/* * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software Foundation, * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * * The Original Code is Copyright (C) 2001-2002 by NaN Holding BV. * All rights reserved. */ #pragma once /** \file * \ingroup bli * * GHash is a hash-map implementation (unordered key, value pairs). * * This is also used to implement a 'set' (see #GSet below). */ #include "BLI_compiler_attrs.h" #include "BLI_compiler_compat.h" #include "BLI_sys_types.h" /* for bool */ #ifdef __cplusplus extern "C" { #endif #define _GHASH_INTERNAL_ATTR #ifndef GHASH_INTERNAL_API # ifdef __GNUC__ # undef _GHASH_INTERNAL_ATTR # define _GHASH_INTERNAL_ATTR __attribute__((deprecated)) /* not deprecated, just private. */ # endif #endif /* -------------------------------------------------------------------- */ /** \name GHash Types * \{ */ typedef unsigned int (*GHashHashFP)(const void *key); /** returns false when equal */ typedef bool (*GHashCmpFP)(const void *a, const void *b); typedef void (*GHashKeyFreeFP)(void *key); typedef void (*GHashValFreeFP)(void *val); typedef void *(*GHashKeyCopyFP)(const void *key); typedef void *(*GHashValCopyFP)(const void *val); typedef struct GHash GHash; typedef struct GHashIterator { GHash *gh; struct Entry *curEntry; unsigned int curBucket; } GHashIterator; typedef struct GHashIterState { unsigned int curr_bucket _GHASH_INTERNAL_ATTR; } GHashIterState; enum { GHASH_FLAG_ALLOW_DUPES = (1 << 0), /* Only checked for in debug mode */ GHASH_FLAG_ALLOW_SHRINK = (1 << 1), /* Allow to shrink buckets' size. */ #ifdef GHASH_INTERNAL_API /* Internal usage only */ /* Whether the GHash is actually used as GSet (no value storage). */ GHASH_FLAG_IS_GSET = (1 << 16), #endif }; /** \} */ /* -------------------------------------------------------------------- */ /** \name GHash API * * Defined in `BLI_ghash.c` * \{ */ /** * Creates a new, empty GHash. * * \param hashfp: Hash callback. * \param cmpfp: Comparison callback. * \param info: Identifier string for the GHash. * \param nentries_reserve: Optionally reserve the number of members that the hash will hold. * Use this to avoid resizing buckets if the size is known or can be closely approximated. * \return An empty GHash. */ GHash *BLI_ghash_new_ex(GHashHashFP hashfp, GHashCmpFP cmpfp, const char *info, unsigned int nentries_reserve) ATTR_MALLOC ATTR_WARN_UNUSED_RESULT; /** * Wraps #BLI_ghash_new_ex with zero entries reserved. */ GHash *BLI_ghash_new(GHashHashFP hashfp, GHashCmpFP cmpfp, const char *info) ATTR_MALLOC ATTR_WARN_UNUSED_RESULT; /** * Copy given GHash. Keys and values are also copied if relevant callback is provided, * else pointers remain the same. */ GHash *BLI_ghash_copy(const GHash *gh, GHashKeyCopyFP keycopyfp, GHashValCopyFP valcopyfp) ATTR_MALLOC ATTR_WARN_UNUSED_RESULT; /** * Frees the GHash and its members. * * \param gh: The GHash to free. * \param keyfreefp: Optional callback to free the key. * \param valfreefp: Optional callback to free the value. */ void BLI_ghash_free(GHash *gh, GHashKeyFreeFP keyfreefp, GHashValFreeFP valfreefp); /** * Reserve given amount of entries (resize \a gh accordingly if needed). */ void BLI_ghash_reserve(GHash *gh, unsigned int nentries_reserve); /** * Insert a key/value pair into the \a gh. * * \note Duplicates are not checked, * the caller is expected to ensure elements are unique unless * GHASH_FLAG_ALLOW_DUPES flag is set. */ void BLI_ghash_insert(GHash *gh, void *key, void *val); /** * Inserts a new value to a key that may already be in ghash. * * Avoids #BLI_ghash_remove, #BLI_ghash_insert calls (double lookups) * * \returns true if a new key has been added. */ bool BLI_ghash_reinsert( GHash *gh, void *key, void *val, GHashKeyFreeFP keyfreefp, GHashValFreeFP valfreefp); /** * Replaces the key of an item in the \a gh. * * Use when a key is re-allocated or its memory location is changed. * * \returns The previous key or NULL if not found, the caller may free if it's needed. */ void *BLI_ghash_replace_key(GHash *gh, void *key); /** * Lookup the value of \a key in \a gh. * * \param key: The key to lookup. * \returns the value for \a key or NULL. * * \note When NULL is a valid value, use #BLI_ghash_lookup_p to differentiate a missing key * from a key with a NULL value. (Avoids calling #BLI_ghash_haskey before #BLI_ghash_lookup) */ void *BLI_ghash_lookup(const GHash *gh, const void *key) ATTR_WARN_UNUSED_RESULT; /** * A version of #BLI_ghash_lookup which accepts a fallback argument. */ void *BLI_ghash_lookup_default(const GHash *gh, const void *key, void *val_default) ATTR_WARN_UNUSED_RESULT; /** * Lookup a pointer to the value of \a key in \a gh. * * \param key: The key to lookup. * \returns the pointer to value for \a key or NULL. * * \note This has 2 main benefits over #BLI_ghash_lookup. * - A NULL return always means that \a key isn't in \a gh. * - The value can be modified in-place without further function calls (faster). */ void **BLI_ghash_lookup_p(GHash *gh, const void *key) ATTR_WARN_UNUSED_RESULT; /** * Ensure \a key is exists in \a gh. * * This handles the common situation where the caller needs ensure a key is added to \a gh, * constructing a new value in the case the key isn't found. * Otherwise use the existing value. * * Such situations typically incur multiple lookups, however this function * avoids them by ensuring the key is added, * returning a pointer to the value so it can be used or initialized by the caller. * * \returns true when the value didn't need to be added. * (when false, the caller _must_ initialize the value). */ bool BLI_ghash_ensure_p(GHash *gh, void *key, void ***r_val) ATTR_WARN_UNUSED_RESULT; /** * A version of #BLI_ghash_ensure_p that allows caller to re-assign the key. * Typically used when the key is to be duplicated. * * \warning Caller _must_ write to \a r_key when returning false. */ bool BLI_ghash_ensure_p_ex(GHash *gh, const void *key, void ***r_key, void ***r_val) ATTR_WARN_UNUSED_RESULT; /** * Remove \a key from \a gh, or return false if the key wasn't found. * * \param key: The key to remove. * \param keyfreefp: Optional callback to free the key. * \param valfreefp: Optional callback to free the value. * \return true if \a key was removed from \a gh. */ bool BLI_ghash_remove(GHash *gh, const void *key, GHashKeyFreeFP keyfreefp, GHashValFreeFP valfreefp); /** * Wraps #BLI_ghash_clear_ex with zero entries reserved. */ void BLI_ghash_clear(GHash *gh, GHashKeyFreeFP keyfreefp, GHashValFreeFP valfreefp); /** * Reset \a gh clearing all entries. * * \param keyfreefp: Optional callback to free the key. * \param valfreefp: Optional callback to free the value. * \param nentries_reserve: Optionally reserve the number of members that the hash will hold. */ void BLI_ghash_clear_ex(GHash *gh, GHashKeyFreeFP keyfreefp, GHashValFreeFP valfreefp, unsigned int nentries_reserve); /** * Remove \a key from \a gh, returning the value or NULL if the key wasn't found. * * \param key: The key to remove. * \param keyfreefp: Optional callback to free the key. * \return the value of \a key int \a gh or NULL. */ void *BLI_ghash_popkey(GHash *gh, const void *key, GHashKeyFreeFP keyfreefp) ATTR_WARN_UNUSED_RESULT; /** * \return true if the \a key is in \a gh. */ bool BLI_ghash_haskey(const GHash *gh, const void *key) ATTR_WARN_UNUSED_RESULT; /** * Remove a random entry from \a gh, returning true * if a key/value pair could be removed, false otherwise. * * \param r_key: The removed key. * \param r_val: The removed value. * \param state: Used for efficient removal. * \return true if there was something to pop, false if ghash was already empty. */ bool BLI_ghash_pop(GHash *gh, GHashIterState *state, void **r_key, void **r_val) ATTR_WARN_UNUSED_RESULT ATTR_NONNULL(); /** * \return size of the GHash. */ unsigned int BLI_ghash_len(const GHash *gh) ATTR_WARN_UNUSED_RESULT; /** * Sets a GHash flag. */ void BLI_ghash_flag_set(GHash *gh, unsigned int flag); /** * Clear a GHash flag. */ void BLI_ghash_flag_clear(GHash *gh, unsigned int flag); /** \} */ /* -------------------------------------------------------------------- */ /** \name GHash Iterator * \{ */ /** * Create a new GHashIterator. The hash table must not be mutated * while the iterator is in use, and the iterator will step exactly * #BLI_ghash_len(gh) times before becoming done. * * \param gh: The GHash to iterate over. * \return Pointer to a new iterator. */ GHashIterator *BLI_ghashIterator_new(GHash *gh) ATTR_MALLOC ATTR_WARN_UNUSED_RESULT; /** * Init an already allocated GHashIterator. The hash table must not * be mutated while the iterator is in use, and the iterator will * step exactly #BLI_ghash_len(gh) times before becoming done. * * \param ghi: The GHashIterator to initialize. * \param gh: The GHash to iterate over. */ void BLI_ghashIterator_init(GHashIterator *ghi, GHash *gh); /** * Free a GHashIterator. * * \param ghi: The iterator to free. */ void BLI_ghashIterator_free(GHashIterator *ghi); /** * Steps the iterator to the next index. * * \param ghi: The iterator. */ void BLI_ghashIterator_step(GHashIterator *ghi); BLI_INLINE void *BLI_ghashIterator_getKey(GHashIterator *ghi) ATTR_WARN_UNUSED_RESULT; BLI_INLINE void *BLI_ghashIterator_getValue(GHashIterator *ghi) ATTR_WARN_UNUSED_RESULT; BLI_INLINE void **BLI_ghashIterator_getValue_p(GHashIterator *ghi) ATTR_WARN_UNUSED_RESULT; BLI_INLINE bool BLI_ghashIterator_done(const GHashIterator *ghi) ATTR_WARN_UNUSED_RESULT; struct _gh_Entry { void *next, *key, *val; }; BLI_INLINE void *BLI_ghashIterator_getKey(GHashIterator *ghi) { return ((struct _gh_Entry *)ghi->curEntry)->key; } BLI_INLINE void *BLI_ghashIterator_getValue(GHashIterator *ghi) { return ((struct _gh_Entry *)ghi->curEntry)->val; } BLI_INLINE void **BLI_ghashIterator_getValue_p(GHashIterator *ghi) { return &((struct _gh_Entry *)ghi->curEntry)->val; } BLI_INLINE bool BLI_ghashIterator_done(const GHashIterator *ghi) { return !ghi->curEntry; } /* disallow further access */ #ifdef __GNUC__ # pragma GCC poison _gh_Entry #else # define _gh_Entry void #endif #define GHASH_ITER(gh_iter_, ghash_) \ for (BLI_ghashIterator_init(&gh_iter_, ghash_); BLI_ghashIterator_done(&gh_iter_) == false; \ BLI_ghashIterator_step(&gh_iter_)) #define GHASH_ITER_INDEX(gh_iter_, ghash_, i_) \ for (BLI_ghashIterator_init(&gh_iter_, ghash_), i_ = 0; \ BLI_ghashIterator_done(&gh_iter_) == false; \ BLI_ghashIterator_step(&gh_iter_), i_++) /** \} */ /* -------------------------------------------------------------------- */ /** \name GSet Types * A 'set' implementation (unordered collection of unique elements). * * Internally this is a 'GHash' without any keys, * which is why this API's are in the same header & source file. * \{ */ typedef struct GSet GSet; typedef GHashHashFP GSetHashFP; typedef GHashCmpFP GSetCmpFP; typedef GHashKeyFreeFP GSetKeyFreeFP; typedef GHashKeyCopyFP GSetKeyCopyFP; typedef GHashIterState GSetIterState; /** \} */ /** \name GSet Public API * * Use ghash API to give 'set' functionality * \{ */ GSet *BLI_gset_new_ex(GSetHashFP hashfp, GSetCmpFP cmpfp, const char *info, unsigned int nentries_reserve) ATTR_MALLOC ATTR_WARN_UNUSED_RESULT; GSet *BLI_gset_new(GSetHashFP hashfp, GSetCmpFP cmpfp, const char *info) ATTR_MALLOC ATTR_WARN_UNUSED_RESULT; /** * Copy given GSet. Keys are also copied if callback is provided, else pointers remain the same. */ GSet *BLI_gset_copy(const GSet *gs, GSetKeyCopyFP keycopyfp) ATTR_MALLOC ATTR_WARN_UNUSED_RESULT; unsigned int BLI_gset_len(const GSet *gs) ATTR_WARN_UNUSED_RESULT; void BLI_gset_flag_set(GSet *gs, unsigned int flag); void BLI_gset_flag_clear(GSet *gs, unsigned int flag); void BLI_gset_free(GSet *gs, GSetKeyFreeFP keyfreefp); /** * Adds the key to the set (no checks for unique keys!). * Matching #BLI_ghash_insert */ void BLI_gset_insert(GSet *gs, void *key); /** * A version of BLI_gset_insert which checks first if the key is in the set. * \returns true if a new key has been added. * * \note GHash has no equivalent to this because typically the value would be different. */ bool BLI_gset_add(GSet *gs, void *key); /** * Set counterpart to #BLI_ghash_ensure_p_ex. * similar to BLI_gset_add, except it returns the key pointer. * * \warning Caller _must_ write to \a r_key when returning false. */ bool BLI_gset_ensure_p_ex(GSet *gs, const void *key, void ***r_key); /** * Adds the key to the set (duplicates are managed). * Matching #BLI_ghash_reinsert * * \returns true if a new key has been added. */ bool BLI_gset_reinsert(GSet *gh, void *key, GSetKeyFreeFP keyfreefp); /** * Replaces the key to the set if it's found. * Matching #BLI_ghash_replace_key * * \returns The old key or NULL if not found. */ void *BLI_gset_replace_key(GSet *gs, void *key); bool BLI_gset_haskey(const GSet *gs, const void *key) ATTR_WARN_UNUSED_RESULT; /** * Remove a random entry from \a gs, returning true if a key could be removed, false otherwise. * * \param r_key: The removed key. * \param state: Used for efficient removal. * \return true if there was something to pop, false if gset was already empty. */ bool BLI_gset_pop(GSet *gs, GSetIterState *state, void **r_key) ATTR_WARN_UNUSED_RESULT ATTR_NONNULL(); bool BLI_gset_remove(GSet *gs, const void *key, GSetKeyFreeFP keyfreefp); void BLI_gset_clear_ex(GSet *gs, GSetKeyFreeFP keyfreefp, unsigned int nentries_reserve); void BLI_gset_clear(GSet *gs, GSetKeyFreeFP keyfreefp); /* When set's are used for key & value. */ /** * Returns the pointer to the key if it's found. */ void *BLI_gset_lookup(const GSet *gs, const void *key) ATTR_WARN_UNUSED_RESULT; /** * Returns the pointer to the key if it's found, removing it from the GSet. * \note Caller must handle freeing. */ void *BLI_gset_pop_key(GSet *gs, const void *key) ATTR_WARN_UNUSED_RESULT; /** \} */ /* -------------------------------------------------------------------- */ /** \name GSet Iterator * \{ */ /* rely on inline api for now */ /** Use a GSet specific type so we can cast but compiler sees as different */ typedef struct GSetIterator { GHashIterator _ghi #if defined(__GNUC__) && !defined(__clang__) __attribute__((deprecated)) #endif ; } GSetIterator; BLI_INLINE GSetIterator *BLI_gsetIterator_new(GSet *gs) { return (GSetIterator *)BLI_ghashIterator_new((GHash *)gs); } BLI_INLINE void BLI_gsetIterator_init(GSetIterator *gsi, GSet *gs) { BLI_ghashIterator_init((GHashIterator *)gsi, (GHash *)gs); } BLI_INLINE void BLI_gsetIterator_free(GSetIterator *gsi) { BLI_ghashIterator_free((GHashIterator *)gsi); } BLI_INLINE void *BLI_gsetIterator_getKey(GSetIterator *gsi) { return BLI_ghashIterator_getKey((GHashIterator *)gsi); } BLI_INLINE void BLI_gsetIterator_step(GSetIterator *gsi) { BLI_ghashIterator_step((GHashIterator *)gsi); } BLI_INLINE bool BLI_gsetIterator_done(const GSetIterator *gsi) { return BLI_ghashIterator_done((const GHashIterator *)gsi); } #define GSET_ITER(gs_iter_, gset_) \ for (BLI_gsetIterator_init(&gs_iter_, gset_); BLI_gsetIterator_done(&gs_iter_) == false; \ BLI_gsetIterator_step(&gs_iter_)) #define GSET_ITER_INDEX(gs_iter_, gset_, i_) \ for (BLI_gsetIterator_init(&gs_iter_, gset_), i_ = 0; \ BLI_gsetIterator_done(&gs_iter_) == false; \ BLI_gsetIterator_step(&gs_iter_), i_++) /** \} */ /* -------------------------------------------------------------------- */ /** \name GHash/GSet Debugging API's * \{ */ /* For testing, debugging only */ #ifdef GHASH_INTERNAL_API /** * \return number of buckets in the GHash. */ int BLI_ghash_buckets_len(const GHash *gh); int BLI_gset_buckets_len(const GSet *gs); /** * Measure how well the hash function performs (1.0 is approx as good as random distribution), * and return a few other stats like load, * variance of the distribution of the entries in the buckets, etc. * * Smaller is better! */ double BLI_ghash_calc_quality_ex(GHash *gh, double *r_load, double *r_variance, double *r_prop_empty_buckets, double *r_prop_overloaded_buckets, int *r_biggest_bucket); double BLI_gset_calc_quality_ex(GSet *gs, double *r_load, double *r_variance, double *r_prop_empty_buckets, double *r_prop_overloaded_buckets, int *r_biggest_bucket); double BLI_ghash_calc_quality(GHash *gh); double BLI_gset_calc_quality(GSet *gs); #endif /* GHASH_INTERNAL_API */ /** \} */ /* -------------------------------------------------------------------- */ /** \name GHash/GSet Macros * \{ */ #define GHASH_FOREACH_BEGIN(type, var, what) \ do { \ GHashIterator gh_iter##var; \ GHASH_ITER (gh_iter##var, what) { \ type var = (type)(BLI_ghashIterator_getValue(&gh_iter##var)); #define GHASH_FOREACH_END() \ } \ } \ while (0) #define GSET_FOREACH_BEGIN(type, var, what) \ do { \ GSetIterator gh_iter##var; \ GSET_ITER (gh_iter##var, what) { \ type var = (type)(BLI_gsetIterator_getKey(&gh_iter##var)); #define GSET_FOREACH_END() \ } \ } \ while (0) /** \} */ /* -------------------------------------------------------------------- */ /** \name GHash/GSet Utils * * Defined in `BLI_ghash_utils.c` * \{ */ /** * Callbacks for GHash (`BLI_ghashutil_`) * * \note '_p' suffix denotes void pointer arg, * so we can have functions that take correctly typed args too. */ unsigned int BLI_ghashutil_ptrhash(const void *key); bool BLI_ghashutil_ptrcmp(const void *a, const void *b); /** * This function implements the widely used `djb` hash apparently posted * by Daniel Bernstein to `comp.lang.c` some time ago. The 32 bit * unsigned hash value starts at 5381 and for each byte 'c' in the * string, is updated: `hash = hash * 33 + c`. * This function uses the signed value of each byte. * * NOTE: this is the same hash method that glib 2.34.0 uses. */ unsigned int BLI_ghashutil_strhash_n(const char *key, size_t n); #define BLI_ghashutil_strhash(key) \ (CHECK_TYPE_ANY(key, char *, const char *, const char *const), BLI_ghashutil_strhash_p(key)) unsigned int BLI_ghashutil_strhash_p(const void *ptr); unsigned int BLI_ghashutil_strhash_p_murmur(const void *ptr); bool BLI_ghashutil_strcmp(const void *a, const void *b); #define BLI_ghashutil_inthash(key) \ (CHECK_TYPE_ANY(&(key), int *, const int *), BLI_ghashutil_uinthash((unsigned int)key)) unsigned int BLI_ghashutil_uinthash(unsigned int key); unsigned int BLI_ghashutil_inthash_p(const void *ptr); unsigned int BLI_ghashutil_inthash_p_murmur(const void *ptr); unsigned int BLI_ghashutil_inthash_p_simple(const void *ptr); bool BLI_ghashutil_intcmp(const void *a, const void *b); size_t BLI_ghashutil_combine_hash(size_t hash_a, size_t hash_b); unsigned int BLI_ghashutil_uinthash_v4(const unsigned int key[4]); #define BLI_ghashutil_inthash_v4(key) \ (CHECK_TYPE_ANY(key, int *, const int *), BLI_ghashutil_uinthash_v4((const unsigned int *)key)) #define BLI_ghashutil_inthash_v4_p ((GSetHashFP)BLI_ghashutil_uinthash_v4) #define BLI_ghashutil_uinthash_v4_p ((GSetHashFP)BLI_ghashutil_uinthash_v4) unsigned int BLI_ghashutil_uinthash_v4_murmur(const unsigned int key[4]); #define BLI_ghashutil_inthash_v4_murmur(key) \ (CHECK_TYPE_ANY(key, int *, const int *), \ BLI_ghashutil_uinthash_v4_murmur((const unsigned int *)key)) #define BLI_ghashutil_inthash_v4_p_murmur ((GSetHashFP)BLI_ghashutil_uinthash_v4_murmur) #define BLI_ghashutil_uinthash_v4_p_murmur ((GSetHashFP)BLI_ghashutil_uinthash_v4_murmur) bool BLI_ghashutil_uinthash_v4_cmp(const void *a, const void *b); #define BLI_ghashutil_inthash_v4_cmp BLI_ghashutil_uinthash_v4_cmp typedef struct GHashPair { const void *first; const void *second; } GHashPair; GHashPair *BLI_ghashutil_pairalloc(const void *first, const void *second); unsigned int BLI_ghashutil_pairhash(const void *ptr); bool BLI_ghashutil_paircmp(const void *a, const void *b); void BLI_ghashutil_pairfree(void *ptr); /** * Wrapper GHash Creation Functions */ GHash *BLI_ghash_ptr_new_ex(const char *info, unsigned int nentries_reserve) ATTR_MALLOC ATTR_WARN_UNUSED_RESULT; GHash *BLI_ghash_ptr_new(const char *info) ATTR_MALLOC ATTR_WARN_UNUSED_RESULT; GHash *BLI_ghash_str_new_ex(const char *info, unsigned int nentries_reserve) ATTR_MALLOC ATTR_WARN_UNUSED_RESULT; GHash *BLI_ghash_str_new(const char *info) ATTR_MALLOC ATTR_WARN_UNUSED_RESULT; GHash *BLI_ghash_int_new_ex(const char *info, unsigned int nentries_reserve) ATTR_MALLOC ATTR_WARN_UNUSED_RESULT; GHash *BLI_ghash_int_new(const char *info) ATTR_MALLOC ATTR_WARN_UNUSED_RESULT; GHash *BLI_ghash_pair_new_ex(const char *info, unsigned int nentries_reserve) ATTR_MALLOC ATTR_WARN_UNUSED_RESULT; GHash *BLI_ghash_pair_new(const char *info) ATTR_MALLOC ATTR_WARN_UNUSED_RESULT; GSet *BLI_gset_ptr_new_ex(const char *info, unsigned int nentries_reserve) ATTR_MALLOC ATTR_WARN_UNUSED_RESULT; GSet *BLI_gset_ptr_new(const char *info); GSet *BLI_gset_str_new_ex(const char *info, unsigned int nentries_reserve) ATTR_MALLOC ATTR_WARN_UNUSED_RESULT; GSet *BLI_gset_str_new(const char *info); GSet *BLI_gset_pair_new_ex(const char *info, unsigned int nentries_reserve) ATTR_MALLOC ATTR_WARN_UNUSED_RESULT; GSet *BLI_gset_pair_new(const char *info) ATTR_MALLOC ATTR_WARN_UNUSED_RESULT; GSet *BLI_gset_int_new_ex(const char *info, unsigned int nentries_reserve) ATTR_MALLOC ATTR_WARN_UNUSED_RESULT; GSet *BLI_gset_int_new(const char *info) ATTR_MALLOC ATTR_WARN_UNUSED_RESULT; /** \} */ #ifdef __cplusplus } #endif