/* * BIRD Library -- Linked Lists * * (c) 1998 Martin Mares * * Can be freely distributed and used under the terms of the GNU GPL. */ /** * DOC: Linked lists * * The BIRD library provides a set of functions for operating on linked * lists. The lists are internally represented as standard doubly linked * lists with synthetic head and tail which makes all the basic operations * run in constant time and contain no extra end-of-list checks. Each list * is described by a &list structure, nodes can have any format as long * as they start with a &node structure. If you want your nodes to belong * to multiple lists at once, you can embed multiple &node structures in them * and use the SKIP_BACK() macro to calculate a pointer to the start of the * structure from a &node pointer, but beware of obscurity. * * There also exist safe linked lists (&slist, &snode and all functions * being prefixed with |s_|) which support asynchronous walking very * similar to that used in the &fib structure. */ #define _BIRD_LISTS_C_ #include "lib/null.h" #include "lib/lists.h" /** * add_tail - append a node to a list * @l: linked list * @n: list node * * add_tail() takes a node @n and appends it at the end of the list @l. */ LIST_INLINE void add_tail(list *l, node *n) { node *z = l->tail; n->next = &l->tail_node; n->prev = z; z->next = n; l->tail = n; } /** * add_head - prepend a node to a list * @l: linked list * @n: list node * * add_head() takes a node @n and prepends it at the start of the list @l. */ LIST_INLINE void add_head(list *l, node *n) { node *z = l->head; n->next = z; n->prev = &l->head_node; z->prev = n; l->head = n; } /** * insert_node - insert a node to a list * @n: a new list node * @after: a node of a list * * Inserts a node @n to a linked list after an already inserted * node @after. */ LIST_INLINE void insert_node(node *n, node *after) { node *z = after->next; n->next = z; n->prev = after; after->next = n; z->prev = n; } /** * rem_node - remove a node from a list * @n: node to be removed * * Removes a node @n from the list it's linked in. Afterwards, node @n is cleared. */ LIST_INLINE void rem_node(node *n) { node *z = n->prev; node *x = n->next; z->next = x; x->prev = z; n->next = NULL; n->prev = NULL; } /** * replace_node - replace a node in a list with another one * @old: node to be removed * @new: node to be inserted * * Replaces node @old in the list it's linked in with node @new. Node * @old may be a copy of the original node, which is not accessed * through the list. The function could be called with @old == @new, * which just fixes neighbors' pointers in the case that the node * was reallocated. */ LIST_INLINE void replace_node(node *old, node *new) { old->next->prev = new; old->prev->next = new; new->prev = old->prev; new->next = old->next; } /** * init_list - create an empty list * @l: list * * init_list() takes a &list structure and initializes its * fields, so that it represents an empty list. */ LIST_INLINE void init_list(list *l) { l->head = &l->tail_node; l->null = NULL; l->tail = &l->head_node; } /** * add_tail_list - concatenate two lists * @to: destination list * @l: source list * * This function appends all elements of the list @l to * the list @to in constant time. */ LIST_INLINE void add_tail_list(list *to, list *l) { node *p = to->tail; node *q = l->head; p->next = q; q->prev = p; q = l->tail; q->next = &to->tail_node; to->tail = q; }