#include #include "list.h" #include "osi.h" typedef struct list_node_t { struct list_node_t *next; void *data; } list_node_t; typedef struct list_t { list_node_t *head; list_node_t *tail; size_t length; list_free_cb free_cb; } list_t; static list_node_t *list_free_node_(list_t *list, list_node_t *node); // Returns a new, empty list. Returns NULL if not enough memory could be allocated // for the list structure. The returned list must be freed with |list_free|. The // |callback| specifies a function to be called whenever a list element is removed // from the list. It can be used to release resources held by the list element, e.g. // memory or file descriptor. |callback| may be NULL if no cleanup is necessary on // element removal. list_t *list_new(list_free_cb callback) { list_t *list = (list_t *)calloc(sizeof(list_t), 1); if (list) list->free_cb = callback; return list; } // Frees the list. This function accepts NULL as an argument, in which case it // behaves like a no-op. void list_free(list_t *list) { if (list != NULL) list_clear(list); free(list); } // Returns true if the list is empty (has no elements), false otherwise. // Note that a NULL list is not the same as an empty list. This function // does not accept a NULL list. bool list_is_empty(const list_t *list) { assert(list != NULL); return (list->length == 0); } // Returns the length of the list. This function does not accept a NULL list. size_t list_length(const list_t *list) { assert(list != NULL); return list->length; } // Returns the first element in the list without removing it. |list| may not // be NULL or empty. void *list_front(const list_t *list) { assert(list != NULL); assert(!list_is_empty(list)); return list->head->data; } // Returns the last element in the list without removing it. |list| may not // be NULL or empty. void *list_back(const list_t *list) { assert(list != NULL); assert(!list_is_empty(list)); return list->tail->data; } bool list_insert_after(list_t *list, list_node_t *prev_node, void *data) { assert(list != NULL); assert(node != NULL); assert(data != NULL); list_node_t *node = (list_node_t *)malloc(sizeof(list_node_t)); if (!node) return false; node->next = prev_node->next; node->data = data; prev_node->next = node; if (list->tail == prev_node) list->tail = node; ++list->length; return true; } // Inserts |data| at the beginning of |list|. Neither |data| nor |list| may be NULL. // This function does not make a copy of |data| so the pointer must remain valid // at least until the element is removed from the list or the list is freed. // Returns true if |data| could be inserted, false otherwise (e.g. out of memory). bool list_prepend(list_t *list, void *data) { assert(list != NULL); assert(data != NULL); list_node_t *node = (list_node_t *)malloc(sizeof(list_node_t)); if (!node) return false; node->next = list->head; node->data = data; list->head = node; if (list->tail == NULL) list->tail = list->head; ++list->length; return true; } // Inserts |data| at the end of |list|. Neither |data| nor |list| may be NULL. // This function does not make a copy of |data| so the pointer must remain valid // at least until the element is removed from the list or the list is freed. // Returns true if |data| could be inserted, false otherwise (e.g. out of memory). bool list_append(list_t *list, void *data) { assert(list != NULL); assert(data != NULL); list_node_t *node = (list_node_t *)malloc(sizeof(list_node_t)); if (!node) return false; node->next = NULL; node->data = data; if (list->tail == NULL) { list->head = node; list->tail = node; } else { list->tail->next = node; list->tail = node; } ++list->length; return true; } // Removes |data| from the list. Neither |list| nor |data| may be NULL. If |data| // is inserted multiple times in the list, this function will only remove the first // instance. If a free function was specified in |list_new|, it will be called back // with |data|. This function returns true if |data| was found in the list and removed, // false otherwise. bool list_remove(list_t *list, void *data) { assert(list != NULL); assert(data != NULL); if (list_is_empty(list)) return false; if (list->head->data == data) { list_node_t *next = list_free_node_(list, list->head); if (list->tail == list->head) list->tail = next; list->head = next; return true; } for (list_node_t *prev = list->head, *node = list->head->next; node; prev = node, node = node->next) if (node->data == data) { prev->next = list_free_node_(list, node); if (list->tail == node) list->tail = prev; return true; } return false; } // Removes all elements in the list. Calling this function will return the list to the // same state it was in after |list_new|. |list| may not be NULL. void list_clear(list_t *list) { assert(list != NULL); for (list_node_t *node = list->head; node; ) node = list_free_node_(list, node); list->head = NULL; list->tail = NULL; list->length = 0; } // Iterates through the entire |list| and calls |callback| for each data element. // If the list is empty, |callback| will never be called. It is safe to mutate the // list inside the callback. If an element is added before the node being visited, // there will be no callback for the newly-inserted node. Neither |list| nor // |callback| may be NULL. void list_foreach(const list_t *list, list_iter_cb callback) { assert(list != NULL); assert(callback != NULL); for (list_node_t *node = list->head; node; ) { list_node_t *next = node->next; callback(node->data); node = next; } } // Returns an iterator to the first element in |list|. |list| may not be NULL. // The returned iterator is valid as long as it does not equal the value returned // by |list_end|. list_node_t *list_begin(const list_t *list) { assert(list != NULL); return list->head; } // Returns an iterator that points past the end of the list. In other words, // this function returns the value of an invalid iterator for the given list. // When an iterator has the same value as what's returned by this function, you // may no longer call |list_next| with the iterator. |list| may not be NULL. list_node_t *list_end(UNUSED_ATTR const list_t *list) { assert(list != NULL); return NULL; } // Given a valid iterator |node|, this function returns the next value for the // iterator. If the returned value equals the value returned by |list_end|, the // iterator has reached the end of the list and may no longer be used for any // purpose. list_node_t *list_next(const list_node_t *node) { assert(node != NULL); return node->next; } // Returns the value stored at the location pointed to by the iterator |node|. // |node| must not equal the value returned by |list_end|. void *list_node(const list_node_t *node) { assert(node != NULL); return node->data; } static list_node_t *list_free_node_(list_t *list, list_node_t *node) { assert(list != NULL); assert(node != NULL); list_node_t *next = node->next; if (list->free_cb) list->free_cb(node->data); free(node); --list->length; return next; }