/* * Copyright (c) 2011, 2012, 2013, 2015 Nicira, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include "sset.h" #include "hash.h" static uint32_t hash_name__(const char *name, size_t length) { return hash_bytes(name, length, 0); } static uint32_t hash_name(const char *name) { return hash_name__(name, strlen(name)); } static struct sset_node * sset_find__(const struct sset *set, const char *name, size_t hash) { struct sset_node *node; HMAP_FOR_EACH_WITH_HASH (node, hmap_node, hash, &set->map) { if (!strcmp(node->name, name)) { return node; } } return NULL; } static struct sset_node * sset_add__(struct sset *set, const char *name, size_t length, size_t hash) { struct sset_node *node = xmalloc(length + sizeof *node); memcpy(node->name, name, length + 1); hmap_insert(&set->map, &node->hmap_node, hash); return node; } /* Initializes 'set' as an empty set of strings. */ void sset_init(struct sset *set) { hmap_init(&set->map); } /* Destroys 'sets'. */ void sset_destroy(struct sset *set) { if (set) { sset_clear(set); hmap_destroy(&set->map); } } /* Initializes 'set' to contain the same strings as 'orig'. */ void sset_clone(struct sset *set, const struct sset *orig) { struct sset_node *node; sset_init(set); HMAP_FOR_EACH (node, hmap_node, &orig->map) { sset_add__(set, node->name, strlen(node->name), node->hmap_node.hash); } } /* Exchanges the contents of 'a' and 'b'. */ void sset_swap(struct sset *a, struct sset *b) { hmap_swap(&a->map, &b->map); } /* Adjusts 'set' so that it is still valid after it has been moved around in * memory (e.g. due to realloc()). */ void sset_moved(struct sset *set) { hmap_moved(&set->map); } /* Returns true if 'set' contains no strings, false if it contains at least one * string. */ bool sset_is_empty(const struct sset *set) { return hmap_is_empty(&set->map); } /* Returns the number of strings in 'set'. */ size_t sset_count(const struct sset *set) { return hmap_count(&set->map); } /* Adds 'name' to 'set'. If 'name' is new, returns the new sset_node; * otherwise (if a copy of 'name' already existed in 'set'), returns NULL. */ struct sset_node * sset_add(struct sset *set, const char *name) { size_t length = strlen(name); uint32_t hash = hash_name__(name, length); return (sset_find__(set, name, hash) ? NULL : sset_add__(set, name, length, hash)); } /* Adds a copy of 'name' to 'set' and frees 'name'. * * If 'name' is new, returns the new sset_node; otherwise (if a copy of 'name' * already existed in 'set'), returns NULL. */ struct sset_node * sset_add_and_free(struct sset *set, char *name) { struct sset_node *node = sset_add(set, name); free(name); return node; } /* Adds 'name' to 'set'. Assert-fails if a copy of 'name' was already in * 'set'. */ void sset_add_assert(struct sset *set, const char *name) { bool added OVS_UNUSED = sset_add(set, name); ovs_assert(added); } /* Adds a copy of each of the 'n' names in 'names' to 'set'. */ void sset_add_array(struct sset *set, char **names, size_t n) { size_t i; for (i = 0; i < n; i++) { sset_add(set, names[i]); } } /* Removes all of the strings from 'set'. */ void sset_clear(struct sset *set) { const char *name, *next; SSET_FOR_EACH_SAFE (name, next, set) { sset_delete(set, SSET_NODE_FROM_NAME(name)); } } /* Deletes 'node' from 'set' and frees 'node'. */ void sset_delete(struct sset *set, struct sset_node *node) { hmap_remove(&set->map, &node->hmap_node); free(node); } /* Searches for 'name' in 'set'. If found, deletes it and returns true. If * not found, returns false without modifying 'set'. */ bool sset_find_and_delete(struct sset *set, const char *name) { struct sset_node *node = sset_find(set, name); if (node) { sset_delete(set, node); } return node != NULL; } /* Searches for 'name' in 'set' and deletes it. Assert-fails if 'name' is not * in 'set'. */ void sset_find_and_delete_assert(struct sset *set, const char *name) { bool deleted OVS_UNUSED = sset_find_and_delete(set, name); ovs_assert(deleted); } /* Removes a string from 'set' and returns a copy of it. The caller must free * the returned string (with free()). * * 'set' must not be empty. * * This is not a very good way to iterate through an sset: it copies each name * and it takes O(n**2) time to remove all the names. Use SSET_FOR_EACH_SAFE * instead, if you can. */ char * sset_pop(struct sset *set) { const char *name = SSET_FIRST(set); char *copy = xstrdup(name); sset_delete(set, SSET_NODE_FROM_NAME(name)); return copy; } /* Searches for 'name' in 'set'. Returns its node, if found, otherwise a null * pointer. */ struct sset_node * sset_find(const struct sset *set, const char *name) { return sset_find__(set, name, hash_name(name)); } /* Returns true if 'set' contains a copy of 'name', false otherwise. */ bool sset_contains(const struct sset *set, const char *name) { return sset_find(set, name) != NULL; } /* Returns true if 'a' and 'b' contain the same strings, false otherwise. */ bool sset_equals(const struct sset *a, const struct sset *b) { struct sset_node *node; if (sset_count(a) != sset_count(b)) { return false; } HMAP_FOR_EACH (node, hmap_node, &a->map) { if (!sset_find__(b, node->name, node->hmap_node.hash)) { return false; } } return true; } /* Returns the next node in 'set' in hash order, or NULL if no nodes remain in * 'set'. Uses '*pos' to determine where to begin iteration, and updates * '*pos' to pass on the next iteration into them before returning. * * It's better to use plain SSET_FOR_EACH and related functions, since they are * faster and better at dealing with ssets that change during iteration. * * Before beginning iteration, set '*pos' to all zeros. */ struct sset_node * sset_at_position(const struct sset *set, struct sset_position *pos) { struct hmap_node *hmap_node; hmap_node = hmap_at_position(&set->map, &pos->pos); return SSET_NODE_FROM_HMAP_NODE(hmap_node); } /* Replaces 'a' by the intersection of 'a' and 'b'. That is, removes from 'a' * all of the strings that are not also in 'b'. */ void sset_intersect(struct sset *a, const struct sset *b) { const char *name, *next; SSET_FOR_EACH_SAFE (name, next, a) { if (!sset_contains(b, name)) { sset_delete(a, SSET_NODE_FROM_NAME(name)); } } } /* Returns a null-terminated array of pointers to the strings in 'set', in no * particular order. The caller must free the returned array when it is no * longer needed, but the strings in the array belong to 'set' and thus must * not be modified or freed. */ const char ** sset_array(const struct sset *set) { size_t n = sset_count(set); const char **array; const char *s; size_t i; array = xmalloc(sizeof *array * (n + 1)); i = 0; SSET_FOR_EACH (s, set) { array[i++] = s; } ovs_assert(i == n); array[n] = NULL; return array; } static int compare_string_pointers(const void *a_, const void *b_) { const char *const *a = a_; const char *const *b = b_; return strcmp(*a, *b); } /* Returns a null-terminated array of pointers to the strings in 'set', sorted * alphabetically. The caller must free the returned array when it is no * longer needed, but the strings in the array belong to 'set' and thus must * not be modified or freed. */ const char ** sset_sort(const struct sset *set) { const char **array = sset_array(set); qsort(array, sset_count(set), sizeof *array, compare_string_pointers); return array; }