->capacity - 1)/INDEX_CAPACITY;
295 size_t new_max_index = ((newsize - 1)/INDEX_CAPACITY);
296 size_t rounded_size = (new_max_index + 1) * INDEX_CAPACITY;
298 struct sindex **new_indices;
299 struct sindex **old_indices;
301 #else /* OBJC_SPARSE2 */
302 size_t old_max_index = (array->capacity - 1)/BUCKET_SIZE;
303 size_t new_max_index = ((newsize - 1)/BUCKET_SIZE);
304 size_t rounded_size = (new_max_index + 1) * BUCKET_SIZE;
306 struct sbucket **new_buckets;
307 struct sbucket **old_buckets;
309 #endif
311 size_t counter;
313 assert (newsize > 0);
315 /* The size is the same, just ignore the request. */
316 if (rounded_size <= array->capacity)
317 return;
319 assert (array->ref_count == 1); /* stop if lazy copied... */
321 /* We are asked to extend the array -- allocate new bucket table,
322 and insert empty_bucket in newly allocated places. */
323 if (rounded_size > array->capacity)
325 #ifdef OBJC_SPARSE3
326 new_max_index += 4;
327 rounded_size = (new_max_index + 1) * INDEX_CAPACITY;
328 #else /* OBJC_SPARSE2 */
329 new_max_index += 4;
330 rounded_size = (new_max_index + 1) * BUCKET_SIZE;
331 #endif
333 /* Update capacity. */
334 array->capacity = rounded_size;
336 #ifdef OBJC_SPARSE3
337 /* Alloc to force re-read by any concurrent readers. */
338 old_indices = array->indices;
339 new_indices = (struct sindex **)
340 objc_malloc ((new_max_index + 1) * sizeof (struct sindex *));
341 #else /* OBJC_SPARSE2 */
342 old_buckets = array->buckets;
343 new_buckets = (struct sbucket **)
344 objc_malloc ((new_max_index + 1) * sizeof (struct sbucket *));
345 #endif
347 /* Copy buckets below old_max_index (they are still valid). */
348 for (counter = 0; counter <= old_max_index; counter++ )
350 #ifdef OBJC_SPARSE3
351 new_indices[counter] = old_indices[counter];
352 #else /* OBJC_SPARSE2 */
353 new_buckets[counter] = old_buckets[counter];
354 #endif
357 #ifdef OBJC_SPARSE3
358 /* Reset entries above old_max_index to empty_bucket. */
359 for (counter = old_max_index + 1; counter <= new_max_index; counter++)
360 new_indices[counter] = array->empty_index;
361 #else /* OBJC_SPARSE2 */
362 /* Reset entries above old_max_index to empty_bucket. */
363 for (counter = old_max_index + 1; counter <= new_max_index; counter++)
364 new_buckets[counter] = array->empty_bucket;
365 #endif
367 #ifdef OBJC_SPARSE3
368 /* Install the new indices. */
369 array->indices = new_indices;
370 #else /* OBJC_SPARSE2 */
371 array->buckets = new_buckets;
372 #endif
374 #ifdef OBJC_SPARSE3
375 /* Free the old indices. */
376 sarray_free_garbage (old_indices);
377 #else /* OBJC_SPARSE2 */
378 sarray_free_garbage (old_buckets);
379 #endif
381 idxsize += (new_max_index-old_max_index);
382 return;
387 /* Free a sparse array allocated with sarray_new */
388 void
389 sarray_free (struct sarray *array) {
390 #ifdef OBJC_SPARSE3
391 size_t old_max_index = (array->capacity - 1)/INDEX_CAPACITY;
392 struct sindex **old_indices;
393 #else
394 size_t old_max_index = (array->capacity - 1)/BUCKET_SIZE;
395 struct sbucket **old_buckets;
396 #endif
397 size_t counter = 0;
399 assert (array->ref_count != 0); /* Freed multiple times!!! */
401 if (--(array->ref_count) != 0) /* There exists copies of me */
402 return;
404 #ifdef OBJC_SPARSE3
405 old_indices = array->indices;
406 #else
407 old_buckets = array->buckets;
408 #endif
410 /* Free all entries that do not point to empty_bucket. */
411 for (counter = 0; counter <= old_max_index; counter++ )
413 #ifdef OBJC_SPARSE3
414 struct sindex *idx = old_indices[counter];
415 if ((idx != array->empty_index)
416 && (idx->version.version == array->version.version))
418 int c2;
419 for (c2 = 0; c2 < INDEX_SIZE; c2++)
421 struct sbucket *bkt = idx->buckets[c2];
422 if ((bkt != array->empty_bucket)
423 && (bkt->version.version == array->version.version))
425 sarray_free_garbage (bkt);
426 nbuckets -= 1;
429 sarray_free_garbage (idx);
430 nindices -= 1;
432 #else /* OBJC_SPARSE2 */
433 struct sbucket *bkt = old_buckets[counter];
434 if ((bkt != array->empty_bucket)
435 && (bkt->version.version == array->version.version))
437 sarray_free_garbage (bkt);
438 nbuckets -= 1;
440 #endif
443 #ifdef OBJC_SPARSE3
444 /* Free empty_index. */
445 if (array->empty_index->version.version == array->version.version)
447 sarray_free_garbage (array->empty_index);
448 nindices -= 1;
450 #endif
452 /* Free empty_bucket. */
453 if (array->empty_bucket->version.version == array->version.version)
455 sarray_free_garbage (array->empty_bucket);
456 nbuckets -= 1;
458 idxsize -= (old_max_index + 1);
459 narrays -= 1;
461 #ifdef OBJC_SPARSE3
462 /* Free bucket table. */
463 sarray_free_garbage (array->indices);
464 #else
465 /* Free bucket table. */
466 sarray_free_garbage (array->buckets);
467 #endif
469 /* If this is a copy of another array, we free it (which might just
470 decrement its reference count so it will be freed when no longer
471 in use). */
472 if (array->is_copy_of)
473 sarray_free (array->is_copy_of);
475 /* Free array. */
476 sarray_free_garbage (array);
479 /* This is a lazy copy. Only the core of the structure is actually
480 copied. */
481 struct sarray *
482 sarray_lazy_copy (struct sarray *oarr)
484 struct sarray *arr;
486 #ifdef OBJC_SPARSE3
487 size_t num_indices = ((oarr->capacity - 1)/INDEX_CAPACITY) + 1;
488 struct sindex **new_indices;
489 #else /* OBJC_SPARSE2 */
490 size_t num_indices = ((oarr->capacity - 1)/BUCKET_SIZE) + 1;
491 struct sbucket **new_buckets;
492 #endif
494 /* Allocate core array. */
495 arr = (struct sarray *) objc_malloc (sizeof (struct sarray)); /* !!! */
496 arr->version.version = oarr->version.version + 1;
497 #ifdef OBJC_SPARSE3
498 arr->empty_index = oarr->empty_index;
499 #endif
500 arr->empty_bucket = oarr->empty_bucket;
501 arr->ref_count = 1;
502 oarr->ref_count += 1;
503 arr->is_copy_of = oarr;
504 arr->capacity = oarr->capacity;
506 #ifdef OBJC_SPARSE3
507 /* Copy bucket table. */
508 new_indices = (struct sindex **)
509 objc_malloc (sizeof (struct sindex *) * num_indices);
510 memcpy (new_indices, oarr->indices, sizeof (struct sindex *) * num_indices);
511 arr->indices = new_indices;
512 #else
513 /* Copy bucket table. */
514 new_buckets = (struct sbucket **)
515 objc_malloc (sizeof (struct sbucket *) * num_indices);
516 memcpy (new_buckets, oarr->buckets, sizeof (struct sbucket *) * num_indices);
517 arr->buckets = new_buckets;
518 #endif
520 idxsize += num_indices;
521 narrays += 1;
523 return arr;