/* * Linked lists support * * Copyright (C) 2002 Alexandre Julliard * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #ifndef __WINE_SERVER_LIST_H #define __WINE_SERVER_LIST_H #include struct list { struct list *next; struct list *prev; }; /* Define a list like so: * * struct gadget * { * struct list entry; <-- doesn't have to be the first item in the struct * int a, b; * }; * * static struct list global_gadgets = LIST_INIT( global_gadgets ); * * or * * struct some_global_thing * { * struct list gadgets; * }; * * list_init( &some_global_thing->gadgets ); * * Manipulate it like this: * * list_add_head( &global_gadgets, &new_gadget->entry ); * list_remove( &new_gadget->entry ); * list_add_after( &some_random_gadget->entry, &new_gadget->entry ); * * And to iterate over it: * * struct gadget *gadget; * LIST_FOR_EACH_ENTRY( gadget, &global_gadgets, struct gadget, entry ) * { * ... * } * */ /* add an element after the specified one */ static inline void list_add_after( struct list *elem, struct list *to_add ) { to_add->next = elem->next; to_add->prev = elem; elem->next->prev = to_add; elem->next = to_add; } /* add an element before the specified one */ static inline void list_add_before( struct list *elem, struct list *to_add ) { to_add->next = elem; to_add->prev = elem->prev; elem->prev->next = to_add; elem->prev = to_add; } /* add element at the head of the list */ static inline void list_add_head( struct list *list, struct list *elem ) { list_add_after( list, elem ); } /* add element at the tail of the list */ static inline void list_add_tail( struct list *list, struct list *elem ) { list_add_before( list, elem ); } /* remove an element from its list */ static inline void list_remove( struct list *elem ) { elem->next->prev = elem->prev; elem->prev->next = elem->next; } /* get the next element */ static inline struct list *list_next( const struct list *list, const struct list *elem ) { struct list *ret = elem->next; if (elem->next == list) ret = NULL; return ret; } /* get the previous element */ static inline struct list *list_prev( const struct list *list, const struct list *elem ) { struct list *ret = elem->prev; if (elem->prev == list) ret = NULL; return ret; } /* get the first element */ static inline struct list *list_head( const struct list *list ) { return list_next( list, list ); } /* get the last element */ static inline struct list *list_tail( const struct list *list ) { return list_prev( list, list ); } /* check if a list is empty */ static inline int list_empty( const struct list *list ) { return list->next == list; } /* initialize a list */ static inline void list_init( struct list *list ) { list->next = list->prev = list; } /* count the elements of a list */ static inline unsigned int list_count( const struct list *list ) { unsigned count = 0; const struct list *ptr; for (ptr = list->next; ptr != list; ptr = ptr->next) count++; return count; } /* move all elements from src to before the specified element */ static inline void list_move_before( struct list *dst, struct list *src ) { if (list_empty(src)) return; dst->prev->next = src->next; src->next->prev = dst->prev; dst->prev = src->prev; src->prev->next = dst; list_init(src); } /* move all elements from src to after the specified element */ static inline void list_move_after( struct list *dst, struct list *src ) { if (list_empty(src)) return; dst->next->prev = src->prev; src->prev->next = dst->next; dst->next = src->next; src->next->prev = dst; list_init(src); } /* move all elements from src to the head of dst */ static inline void list_move_head( struct list *dst, struct list *src ) { list_move_after( dst, src ); } /* move all elements from src to the tail of dst */ static inline void list_move_tail( struct list *dst, struct list *src ) { list_move_before( dst, src ); } /* move the slice of elements from begin to end inclusive to the head of dst */ static inline void list_move_slice_head( struct list *dst, struct list *begin, struct list *end ) { struct list *dst_next = dst->next; begin->prev->next = end->next; end->next->prev = begin->prev; dst->next = begin; dst_next->prev = end; begin->prev = dst; end->next = dst_next; } /* move the slice of elements from begin to end inclusive to the tail of dst */ static inline void list_move_slice_tail( struct list *dst, struct list *begin, struct list *end ) { struct list *dst_prev = dst->prev; begin->prev->next = end->next; end->next->prev = begin->prev; dst_prev->next = begin; dst->prev = end; begin->prev = dst_prev; end->next = dst; } /* iterate through the list */ #define LIST_FOR_EACH(cursor,list) \ for ((cursor) = (list)->next; (cursor) != (list); (cursor) = (cursor)->next) /* iterate through the list, with safety against removal */ #define LIST_FOR_EACH_SAFE(cursor, cursor2, list) \ for ((cursor) = (list)->next, (cursor2) = (cursor)->next; \ (cursor) != (list); \ (cursor) = (cursor2), (cursor2) = (cursor)->next) /* iterate through the list using a list entry */ #define LIST_FOR_EACH_ENTRY(elem, list, type, field) \ for ((elem) = LIST_ENTRY((list)->next, type, field); \ &(elem)->field != (list); \ (elem) = LIST_ENTRY((elem)->field.next, type, field)) /* iterate through the list using a list entry, with safety against removal */ #define LIST_FOR_EACH_ENTRY_SAFE(cursor, cursor2, list, type, field) \ for ((cursor) = LIST_ENTRY((list)->next, type, field), \ (cursor2) = LIST_ENTRY((cursor)->field.next, type, field); \ &(cursor)->field != (list); \ (cursor) = (cursor2), \ (cursor2) = LIST_ENTRY((cursor)->field.next, type, field)) /* iterate through the list in reverse order */ #define LIST_FOR_EACH_REV(cursor,list) \ for ((cursor) = (list)->prev; (cursor) != (list); (cursor) = (cursor)->prev) /* iterate through the list in reverse order, with safety against removal */ #define LIST_FOR_EACH_SAFE_REV(cursor, cursor2, list) \ for ((cursor) = (list)->prev, (cursor2) = (cursor)->prev; \ (cursor) != (list); \ (cursor) = (cursor2), (cursor2) = (cursor)->prev) /* iterate through the list in reverse order using a list entry */ #define LIST_FOR_EACH_ENTRY_REV(elem, list, type, field) \ for ((elem) = LIST_ENTRY((list)->prev, type, field); \ &(elem)->field != (list); \ (elem) = LIST_ENTRY((elem)->field.prev, type, field)) /* iterate through the list in reverse order using a list entry, with safety against removal */ #define LIST_FOR_EACH_ENTRY_SAFE_REV(cursor, cursor2, list, type, field) \ for ((cursor) = LIST_ENTRY((list)->prev, type, field), \ (cursor2) = LIST_ENTRY((cursor)->field.prev, type, field); \ &(cursor)->field != (list); \ (cursor) = (cursor2), \ (cursor2) = LIST_ENTRY((cursor)->field.prev, type, field)) /* macros for statically initialized lists */ #undef LIST_INIT #define LIST_INIT(list) { &(list), &(list) } /* get pointer to object containing list element */ #undef LIST_ENTRY #define LIST_ENTRY(elem, type, field) \ ((type *)((char *)(elem) - offsetof(type, field))) #endif /* __WINE_SERVER_LIST_H */