#ifndef PTR_LIST_H #define PTR_LIST_H #include /* * Generic pointer list manipulation code. * * (C) Copyright Linus Torvalds 2003-2005 */ /* Silly type-safety check ;) */ #define DECLARE_PTR_LIST(listname,type) struct listname { type *list[1]; } #define CHECK_TYPE(head,ptr) (void)(&(ptr) == &(head)->list[0]) #define TYPEOF(head) __typeof__(&(head)->list[0]) #define VRFY_PTR_LIST(head) (void)(sizeof((head)->list[0])) /* * The "unnecessary" statement expression is there to shut up a totally * bogus gcc warning about unused expressions, brought on by the fact * that we cast the result to the proper type. */ #define MKTYPE(head,expr) ({ (TYPEOF(head))(expr); }) #define LIST_NODE_NR (29) struct ptr_list { int nr; struct ptr_list *prev; struct ptr_list *next; void *list[LIST_NODE_NR]; }; #define ptr_list_empty(x) ((x) == NULL) void * undo_ptr_list_last(struct ptr_list **head); void * delete_ptr_list_last(struct ptr_list **head); int delete_ptr_list_entry(struct ptr_list **, void *, int); int replace_ptr_list_entry(struct ptr_list **, void *old, void *new, int); extern void sort_list(struct ptr_list **, int (*)(const void *, const void *)); extern void **__add_ptr_list(struct ptr_list **, void *, unsigned long); extern void concat_ptr_list(struct ptr_list *a, struct ptr_list **b); extern void __free_ptr_list(struct ptr_list **); extern int ptr_list_size(struct ptr_list *); extern int linearize_ptr_list(struct ptr_list *, void **, int); /* * Hey, who said that you can't do overloading in C? * * You just have to be creative, and use some gcc * extensions.. */ #define add_ptr_list_tag(list,entry,tag) \ MKTYPE(*(list), (CHECK_TYPE(*(list),(entry)),__add_ptr_list((struct ptr_list **)(list), (entry), (tag)))) #define add_ptr_list_notag(list,entry) \ MKTYPE(*(list), (CHECK_TYPE(*(list),(entry)),__add_ptr_list((struct ptr_list **)(list), \ (void *)((unsigned long)(entry) & ~3UL), \ (unsigned long)(entry) & 3))) #define add_ptr_list(list,entry) \ add_ptr_list_tag(list,entry,0) #define free_ptr_list(list) \ do { VRFY_PTR_LIST(*(list)); __free_ptr_list((struct ptr_list **)(list)); } while (0) #define PTR_ENTRY_NOTAG(h,i) ((h)->list[i]) #define PTR_ENTRY(h,i) (void *)(~3UL & (unsigned long)PTR_ENTRY_NOTAG(h,i)) static inline void *first_ptr_list(struct ptr_list *list) { if (!list) return NULL; return PTR_ENTRY(list, 0); } static inline void *last_ptr_list(struct ptr_list *list) { if (!list) return NULL; list = list->prev; return PTR_ENTRY(list, list->nr-1); } #define DO_PREPARE(head, ptr, __head, __list, __nr, PTR_ENTRY) \ do { \ struct ptr_list *__head = (struct ptr_list *) (head); \ struct ptr_list *__list = __head; \ int __nr = 0; \ CHECK_TYPE(head,ptr); \ if (__head) ptr = PTR_ENTRY(__head, 0); \ else ptr = NULL #define DO_NEXT(ptr, __head, __list, __nr, PTR_ENTRY) \ if (ptr) { \ if (++__nr < __list->nr) { \ ptr = PTR_ENTRY(__list,__nr); \ } else { \ __list = __list->next; \ ptr = NULL; \ if (__list != __head) { \ __nr = 0; \ ptr = PTR_ENTRY(__list,0); \ } \ } \ } #define DO_RESET(ptr, __head, __list, __nr, PTR_ENTRY) \ do { \ __nr = 0; \ __list = __head; \ if (__head) ptr = PTR_ENTRY(__head, 0); \ } while (0) #define DO_FINISH(ptr, __head, __list, __nr) \ (void)(__nr); /* Sanity-check nesting */ \ } while (0) #define PREPARE_PTR_LIST(head, ptr) \ DO_PREPARE(head, ptr, __head##ptr, __list##ptr, __nr##ptr, PTR_ENTRY) #define NEXT_PTR_LIST(ptr) \ DO_NEXT(ptr, __head##ptr, __list##ptr, __nr##ptr, PTR_ENTRY) #define RESET_PTR_LIST(ptr) \ DO_RESET(ptr, __head##ptr, __list##ptr, __nr##ptr, PTR_ENTRY) #define FINISH_PTR_LIST(ptr) \ DO_FINISH(ptr, __head##ptr, __list##ptr, __nr##ptr) #define DO_FOR_EACH(head, ptr, __head, __list, __nr, PTR_ENTRY) do { \ struct ptr_list *__head = (struct ptr_list *) (head); \ struct ptr_list *__list = __head; \ CHECK_TYPE(head,ptr); \ if (__head) { \ do { int __nr; \ for (__nr = 0; __nr < __list->nr; __nr++) { \ do { \ ptr = PTR_ENTRY(__list,__nr); \ do { #define DO_END_FOR_EACH(ptr, __head, __list, __nr) \ } while (0); \ } while (0); \ } \ } while ((__list = __list->next) != __head); \ } \ } while (0) #define DO_FOR_EACH_REVERSE(head, ptr, __head, __list, __nr, PTR_ENTRY) do { \ struct ptr_list *__head = (struct ptr_list *) (head); \ struct ptr_list *__list = __head; \ CHECK_TYPE(head,ptr); \ if (__head) { \ do { int __nr; \ __list = __list->prev; \ __nr = __list->nr; \ while (--__nr >= 0) { \ do { \ ptr = PTR_ENTRY(__list,__nr); \ do { #define DO_END_FOR_EACH_REVERSE(ptr, __head, __list, __nr) \ } while (0); \ } while (0); \ } \ } while (__list != __head); \ } \ } while (0) #define DO_REVERSE(ptr, __head, __list, __nr, new, __newhead, \ __newlist, __newnr, PTR_ENTRY) do { \ struct ptr_list *__newhead = __head; \ struct ptr_list *__newlist = __list; \ int __newnr = __nr; \ new = ptr; \ goto __inside##new; \ if (1) { \ do { \ __newlist = __newlist->prev; \ __newnr = __newlist->nr; \ __inside##new: \ while (--__newnr >= 0) { \ do { \ new = PTR_ENTRY(__newlist,__newnr); \ do { #define RECURSE_PTR_REVERSE(ptr, new) \ DO_REVERSE(ptr, __head##ptr, __list##ptr, __nr##ptr, \ new, __head##new, __list##new, __nr##new, PTR_ENTRY) #define DO_THIS_ADDRESS(ptr, __head, __list, __nr) \ ((__typeof__(&(ptr))) (__list->list + __nr)) #define FOR_EACH_PTR(head, ptr) \ DO_FOR_EACH(head, ptr, __head##ptr, __list##ptr, __nr##ptr, PTR_ENTRY) #define END_FOR_EACH_PTR(ptr) \ DO_END_FOR_EACH(ptr, __head##ptr, __list##ptr, __nr##ptr) #define FOR_EACH_PTR_NOTAG(head, ptr) \ DO_FOR_EACH(head, ptr, __head##ptr, __list##ptr, __nr##ptr, PTR_ENTRY_NOTAG) #define END_FOR_EACH_PTR_NOTAG(ptr) END_FOR_EACH_PTR(ptr) #define FOR_EACH_PTR_REVERSE(head, ptr) \ DO_FOR_EACH_REVERSE(head, ptr, __head##ptr, __list##ptr, __nr##ptr, PTR_ENTRY) #define END_FOR_EACH_PTR_REVERSE(ptr) \ DO_END_FOR_EACH_REVERSE(ptr, __head##ptr, __list##ptr, __nr##ptr) #define FOR_EACH_PTR_REVERSE_NOTAG(head, ptr) \ DO_FOR_EACH_REVERSE(head, ptr, __head##ptr, __list##ptr, __nr##ptr, PTR_ENTRY_NOTAG) #define END_FOR_EACH_PTR_REVERSE_NOTAG(ptr) END_FOR_EACH_PTR_REVERSE(ptr) #define THIS_ADDRESS(ptr) \ DO_THIS_ADDRESS(ptr, __head##ptr, __list##ptr, __nr##ptr) extern void split_ptr_list_head(struct ptr_list *); #define DO_SPLIT(ptr, __head, __list, __nr) do { \ split_ptr_list_head(__list); \ if (__nr >= __list->nr) { \ __nr -= __list->nr; \ __list = __list->next; \ }; \ } while (0) #define DO_INSERT_CURRENT(new, ptr, __head, __list, __nr) do { \ void **__this, **__last; \ if (__list->nr == LIST_NODE_NR) \ DO_SPLIT(ptr, __head, __list, __nr); \ __this = __list->list + __nr; \ __last = __list->list + __list->nr - 1; \ while (__last >= __this) { \ __last[1] = __last[0]; \ __last--; \ } \ *__this = (new); \ __list->nr++; \ } while (0) #define INSERT_CURRENT(new, ptr) \ DO_INSERT_CURRENT(new, ptr, __head##ptr, __list##ptr, __nr##ptr) #define DO_DELETE_CURRENT(ptr, __head, __list, __nr) do { \ void **__this = __list->list + __nr; \ void **__last = __list->list + __list->nr - 1; \ while (__this < __last) { \ __this[0] = __this[1]; \ __this++; \ } \ *__this = (void *)0xf0f0f0f0; \ __list->nr--; __nr--; \ } while (0) #define DELETE_CURRENT_PTR(ptr) \ DO_DELETE_CURRENT(ptr, __head##ptr, __list##ptr, __nr##ptr) #define REPLACE_CURRENT_PTR(ptr, new_ptr) \ do { *THIS_ADDRESS(ptr) = (new_ptr); } while (0) extern void pack_ptr_list(struct ptr_list **); #define PACK_PTR_LIST(x) pack_ptr_list((struct ptr_list **)(x)) static inline void update_tag(void *p, unsigned long tag) { unsigned long *ptr = p; *ptr = tag | (~3UL & *ptr); } static inline void *tag_ptr(void *ptr, unsigned long tag) { return (void *)(tag | (unsigned long)ptr); } #define CURRENT_TAG(ptr) (3 & (unsigned long)*THIS_ADDRESS(ptr)) #define TAG_CURRENT(ptr,val) update_tag(THIS_ADDRESS(ptr),val) #endif /* PTR_LIST_H */