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239 lines
4.7 KiB
C
239 lines
4.7 KiB
C
/*
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* BIRD Library -- Linked Lists
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*
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* (c) 1998 Martin Mares <mj@ucw.cz>
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*
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* Can be freely distributed and used under the terms of the GNU GPL.
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*/
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/**
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* DOC: Linked lists
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*
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* The BIRD library provides a set of functions for operating on linked
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* lists. The lists are internally represented as standard doubly linked
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* lists with synthetic head and tail which makes all the basic operations
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* run in constant time and contain no extra end-of-list checks. Each list
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* is described by a &list structure, nodes can have any format as long
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* as they start with a &node structure. If you want your nodes to belong
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* to multiple lists at once, you can embed multiple &node structures in them
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* and use the SKIP_BACK() macro to calculate a pointer to the start of the
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* structure from a &node pointer, but beware of obscurity.
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*
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* There also exist safe linked lists (&slist, &snode and all functions
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* being prefixed with |s_|) which support asynchronous walking very
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* similar to that used in the &fib structure.
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*/
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#define _BIRD_LISTS_C_
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#include "lib/birdlib.h"
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#include "lib/lists.h"
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LIST_INLINE int
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check_list(list *l, node *n)
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{
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if (!l)
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{
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ASSERT_DIE(n);
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node *nn = n;
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while (nn->prev)
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nn = nn->prev;
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l = SKIP_BACK(list, head_node, nn);
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}
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int seen = 0;
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ASSERT_DIE(l->null == NULL);
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ASSERT_DIE(l->head != NULL);
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ASSERT_DIE(l->tail != NULL);
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node *prev = &l->head_node, *cur = l->head, *next = l->head->next;
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while (next)
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{
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if (cur == n)
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seen++;
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ASSERT_DIE(cur->prev == prev);
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prev = cur;
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cur = next;
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next = next->next;
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}
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ASSERT_DIE(cur == &(l->tail_node));
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ASSERT_DIE(!n || (seen == 1) || (n == &l->head_node) || (n == &l->tail_node));
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return 1;
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}
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/**
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* add_tail - append a node to a list
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* @l: linked list
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* @n: list node
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*
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* add_tail() takes a node @n and appends it at the end of the list @l.
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*/
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LIST_INLINE void
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add_tail(list *l, node *n)
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{
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EXPENSIVE_CHECK(check_list(l, NULL));
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ASSUME(n->prev == NULL);
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ASSUME(n->next == NULL);
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node *z = l->tail;
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n->next = &l->tail_node;
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n->prev = z;
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z->next = n;
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l->tail = n;
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}
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/**
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* add_head - prepend a node to a list
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* @l: linked list
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* @n: list node
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*
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* add_head() takes a node @n and prepends it at the start of the list @l.
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*/
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LIST_INLINE void
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add_head(list *l, node *n)
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{
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EXPENSIVE_CHECK(check_list(l, NULL));
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ASSUME(n->prev == NULL);
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ASSUME(n->next == NULL);
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node *z = l->head;
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n->next = z;
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n->prev = &l->head_node;
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z->prev = n;
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l->head = n;
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}
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LIST_INLINE void
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self_link(node *n)
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{
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ASSUME(n->prev == NULL);
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ASSUME(n->next == NULL);
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n->prev = n->next = n;
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}
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/**
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* insert_node - insert a node to a list
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* @n: a new list node
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* @after: a node of a list
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*
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* Inserts a node @n to a linked list after an already inserted
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* node @after.
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*/
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LIST_INLINE void
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insert_node(node *n, node *after)
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{
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EXPENSIVE_CHECK(check_list(NULL, after));
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ASSUME(n->prev == NULL);
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ASSUME(n->next == NULL);
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node *z = after->next;
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n->next = z;
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n->prev = after;
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after->next = n;
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z->prev = n;
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}
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/**
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* rem_node - remove a node from a list
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* @n: node to be removed
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*
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* Removes a node @n from the list it's linked in. Afterwards, node @n is cleared.
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*/
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LIST_INLINE void
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rem_node(node *n)
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{
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EXPENSIVE_CHECK((n == n->prev) && (n == n->next) || check_list(NULL, n));
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node *z = n->prev;
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node *x = n->next;
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z->next = x;
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x->prev = z;
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n->next = NULL;
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n->prev = NULL;
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}
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/**
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* update_node - update node after calling realloc on it
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* @n: node to be updated
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*
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* Fixes neighbor pointers.
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*/
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LIST_INLINE void
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update_node(node *n)
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{
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ASSUME(n->next->prev == n->prev->next);
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n->next->prev = n;
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n->prev->next = n;
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EXPENSIVE_CHECK(check_list(NULL, n));
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}
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/**
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* init_list - create an empty list
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* @l: list
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*
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* init_list() takes a &list structure and initializes its
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* fields, so that it represents an empty list.
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*/
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LIST_INLINE void
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init_list(list *l)
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{
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l->head = &l->tail_node;
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l->null = NULL;
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l->tail = &l->head_node;
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}
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/**
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* add_tail_list - concatenate two lists
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* @to: destination list
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* @l: source list
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*
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* This function appends all elements of the list @l to
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* the list @to in constant time.
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*/
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LIST_INLINE void
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add_tail_list(list *to, list *l)
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{
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EXPENSIVE_CHECK(check_list(to, NULL));
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EXPENSIVE_CHECK(check_list(l, NULL));
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ASSERT_DIE(l->head->prev == &l->head_node);
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ASSERT_DIE(l->tail->next == &l->tail_node);
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node *p = to->tail;
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node *q = l->head;
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p->next = q;
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q->prev = p;
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q = l->tail;
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q->next = &to->tail_node;
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to->tail = q;
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EXPENSIVE_CHECK(check_list(to, NULL));
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}
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LIST_INLINE uint
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list_length(list *l)
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{
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uint len = 0;
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node *n;
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EXPENSIVE_CHECK(check_list(l, NULL));
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WALK_LIST(n, *l)
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len++;
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return len;
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}
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