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mirror of git://sourceware.org/git/lvm2.git synced 2024-12-21 13:34:40 +03:00
lvm2/libdm/datastruct/list.h
2005-06-01 16:51:55 +00:00

239 lines
6.2 KiB
C

/*
* Copyright (C) 2001-2004 Sistina Software, Inc. All rights reserved.
* Copyright (C) 2004 Red Hat, Inc. All rights reserved.
*
* This file is part of LVM2.
*
* This copyrighted material is made available to anyone wishing to use,
* modify, copy, or redistribute it subject to the terms and conditions
* of the GNU General Public License v.2.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#ifndef _LVM_LIST_H
#define _LVM_LIST_H
#include <assert.h>
/*
* A list consists of a list head plus elements.
* Each element has 'next' and 'previous' pointers.
* The list head's pointers point to the first and the last element.
*/
struct list {
struct list *n, *p;
};
/*
* Initialise a list before use.
* The list head's next and previous pointers point back to itself.
*/
#define LIST_INIT(name) struct list name = { &(name), &(name) }
static inline void list_init(struct list *head)
{
head->n = head->p = head;
}
/*
* Insert an element before 'head'.
* If 'head' is the list head, this adds an element to the end of the list.
*/
static inline void list_add(struct list *head, struct list *elem)
{
assert(head->n);
elem->n = head;
elem->p = head->p;
head->p->n = elem;
head->p = elem;
}
/*
* Insert an element after 'head'.
* If 'head' is the list head, this adds an element to the front of the list.
*/
static inline void list_add_h(struct list *head, struct list *elem)
{
assert(head->n);
elem->n = head->n;
elem->p = head;
head->n->p = elem;
head->n = elem;
}
/*
* Delete an element from its list.
* Note that this doesn't change the element itself - it may still be safe
* to follow its pointers.
*/
static inline void list_del(struct list *elem)
{
elem->n->p = elem->p;
elem->p->n = elem->n;
}
/*
* Is the list empty?
*/
static inline int list_empty(struct list *head)
{
return head->n == head;
}
/*
* Is this the first element of the list?
*/
static inline int list_start(struct list *head, struct list *elem)
{
return elem->p == head;
}
/*
* Is this the last element of the list?
*/
static inline int list_end(struct list *head, struct list *elem)
{
return elem->n == head;
}
/*
* Return first element of the list or NULL if empty
*/
static inline struct list *list_first(struct list *head)
{
return (list_empty(head) ? NULL : head->n);
}
/*
* Return last element of the list or NULL if empty
*/
static inline struct list *list_last(struct list *head)
{
return (list_empty(head) ? NULL : head->p);
}
/*
* Return the previous element of the list, or NULL if we've reached the start.
*/
static inline struct list *list_prev(struct list *head, struct list *elem)
{
return (list_start(head, elem) ? NULL : elem->p);
}
/*
* Return the next element of the list, or NULL if we've reached the end.
*/
static inline struct list *list_next(struct list *head, struct list *elem)
{
return (list_end(head, elem) ? NULL : elem->n);
}
/*
* Given the address v of an instance of 'struct list' called 'head'
* contained in a structure of type t, return the containing structure.
*/
#define list_struct_base(v, t, head) \
((t *)((uintptr_t)(v) - (uintptr_t)&((t *) 0)->head))
/*
* Given the address v of an instance of 'struct list list' contained in
* a structure of type t, return the containing structure.
*/
#define list_item(v, t) list_struct_base((v), t, list)
/*
* Given the address v of one known element e in a known structure of type t,
* return another element f.
*/
#define struct_field(v, t, e, f) \
(((t *)((uintptr_t)(v) - (uintptr_t)&((t *) 0)->e))->f)
/*
* Given the address v of a known element e in a known structure of type t,
* return the list head 'list'
*/
#define list_head(v, t, e) struct_field(v, t, e, list)
/*
* Set v to each element of a list in turn.
*/
#define list_iterate(v, head) \
for (v = (head)->n; v != head; v = v->n)
/*
* Set v to each element in a list in turn, starting from the element
* in front of 'start'.
* You can use this to 'unwind' a list_iterate and back out actions on
* already-processed elements.
* If 'start' is 'head' it walks the list backwards.
*/
#define list_uniterate(v, head, start) \
for (v = (start)->p; v != head; v = v->p)
/*
* A safe way to walk a list and delete and free some elements along
* the way.
* t must be defined as a temporary variable of the same type as v.
*/
#define list_iterate_safe(v, t, head) \
for (v = (head)->n, t = v->n; v != head; v = t, t = v->n)
/*
* Walk a list, setting 'v' in turn to the containing structure of each item.
* The containing structure should be the same type as 'v'.
* The 'struct list' variable within the containing structure is 'field'.
*/
#define list_iterate_items_gen(v, head, field) \
for (v = list_struct_base((head)->n, typeof(*v), field); \
&v->field != (head); \
v = list_struct_base(v->field.n, typeof(*v), field))
/*
* Walk a list, setting 'v' in turn to the containing structure of each item.
* The containing structure should be the same type as 'v'.
* The list should be 'struct list list' within the containing structure.
*/
#define list_iterate_items(v, head) list_iterate_items_gen(v, (head), list)
/*
* Walk a list backwards, setting 'v' in turn to the containing structure
* of each item.
* The containing structure should be the same type as 'v'.
* The 'struct list' variable within the containing structure is 'field'.
*/
#define list_iterate_back_items_gen(v, head, field) \
for (v = list_struct_base((head)->p, typeof(*v), field); \
&v->field != (head); \
v = list_struct_base(v->field.p, typeof(*v), field))
/*
* Walk a list backwards, setting 'v' in turn to the containing structure
* of each item.
* The containing structure should be the same type as 'v'.
* The list should be 'struct list list' within the containing structure.
*/
#define list_iterate_back_items(v, head) list_iterate_back_items_gen(v, (head), list)
/*
* Return the number of elements in a list by walking it.
*/
static inline unsigned int list_size(const struct list *head)
{
unsigned int s = 0;
const struct list *v;
list_iterate(v, head)
s++;
return s;
}
#endif