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f82356d214
From-SVN: r206299
524 lines
14 KiB
C
524 lines
14 KiB
C
/* Sparse Arrays for Objective C dispatch tables
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Copyright (C) 1993-2014 Free Software Foundation, Inc.
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This file is part of GCC.
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GCC is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3, or (at your option)
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any later version.
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GCC is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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Under Section 7 of GPL version 3, you are granted additional
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permissions described in the GCC Runtime Library Exception, version
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3.1, as published by the Free Software Foundation.
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You should have received a copy of the GNU General Public License and
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a copy of the GCC Runtime Library Exception along with this program;
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see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
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<http://www.gnu.org/licenses/>. */
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#include "objc-private/common.h"
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#include "objc-private/sarray.h"
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#include "objc/runtime.h" /* For objc_malloc */
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#include "objc/thr.h" /* For objc_mutex_lock */
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#include "objc-private/module-abi-8.h"
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#include "objc-private/runtime.h"
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#include <stdio.h>
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#include <string.h> /* For memset */
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#include <assert.h> /* For assert */
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int nbuckets = 0; /* !T:MUTEX */
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int nindices = 0; /* !T:MUTEX */
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int narrays = 0; /* !T:MUTEX */
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int idxsize = 0; /* !T:MUTEX */
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static void *first_free_data = NULL; /* !T:MUTEX */
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#ifdef OBJC_SPARSE2
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const char *__objc_sparse2_id = "2 level sparse indices";
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#endif
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#ifdef OBJC_SPARSE3
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const char *__objc_sparse3_id = "3 level sparse indices";
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#endif
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/* This function removes any structures left over from free operations
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that were not safe in a multi-threaded environment. */
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void
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sarray_remove_garbage (void)
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{
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void **vp;
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void *np;
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objc_mutex_lock (__objc_runtime_mutex);
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vp = first_free_data;
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first_free_data = NULL;
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while (vp)
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{
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np = *vp;
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objc_free (vp);
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vp = np;
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}
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objc_mutex_unlock (__objc_runtime_mutex);
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}
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/* Free a block of dynamically allocated memory. If we are in
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multi-threaded mode, it is ok to free it. If not, we add it to the
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garbage heap to be freed later. */
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static void
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sarray_free_garbage (void *vp)
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{
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objc_mutex_lock (__objc_runtime_mutex);
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if (__objc_runtime_threads_alive == 1)
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{
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objc_free (vp);
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if (first_free_data)
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sarray_remove_garbage ();
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}
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else
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{
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*(void **)vp = first_free_data;
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first_free_data = vp;
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}
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objc_mutex_unlock (__objc_runtime_mutex);
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}
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/* sarray_at_put copies data in such a way as to be thread reader
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safe. */
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void
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sarray_at_put (struct sarray *array, sidx index, void *element)
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{
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#ifdef OBJC_SPARSE3
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struct sindex **the_index;
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struct sindex *new_index;
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#endif
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struct sbucket **the_bucket;
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struct sbucket *new_bucket;
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#ifdef OBJC_SPARSE3
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size_t ioffset;
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#endif
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size_t boffset;
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size_t eoffset;
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#ifdef PRECOMPUTE_SELECTORS
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union sofftype xx;
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xx.idx = index;
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#ifdef OBJC_SPARSE3
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ioffset = xx.off.ioffset;
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#endif
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boffset = xx.off.boffset;
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eoffset = xx.off.eoffset;
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#else /* not PRECOMPUTE_SELECTORS */
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#ifdef OBJC_SPARSE3
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ioffset = index/INDEX_CAPACITY;
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boffset = (index/BUCKET_SIZE)%INDEX_SIZE;
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eoffset = index%BUCKET_SIZE;
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#else
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boffset = index/BUCKET_SIZE;
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eoffset = index%BUCKET_SIZE;
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#endif
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#endif /* not PRECOMPUTE_SELECTORS */
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assert (soffset_decode (index) < array->capacity); /* Range check */
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#ifdef OBJC_SPARSE3
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the_index = &(array->indices[ioffset]);
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the_bucket = &((*the_index)->buckets[boffset]);
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#else
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the_bucket = &(array->buckets[boffset]);
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#endif
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if ((*the_bucket)->elems[eoffset] == element)
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return; /* Great! we just avoided a lazy copy. */
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#ifdef OBJC_SPARSE3
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/* First, perform lazy copy/allocation of index if needed. */
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if ((*the_index) == array->empty_index)
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{
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/* The index was previously empty, allocate a new. */
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new_index = (struct sindex *) objc_malloc (sizeof (struct sindex));
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memcpy (new_index, array->empty_index, sizeof (struct sindex));
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new_index->version.version = array->version.version;
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*the_index = new_index; /* Prepared for install. */
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the_bucket = &((*the_index)->buckets[boffset]);
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nindices += 1;
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}
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else if ((*the_index)->version.version != array->version.version)
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{
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/* This index must be lazy copied. */
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struct sindex *old_index = *the_index;
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new_index = (struct sindex *) objc_malloc (sizeof (struct sindex));
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memcpy (new_index, old_index, sizeof (struct sindex));
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new_index->version.version = array->version.version;
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*the_index = new_index; /* Prepared for install. */
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the_bucket = &((*the_index)->buckets[boffset]);
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nindices += 1;
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}
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#endif /* OBJC_SPARSE3 */
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/* Next, perform lazy allocation/copy of the bucket if needed. */
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if ((*the_bucket) == array->empty_bucket)
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{
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/* The bucket was previously empty (or something like that),
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allocate a new. This is the effect of `lazy' allocation. */
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new_bucket = (struct sbucket *) objc_malloc (sizeof (struct sbucket));
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memcpy ((void *) new_bucket, (const void *) array->empty_bucket,
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sizeof (struct sbucket));
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new_bucket->version.version = array->version.version;
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*the_bucket = new_bucket; /* Prepared for install. */
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nbuckets += 1;
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}
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else if ((*the_bucket)->version.version != array->version.version)
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{
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/* Perform lazy copy. */
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struct sbucket *old_bucket = *the_bucket;
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new_bucket = (struct sbucket *) objc_malloc (sizeof (struct sbucket));
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memcpy (new_bucket, old_bucket, sizeof (struct sbucket));
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new_bucket->version.version = array->version.version;
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*the_bucket = new_bucket; /* Prepared for install. */
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nbuckets += 1;
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}
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(*the_bucket)->elems[eoffset] = element;
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}
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void
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sarray_at_put_safe (struct sarray *array, sidx index, void *element)
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{
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if (soffset_decode (index) >= array->capacity)
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sarray_realloc (array, soffset_decode (index) + 1);
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sarray_at_put (array, index, element);
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}
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struct sarray *
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sarray_new (int size, void *default_element)
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{
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struct sarray *arr;
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#ifdef OBJC_SPARSE3
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size_t num_indices = ((size - 1)/(INDEX_CAPACITY)) + 1;
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struct sindex **new_indices;
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#else /* OBJC_SPARSE2 */
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size_t num_indices = ((size - 1)/BUCKET_SIZE) + 1;
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struct sbucket **new_buckets;
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#endif
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size_t counter;
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assert (size > 0);
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/* Allocate core array. */
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arr = (struct sarray *) objc_malloc (sizeof (struct sarray));
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arr->version.version = 0;
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/* Initialize members. */
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#ifdef OBJC_SPARSE3
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arr->capacity = num_indices*INDEX_CAPACITY;
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new_indices = (struct sindex **)
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objc_malloc (sizeof (struct sindex *) * num_indices);
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arr->empty_index = (struct sindex *) objc_malloc (sizeof (struct sindex));
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arr->empty_index->version.version = 0;
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narrays += 1;
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idxsize += num_indices;
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nindices += 1;
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#else /* OBJC_SPARSE2 */
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arr->capacity = num_indices*BUCKET_SIZE;
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new_buckets = (struct sbucket **)
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objc_malloc (sizeof (struct sbucket *) * num_indices);
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narrays += 1;
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idxsize += num_indices;
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#endif
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arr->empty_bucket = (struct sbucket *) objc_malloc (sizeof (struct sbucket));
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arr->empty_bucket->version.version = 0;
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nbuckets += 1;
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arr->ref_count = 1;
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arr->is_copy_of = (struct sarray *) 0;
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for (counter = 0; counter < BUCKET_SIZE; counter++)
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arr->empty_bucket->elems[counter] = default_element;
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#ifdef OBJC_SPARSE3
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for (counter = 0; counter < INDEX_SIZE; counter++)
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arr->empty_index->buckets[counter] = arr->empty_bucket;
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for (counter = 0; counter < num_indices; counter++)
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new_indices[counter] = arr->empty_index;
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#else /* OBJC_SPARSE2 */
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for (counter = 0; counter < num_indices; counter++)
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new_buckets[counter] = arr->empty_bucket;
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#endif
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#ifdef OBJC_SPARSE3
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arr->indices = new_indices;
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#else /* OBJC_SPARSE2 */
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arr->buckets = new_buckets;
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#endif
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return arr;
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}
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/* Reallocate the sparse array to hold `newsize' entries Note: We
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really allocate and then free. We have to do this to ensure that
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any concurrent readers notice the update. */
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void
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sarray_realloc (struct sarray *array, int newsize)
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{
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#ifdef OBJC_SPARSE3
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size_t old_max_index = (array->capacity - 1)/INDEX_CAPACITY;
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size_t new_max_index = ((newsize - 1)/INDEX_CAPACITY);
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size_t rounded_size = (new_max_index + 1) * INDEX_CAPACITY;
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struct sindex **new_indices;
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struct sindex **old_indices;
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#else /* OBJC_SPARSE2 */
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size_t old_max_index = (array->capacity - 1)/BUCKET_SIZE;
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size_t new_max_index = ((newsize - 1)/BUCKET_SIZE);
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size_t rounded_size = (new_max_index + 1) * BUCKET_SIZE;
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struct sbucket **new_buckets;
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struct sbucket **old_buckets;
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#endif
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size_t counter;
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assert (newsize > 0);
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/* The size is the same, just ignore the request. */
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if (rounded_size <= array->capacity)
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return;
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assert (array->ref_count == 1); /* stop if lazy copied... */
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/* We are asked to extend the array -- allocate new bucket table,
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and insert empty_bucket in newly allocated places. */
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if (rounded_size > array->capacity)
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{
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#ifdef OBJC_SPARSE3
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new_max_index += 4;
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rounded_size = (new_max_index + 1) * INDEX_CAPACITY;
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#else /* OBJC_SPARSE2 */
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new_max_index += 4;
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rounded_size = (new_max_index + 1) * BUCKET_SIZE;
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#endif
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/* Update capacity. */
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array->capacity = rounded_size;
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#ifdef OBJC_SPARSE3
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/* Alloc to force re-read by any concurrent readers. */
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old_indices = array->indices;
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new_indices = (struct sindex **)
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objc_malloc ((new_max_index + 1) * sizeof (struct sindex *));
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#else /* OBJC_SPARSE2 */
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old_buckets = array->buckets;
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new_buckets = (struct sbucket **)
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objc_malloc ((new_max_index + 1) * sizeof (struct sbucket *));
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#endif
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/* Copy buckets below old_max_index (they are still valid). */
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for (counter = 0; counter <= old_max_index; counter++ )
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{
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#ifdef OBJC_SPARSE3
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new_indices[counter] = old_indices[counter];
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#else /* OBJC_SPARSE2 */
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new_buckets[counter] = old_buckets[counter];
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#endif
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}
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#ifdef OBJC_SPARSE3
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/* Reset entries above old_max_index to empty_bucket. */
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for (counter = old_max_index + 1; counter <= new_max_index; counter++)
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new_indices[counter] = array->empty_index;
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#else /* OBJC_SPARSE2 */
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/* Reset entries above old_max_index to empty_bucket. */
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for (counter = old_max_index + 1; counter <= new_max_index; counter++)
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new_buckets[counter] = array->empty_bucket;
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#endif
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#ifdef OBJC_SPARSE3
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/* Install the new indices. */
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array->indices = new_indices;
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#else /* OBJC_SPARSE2 */
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array->buckets = new_buckets;
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#endif
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#ifdef OBJC_SPARSE3
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/* Free the old indices. */
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sarray_free_garbage (old_indices);
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#else /* OBJC_SPARSE2 */
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sarray_free_garbage (old_buckets);
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#endif
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idxsize += (new_max_index-old_max_index);
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return;
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}
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}
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/* Free a sparse array allocated with sarray_new */
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void
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sarray_free (struct sarray *array) {
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#ifdef OBJC_SPARSE3
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size_t old_max_index = (array->capacity - 1)/INDEX_CAPACITY;
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struct sindex **old_indices;
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#else
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size_t old_max_index = (array->capacity - 1)/BUCKET_SIZE;
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struct sbucket **old_buckets;
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#endif
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size_t counter = 0;
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assert (array->ref_count != 0); /* Freed multiple times!!! */
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if (--(array->ref_count) != 0) /* There exists copies of me */
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return;
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#ifdef OBJC_SPARSE3
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old_indices = array->indices;
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#else
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old_buckets = array->buckets;
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#endif
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/* Free all entries that do not point to empty_bucket. */
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for (counter = 0; counter <= old_max_index; counter++ )
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{
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#ifdef OBJC_SPARSE3
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struct sindex *idx = old_indices[counter];
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if ((idx != array->empty_index)
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&& (idx->version.version == array->version.version))
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{
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int c2;
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for (c2 = 0; c2 < INDEX_SIZE; c2++)
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{
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struct sbucket *bkt = idx->buckets[c2];
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if ((bkt != array->empty_bucket)
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&& (bkt->version.version == array->version.version))
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{
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sarray_free_garbage (bkt);
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nbuckets -= 1;
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}
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}
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sarray_free_garbage (idx);
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nindices -= 1;
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}
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#else /* OBJC_SPARSE2 */
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struct sbucket *bkt = old_buckets[counter];
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if ((bkt != array->empty_bucket)
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&& (bkt->version.version == array->version.version))
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{
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sarray_free_garbage (bkt);
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nbuckets -= 1;
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}
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#endif
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}
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#ifdef OBJC_SPARSE3
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/* Free empty_index. */
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if (array->empty_index->version.version == array->version.version)
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{
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sarray_free_garbage (array->empty_index);
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nindices -= 1;
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}
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#endif
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/* Free empty_bucket. */
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if (array->empty_bucket->version.version == array->version.version)
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{
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sarray_free_garbage (array->empty_bucket);
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nbuckets -= 1;
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}
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idxsize -= (old_max_index + 1);
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narrays -= 1;
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#ifdef OBJC_SPARSE3
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/* Free bucket table. */
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sarray_free_garbage (array->indices);
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#else
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/* Free bucket table. */
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sarray_free_garbage (array->buckets);
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#endif
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/* If this is a copy of another array, we free it (which might just
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decrement its reference count so it will be freed when no longer
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in use). */
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if (array->is_copy_of)
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sarray_free (array->is_copy_of);
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/* Free array. */
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sarray_free_garbage (array);
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}
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/* This is a lazy copy. Only the core of the structure is actually
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copied. */
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struct sarray *
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sarray_lazy_copy (struct sarray *oarr)
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{
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struct sarray *arr;
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#ifdef OBJC_SPARSE3
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size_t num_indices = ((oarr->capacity - 1)/INDEX_CAPACITY) + 1;
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struct sindex **new_indices;
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#else /* OBJC_SPARSE2 */
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size_t num_indices = ((oarr->capacity - 1)/BUCKET_SIZE) + 1;
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struct sbucket **new_buckets;
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#endif
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/* Allocate core array. */
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arr = (struct sarray *) objc_malloc (sizeof (struct sarray)); /* !!! */
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arr->version.version = oarr->version.version + 1;
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#ifdef OBJC_SPARSE3
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arr->empty_index = oarr->empty_index;
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#endif
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arr->empty_bucket = oarr->empty_bucket;
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arr->ref_count = 1;
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oarr->ref_count += 1;
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arr->is_copy_of = oarr;
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arr->capacity = oarr->capacity;
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#ifdef OBJC_SPARSE3
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/* Copy bucket table. */
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new_indices = (struct sindex **)
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objc_malloc (sizeof (struct sindex *) * num_indices);
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memcpy (new_indices, oarr->indices, sizeof (struct sindex *) * num_indices);
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arr->indices = new_indices;
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#else
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/* Copy bucket table. */
|
||
new_buckets = (struct sbucket **)
|
||
objc_malloc (sizeof (struct sbucket *) * num_indices);
|
||
memcpy (new_buckets, oarr->buckets, sizeof (struct sbucket *) * num_indices);
|
||
arr->buckets = new_buckets;
|
||
#endif
|
||
|
||
idxsize += num_indices;
|
||
narrays += 1;
|
||
|
||
return arr;
|
||
}
|