forked from etc/pineapple-src
537 lines
18 KiB
C
537 lines
18 KiB
C
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/* $OpenBSD: queue.h,v 1.45 2018/07/12 14:22:54 sashan Exp $ */
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/* $NetBSD: queue.h,v 1.11 1996/05/16 05:17:14 mycroft Exp $ */
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/*
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* Copyright (c) 1991, 1993
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* The Regents of the University of California. All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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* 3. Neither the name of the University nor the names of its contributors
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* may be used to endorse or promote products derived from this software
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* without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
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* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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* SUCH DAMAGE.
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*
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* @(#)queue.h 8.5 (Berkeley) 8/20/94
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*/
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#ifndef _SYS_QUEUE_H_
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#define _SYS_QUEUE_H_
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#include <sys/_null.h>
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/*
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* This file defines five types of data structures: singly-linked lists,
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* lists, simple queues, tail queues and XOR simple queues.
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*
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*
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* A singly-linked list is headed by a single forward pointer. The elements
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* are singly linked for minimum space and pointer manipulation overhead at
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* the expense of O(n) removal for arbitrary elements. New elements can be
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* added to the list after an existing element or at the head of the list.
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* Elements being removed from the head of the list should use the explicit
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* macro for this purpose for optimum efficiency. A singly-linked list may
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* only be traversed in the forward direction. Singly-linked lists are ideal
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* for applications with large datasets and few or no removals or for
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* implementing a LIFO queue.
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*
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* A list is headed by a single forward pointer (or an array of forward
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* pointers for a hash table header). The elements are doubly linked
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* so that an arbitrary element can be removed without a need to
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* traverse the list. New elements can be added to the list before
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* or after an existing element or at the head of the list. A list
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* may only be traversed in the forward direction.
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*
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* A simple queue is headed by a pair of pointers, one to the head of the
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* list and the other to the tail of the list. The elements are singly
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* linked to save space, so elements can only be removed from the
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* head of the list. New elements can be added to the list before or after
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* an existing element, at the head of the list, or at the end of the
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* list. A simple queue may only be traversed in the forward direction.
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*
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* A tail queue is headed by a pair of pointers, one to the head of the
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* list and the other to the tail of the list. The elements are doubly
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* linked so that an arbitrary element can be removed without a need to
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* traverse the list. New elements can be added to the list before or
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* after an existing element, at the head of the list, or at the end of
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* the list. A tail queue may be traversed in either direction.
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*
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* An XOR simple queue is used in the same way as a regular simple queue.
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* The difference is that the head structure also includes a "cookie" that
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* is XOR'd with the queue pointer (first, last or next) to generate the
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* real pointer value.
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*
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* For details on the use of these macros, see the queue(3) manual page.
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*/
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#if defined(QUEUE_MACRO_DEBUG) || (defined(_KERNEL) && defined(DIAGNOSTIC))
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#define _Q_INVALID ((void *)-1)
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#define _Q_INVALIDATE(a) (a) = _Q_INVALID
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#else
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#define _Q_INVALIDATE(a)
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#endif
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/*
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* Singly-linked List definitions.
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*/
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#define SLIST_HEAD(name, type) \
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struct name { \
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struct type *slh_first; /* first element */ \
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}
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#define SLIST_HEAD_INITIALIZER(head) \
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{ NULL }
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#define SLIST_ENTRY(type) \
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struct { \
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struct type *sle_next; /* next element */ \
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}
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/*
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* Singly-linked List access methods.
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*/
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#define SLIST_FIRST(head) ((head)->slh_first)
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#define SLIST_END(head) NULL
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#define SLIST_EMPTY(head) (SLIST_FIRST(head) == SLIST_END(head))
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#define SLIST_NEXT(elm, field) ((elm)->field.sle_next)
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#define SLIST_FOREACH(var, head, field) \
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for((var) = SLIST_FIRST(head); \
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(var) != SLIST_END(head); \
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(var) = SLIST_NEXT(var, field))
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#define SLIST_FOREACH_SAFE(var, head, field, tvar) \
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for ((var) = SLIST_FIRST(head); \
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(var) && ((tvar) = SLIST_NEXT(var, field), 1); \
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(var) = (tvar))
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/*
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* Singly-linked List functions.
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*/
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#define SLIST_INIT(head) { \
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SLIST_FIRST(head) = SLIST_END(head); \
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}
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#define SLIST_INSERT_AFTER(slistelm, elm, field) do { \
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(elm)->field.sle_next = (slistelm)->field.sle_next; \
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(slistelm)->field.sle_next = (elm); \
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} while (0)
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#define SLIST_INSERT_HEAD(head, elm, field) do { \
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(elm)->field.sle_next = (head)->slh_first; \
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(head)->slh_first = (elm); \
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} while (0)
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#define SLIST_REMOVE_AFTER(elm, field) do { \
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(elm)->field.sle_next = (elm)->field.sle_next->field.sle_next; \
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} while (0)
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#define SLIST_REMOVE_HEAD(head, field) do { \
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(head)->slh_first = (head)->slh_first->field.sle_next; \
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} while (0)
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#define SLIST_REMOVE(head, elm, type, field) do { \
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if ((head)->slh_first == (elm)) { \
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SLIST_REMOVE_HEAD((head), field); \
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} else { \
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struct type *curelm = (head)->slh_first; \
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\
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while (curelm->field.sle_next != (elm)) \
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curelm = curelm->field.sle_next; \
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curelm->field.sle_next = \
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curelm->field.sle_next->field.sle_next; \
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} \
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_Q_INVALIDATE((elm)->field.sle_next); \
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} while (0)
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/*
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* List definitions.
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*/
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#define LIST_HEAD(name, type) \
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struct name { \
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struct type *lh_first; /* first element */ \
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}
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#define LIST_HEAD_INITIALIZER(head) \
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{ NULL }
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#define LIST_ENTRY(type) \
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struct { \
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struct type *le_next; /* next element */ \
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struct type **le_prev; /* address of previous next element */ \
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}
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/*
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* List access methods.
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*/
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#define LIST_FIRST(head) ((head)->lh_first)
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#define LIST_END(head) NULL
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#define LIST_EMPTY(head) (LIST_FIRST(head) == LIST_END(head))
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#define LIST_NEXT(elm, field) ((elm)->field.le_next)
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#define LIST_FOREACH(var, head, field) \
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for((var) = LIST_FIRST(head); \
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(var)!= LIST_END(head); \
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(var) = LIST_NEXT(var, field))
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#define LIST_FOREACH_SAFE(var, head, field, tvar) \
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for ((var) = LIST_FIRST(head); \
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(var) && ((tvar) = LIST_NEXT(var, field), 1); \
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(var) = (tvar))
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/*
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* List functions.
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*/
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#define LIST_INIT(head) do { \
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LIST_FIRST(head) = LIST_END(head); \
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} while (0)
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#define LIST_INSERT_AFTER(listelm, elm, field) do { \
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if (((elm)->field.le_next = (listelm)->field.le_next) != NULL) \
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(listelm)->field.le_next->field.le_prev = \
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&(elm)->field.le_next; \
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(listelm)->field.le_next = (elm); \
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(elm)->field.le_prev = &(listelm)->field.le_next; \
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} while (0)
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#define LIST_INSERT_BEFORE(listelm, elm, field) do { \
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(elm)->field.le_prev = (listelm)->field.le_prev; \
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(elm)->field.le_next = (listelm); \
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*(listelm)->field.le_prev = (elm); \
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(listelm)->field.le_prev = &(elm)->field.le_next; \
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} while (0)
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#define LIST_INSERT_HEAD(head, elm, field) do { \
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if (((elm)->field.le_next = (head)->lh_first) != NULL) \
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(head)->lh_first->field.le_prev = &(elm)->field.le_next;\
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(head)->lh_first = (elm); \
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(elm)->field.le_prev = &(head)->lh_first; \
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} while (0)
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#define LIST_REMOVE(elm, field) do { \
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if ((elm)->field.le_next != NULL) \
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(elm)->field.le_next->field.le_prev = \
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(elm)->field.le_prev; \
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*(elm)->field.le_prev = (elm)->field.le_next; \
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_Q_INVALIDATE((elm)->field.le_prev); \
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_Q_INVALIDATE((elm)->field.le_next); \
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} while (0)
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#define LIST_REPLACE(elm, elm2, field) do { \
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if (((elm2)->field.le_next = (elm)->field.le_next) != NULL) \
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(elm2)->field.le_next->field.le_prev = \
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&(elm2)->field.le_next; \
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(elm2)->field.le_prev = (elm)->field.le_prev; \
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*(elm2)->field.le_prev = (elm2); \
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_Q_INVALIDATE((elm)->field.le_prev); \
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_Q_INVALIDATE((elm)->field.le_next); \
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} while (0)
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/*
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* Simple queue definitions.
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*/
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#define SIMPLEQ_HEAD(name, type) \
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struct name { \
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struct type *sqh_first; /* first element */ \
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struct type **sqh_last; /* addr of last next element */ \
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}
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#define SIMPLEQ_HEAD_INITIALIZER(head) \
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{ NULL, &(head).sqh_first }
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#define SIMPLEQ_ENTRY(type) \
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struct { \
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struct type *sqe_next; /* next element */ \
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}
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/*
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* Simple queue access methods.
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*/
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#define SIMPLEQ_FIRST(head) ((head)->sqh_first)
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#define SIMPLEQ_END(head) NULL
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#define SIMPLEQ_EMPTY(head) (SIMPLEQ_FIRST(head) == SIMPLEQ_END(head))
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#define SIMPLEQ_NEXT(elm, field) ((elm)->field.sqe_next)
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#define SIMPLEQ_FOREACH(var, head, field) \
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for((var) = SIMPLEQ_FIRST(head); \
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(var) != SIMPLEQ_END(head); \
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(var) = SIMPLEQ_NEXT(var, field))
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#define SIMPLEQ_FOREACH_SAFE(var, head, field, tvar) \
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for ((var) = SIMPLEQ_FIRST(head); \
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(var) && ((tvar) = SIMPLEQ_NEXT(var, field), 1); \
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(var) = (tvar))
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/*
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* Simple queue functions.
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*/
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#define SIMPLEQ_INIT(head) do { \
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(head)->sqh_first = NULL; \
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(head)->sqh_last = &(head)->sqh_first; \
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} while (0)
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#define SIMPLEQ_INSERT_HEAD(head, elm, field) do { \
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if (((elm)->field.sqe_next = (head)->sqh_first) == NULL) \
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(head)->sqh_last = &(elm)->field.sqe_next; \
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(head)->sqh_first = (elm); \
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} while (0)
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#define SIMPLEQ_INSERT_TAIL(head, elm, field) do { \
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(elm)->field.sqe_next = NULL; \
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*(head)->sqh_last = (elm); \
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(head)->sqh_last = &(elm)->field.sqe_next; \
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} while (0)
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#define SIMPLEQ_INSERT_AFTER(head, listelm, elm, field) do { \
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if (((elm)->field.sqe_next = (listelm)->field.sqe_next) == NULL)\
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(head)->sqh_last = &(elm)->field.sqe_next; \
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(listelm)->field.sqe_next = (elm); \
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} while (0)
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#define SIMPLEQ_REMOVE_HEAD(head, field) do { \
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if (((head)->sqh_first = (head)->sqh_first->field.sqe_next) == NULL) \
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(head)->sqh_last = &(head)->sqh_first; \
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} while (0)
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#define SIMPLEQ_REMOVE_AFTER(head, elm, field) do { \
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if (((elm)->field.sqe_next = (elm)->field.sqe_next->field.sqe_next) \
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== NULL) \
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(head)->sqh_last = &(elm)->field.sqe_next; \
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} while (0)
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#define SIMPLEQ_CONCAT(head1, head2) do { \
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if (!SIMPLEQ_EMPTY((head2))) { \
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*(head1)->sqh_last = (head2)->sqh_first; \
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(head1)->sqh_last = (head2)->sqh_last; \
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SIMPLEQ_INIT((head2)); \
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} \
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} while (0)
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/*
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* XOR Simple queue definitions.
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*/
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#define XSIMPLEQ_HEAD(name, type) \
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struct name { \
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struct type *sqx_first; /* first element */ \
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struct type **sqx_last; /* addr of last next element */ \
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unsigned long sqx_cookie; \
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}
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#define XSIMPLEQ_ENTRY(type) \
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struct { \
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struct type *sqx_next; /* next element */ \
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}
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/*
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* XOR Simple queue access methods.
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*/
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#define XSIMPLEQ_XOR(head, ptr) ((__typeof(ptr))((head)->sqx_cookie ^ \
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(unsigned long)(ptr)))
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#define XSIMPLEQ_FIRST(head) XSIMPLEQ_XOR(head, ((head)->sqx_first))
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#define XSIMPLEQ_END(head) NULL
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#define XSIMPLEQ_EMPTY(head) (XSIMPLEQ_FIRST(head) == XSIMPLEQ_END(head))
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#define XSIMPLEQ_NEXT(head, elm, field) XSIMPLEQ_XOR(head, ((elm)->field.sqx_next))
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#define XSIMPLEQ_FOREACH(var, head, field) \
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for ((var) = XSIMPLEQ_FIRST(head); \
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(var) != XSIMPLEQ_END(head); \
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(var) = XSIMPLEQ_NEXT(head, var, field))
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#define XSIMPLEQ_FOREACH_SAFE(var, head, field, tvar) \
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for ((var) = XSIMPLEQ_FIRST(head); \
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(var) && ((tvar) = XSIMPLEQ_NEXT(head, var, field), 1); \
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(var) = (tvar))
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/*
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* XOR Simple queue functions.
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*/
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#define XSIMPLEQ_INIT(head) do { \
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arc4random_buf(&(head)->sqx_cookie, sizeof((head)->sqx_cookie)); \
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(head)->sqx_first = XSIMPLEQ_XOR(head, NULL); \
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(head)->sqx_last = XSIMPLEQ_XOR(head, &(head)->sqx_first); \
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} while (0)
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#define XSIMPLEQ_INSERT_HEAD(head, elm, field) do { \
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if (((elm)->field.sqx_next = (head)->sqx_first) == \
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XSIMPLEQ_XOR(head, NULL)) \
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(head)->sqx_last = XSIMPLEQ_XOR(head, &(elm)->field.sqx_next); \
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(head)->sqx_first = XSIMPLEQ_XOR(head, (elm)); \
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} while (0)
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#define XSIMPLEQ_INSERT_TAIL(head, elm, field) do { \
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(elm)->field.sqx_next = XSIMPLEQ_XOR(head, NULL); \
|
||
|
*(XSIMPLEQ_XOR(head, (head)->sqx_last)) = XSIMPLEQ_XOR(head, (elm)); \
|
||
|
(head)->sqx_last = XSIMPLEQ_XOR(head, &(elm)->field.sqx_next); \
|
||
|
} while (0)
|
||
|
|
||
|
#define XSIMPLEQ_INSERT_AFTER(head, listelm, elm, field) do { \
|
||
|
if (((elm)->field.sqx_next = (listelm)->field.sqx_next) == \
|
||
|
XSIMPLEQ_XOR(head, NULL)) \
|
||
|
(head)->sqx_last = XSIMPLEQ_XOR(head, &(elm)->field.sqx_next); \
|
||
|
(listelm)->field.sqx_next = XSIMPLEQ_XOR(head, (elm)); \
|
||
|
} while (0)
|
||
|
|
||
|
#define XSIMPLEQ_REMOVE_HEAD(head, field) do { \
|
||
|
if (((head)->sqx_first = XSIMPLEQ_XOR(head, \
|
||
|
(head)->sqx_first)->field.sqx_next) == XSIMPLEQ_XOR(head, NULL)) \
|
||
|
(head)->sqx_last = XSIMPLEQ_XOR(head, &(head)->sqx_first); \
|
||
|
} while (0)
|
||
|
|
||
|
#define XSIMPLEQ_REMOVE_AFTER(head, elm, field) do { \
|
||
|
if (((elm)->field.sqx_next = XSIMPLEQ_XOR(head, \
|
||
|
(elm)->field.sqx_next)->field.sqx_next) \
|
||
|
== XSIMPLEQ_XOR(head, NULL)) \
|
||
|
(head)->sqx_last = \
|
||
|
XSIMPLEQ_XOR(head, &(elm)->field.sqx_next); \
|
||
|
} while (0)
|
||
|
|
||
|
|
||
|
/*
|
||
|
* Tail queue definitions.
|
||
|
*/
|
||
|
#define TAILQ_HEAD(name, type) \
|
||
|
struct name { \
|
||
|
struct type *tqh_first; /* first element */ \
|
||
|
struct type **tqh_last; /* addr of last next element */ \
|
||
|
}
|
||
|
|
||
|
#define TAILQ_HEAD_INITIALIZER(head) \
|
||
|
{ NULL, &(head).tqh_first }
|
||
|
|
||
|
#define TAILQ_ENTRY(type) \
|
||
|
struct { \
|
||
|
struct type *tqe_next; /* next element */ \
|
||
|
struct type **tqe_prev; /* address of previous next element */ \
|
||
|
}
|
||
|
|
||
|
/*
|
||
|
* Tail queue access methods.
|
||
|
*/
|
||
|
#define TAILQ_FIRST(head) ((head)->tqh_first)
|
||
|
#define TAILQ_END(head) NULL
|
||
|
#define TAILQ_NEXT(elm, field) ((elm)->field.tqe_next)
|
||
|
#define TAILQ_LAST(head, headname) \
|
||
|
(*(((struct headname *)((head)->tqh_last))->tqh_last))
|
||
|
/* XXX */
|
||
|
#define TAILQ_PREV(elm, headname, field) \
|
||
|
(*(((struct headname *)((elm)->field.tqe_prev))->tqh_last))
|
||
|
#define TAILQ_EMPTY(head) \
|
||
|
(TAILQ_FIRST(head) == TAILQ_END(head))
|
||
|
|
||
|
#define TAILQ_FOREACH(var, head, field) \
|
||
|
for((var) = TAILQ_FIRST(head); \
|
||
|
(var) != TAILQ_END(head); \
|
||
|
(var) = TAILQ_NEXT(var, field))
|
||
|
|
||
|
#define TAILQ_FOREACH_SAFE(var, head, field, tvar) \
|
||
|
for ((var) = TAILQ_FIRST(head); \
|
||
|
(var) != TAILQ_END(head) && \
|
||
|
((tvar) = TAILQ_NEXT(var, field), 1); \
|
||
|
(var) = (tvar))
|
||
|
|
||
|
|
||
|
#define TAILQ_FOREACH_REVERSE(var, head, headname, field) \
|
||
|
for((var) = TAILQ_LAST(head, headname); \
|
||
|
(var) != TAILQ_END(head); \
|
||
|
(var) = TAILQ_PREV(var, headname, field))
|
||
|
|
||
|
#define TAILQ_FOREACH_REVERSE_SAFE(var, head, headname, field, tvar) \
|
||
|
for ((var) = TAILQ_LAST(head, headname); \
|
||
|
(var) != TAILQ_END(head) && \
|
||
|
((tvar) = TAILQ_PREV(var, headname, field), 1); \
|
||
|
(var) = (tvar))
|
||
|
|
||
|
/*
|
||
|
* Tail queue functions.
|
||
|
*/
|
||
|
#define TAILQ_INIT(head) do { \
|
||
|
(head)->tqh_first = NULL; \
|
||
|
(head)->tqh_last = &(head)->tqh_first; \
|
||
|
} while (0)
|
||
|
|
||
|
#define TAILQ_INSERT_HEAD(head, elm, field) do { \
|
||
|
if (((elm)->field.tqe_next = (head)->tqh_first) != NULL) \
|
||
|
(head)->tqh_first->field.tqe_prev = \
|
||
|
&(elm)->field.tqe_next; \
|
||
|
else \
|
||
|
(head)->tqh_last = &(elm)->field.tqe_next; \
|
||
|
(head)->tqh_first = (elm); \
|
||
|
(elm)->field.tqe_prev = &(head)->tqh_first; \
|
||
|
} while (0)
|
||
|
|
||
|
#define TAILQ_INSERT_TAIL(head, elm, field) do { \
|
||
|
(elm)->field.tqe_next = NULL; \
|
||
|
(elm)->field.tqe_prev = (head)->tqh_last; \
|
||
|
*(head)->tqh_last = (elm); \
|
||
|
(head)->tqh_last = &(elm)->field.tqe_next; \
|
||
|
} while (0)
|
||
|
|
||
|
#define TAILQ_INSERT_AFTER(head, listelm, elm, field) do { \
|
||
|
if (((elm)->field.tqe_next = (listelm)->field.tqe_next) != NULL)\
|
||
|
(elm)->field.tqe_next->field.tqe_prev = \
|
||
|
&(elm)->field.tqe_next; \
|
||
|
else \
|
||
|
(head)->tqh_last = &(elm)->field.tqe_next; \
|
||
|
(listelm)->field.tqe_next = (elm); \
|
||
|
(elm)->field.tqe_prev = &(listelm)->field.tqe_next; \
|
||
|
} while (0)
|
||
|
|
||
|
#define TAILQ_INSERT_BEFORE(listelm, elm, field) do { \
|
||
|
(elm)->field.tqe_prev = (listelm)->field.tqe_prev; \
|
||
|
(elm)->field.tqe_next = (listelm); \
|
||
|
*(listelm)->field.tqe_prev = (elm); \
|
||
|
(listelm)->field.tqe_prev = &(elm)->field.tqe_next; \
|
||
|
} while (0)
|
||
|
|
||
|
#define TAILQ_REMOVE(head, elm, field) do { \
|
||
|
if (((elm)->field.tqe_next) != NULL) \
|
||
|
(elm)->field.tqe_next->field.tqe_prev = \
|
||
|
(elm)->field.tqe_prev; \
|
||
|
else \
|
||
|
(head)->tqh_last = (elm)->field.tqe_prev; \
|
||
|
*(elm)->field.tqe_prev = (elm)->field.tqe_next; \
|
||
|
_Q_INVALIDATE((elm)->field.tqe_prev); \
|
||
|
_Q_INVALIDATE((elm)->field.tqe_next); \
|
||
|
} while (0)
|
||
|
|
||
|
#define TAILQ_REPLACE(head, elm, elm2, field) do { \
|
||
|
if (((elm2)->field.tqe_next = (elm)->field.tqe_next) != NULL) \
|
||
|
(elm2)->field.tqe_next->field.tqe_prev = \
|
||
|
&(elm2)->field.tqe_next; \
|
||
|
else \
|
||
|
(head)->tqh_last = &(elm2)->field.tqe_next; \
|
||
|
(elm2)->field.tqe_prev = (elm)->field.tqe_prev; \
|
||
|
*(elm2)->field.tqe_prev = (elm2); \
|
||
|
_Q_INVALIDATE((elm)->field.tqe_prev); \
|
||
|
_Q_INVALIDATE((elm)->field.tqe_next); \
|
||
|
} while (0)
|
||
|
|
||
|
#define TAILQ_CONCAT(head1, head2, field) do { \
|
||
|
if (!TAILQ_EMPTY(head2)) { \
|
||
|
*(head1)->tqh_last = (head2)->tqh_first; \
|
||
|
(head2)->tqh_first->field.tqe_prev = (head1)->tqh_last; \
|
||
|
(head1)->tqh_last = (head2)->tqh_last; \
|
||
|
TAILQ_INIT((head2)); \
|
||
|
} \
|
||
|
} while (0)
|
||
|
|
||
|
#endif /* !_SYS_QUEUE_H_ */
|