// Copyright © Tavian Barnes // SPDX-License-Identifier: 0BSD /** * Intrusive linked lists. * * Singly-linked lists are declared like this: * * struct item { * struct item *next; * }; * * struct list { * struct item *head; * struct item **tail; * }; * * The SLIST_*() macros manipulate singly-linked lists. * * struct list list; * SLIST_INIT(&list); * * struct item item; * SLIST_APPEND(&list, &item); * * Doubly linked lists are similar: * * struct item { * struct item *next; * struct item *prev; * }; * * struct list { * struct item *head; * struct item *tail; * }; * * struct list list; * LIST_INIT(&list); * * struct item item; * LIST_APPEND(&list, &item); * * Items can be on multiple lists at once: * * struct item { * struct { * struct item *next; * } chain; * * struct { * struct item *next; * struct item *prev; * } lru; * }; * * struct items { * struct { * struct item *head; * struct item **tail; * } queue; * * struct { * struct item *head; * struct item *tail; * } cache; * }; * * struct items items; * SLIST_INIT(&items.queue); * LIST_INIT(&items.cache); * * struct item item; * SLIST_APPEND(&items.queue, &item, chain); * LIST_APPEND(&items.cache, &item, lru); */ #ifndef BFS_LIST_H #define BFS_LIST_H #include #include /** * Initialize a singly-linked list. * * @param list * The list to initialize. * * --- * * Like many macros in this file, this macro delegates the bulk of its work to * some helper macros. We explicitly parenthesize (list) here so the helpers * don't have to. */ #define SLIST_INIT(list) \ LIST_BLOCK_(SLIST_INIT_((list))) #define SLIST_INIT_(list) \ list->head = NULL; \ list->tail = &list->head; /** * Wraps a group of statements in a block. */ #define LIST_BLOCK_(block) do { block } while (0) /** * Insert an item into a singly-linked list. * * @param list * The list to remove from. * @param cursor * A pointer to the item to insert after, e.g. &list->head or list->tail. * @param item * The item to insert. * @param node (optional) * If specified, use item->node.next rather than item->next. * * --- * * We play some tricks with variadic macros to handle the optional parameter: * * SLIST_INSERT(list, cursor, item) => { * item->next = *cursor; * *cursor = item; * list->tail = item->next ? list->tail : &item->next; * } * * SLIST_INSERT(list, cursor, item, node) => { * item->node.next = *cursor; * *cursor = item; * list->tail = item->node.next ? list->tail : &item->node.next; * } * * The first trick is that * * #define SLIST_INSERT(list, item, cursor, ...) * * won't work because both commas are required (until C23; see N3033). As a * workaround, we dispatch to another macro and add a trailing comma. * * SLIST_INSERT(list, cursor, item) => SLIST_INSERT_(list, cursor, item, ) * SLIST_INSERT(list, cursor, item, node) => SLIST_INSERT_(list, cursor, item, node, ) */ #define SLIST_INSERT(list, cursor, ...) SLIST_INSERT_(list, cursor, __VA_ARGS__, ) /** * Now we need a way to generate either ->next or ->node.next depending on * whether the node parameter was passed. The approach is based on * * #define FOO(...) BAR(__VA_ARGS__, 1, 2, ) * #define BAR(x, y, z, ...) z * * FOO(a) => 2 * FOO(a, b) => 1 * * The LIST_NEXT_() macro uses this technique: * * LIST_NEXT_() => LIST_NODE_(next, ) * LIST_NEXT_(node, ) => LIST_NODE_(next, node, ) */ #define LIST_NEXT_(...) LIST_NODE_(next, __VA_ARGS__) /** * LIST_NODE_() dispatches to yet another macro: * * LIST_NODE_(next, ) => LIST_NODE__(next, , . , , ) * LIST_NODE_(next, node, ) => LIST_NODE__(next, node, , . , , ) */ #define LIST_NODE_(dir, ...) LIST_NODE__(dir, __VA_ARGS__, . , , ) /** * And finally, LIST_NODE__() adds the node and the dot if necessary. * * dir node ignored dot * v v v v * LIST_NODE__(next, , . , , ) => next * LIST_NODE__(next, node, , . , , ) => node . next * ^ ^ ^ ^ * dir node ignored dot */ #define LIST_NODE__(dir, node, ignored, dot, ...) node dot dir /** * SLIST_INSERT_() uses LIST_NEXT_() to generate the right name for the list * node, and finally delegates to the actual implementation. */ #define SLIST_INSERT_(list, cursor, item, ...) \ LIST_BLOCK_(SLIST_INSERT__((list), (cursor), (item), LIST_NEXT_(__VA_ARGS__))) #define SLIST_INSERT__(list, cursor, item, next) \ item->next = *cursor; \ *cursor = item; \ list->tail = item->next ? list->tail : &item->next; /** * Add an item to the tail of a singly-linked list. * * @param list * The list to modify. * @param item * The item to append. * @param node (optional) * If specified, use item->node.next rather than item->next. */ #define SLIST_APPEND(list, ...) SLIST_APPEND_(list, __VA_ARGS__, ) #define SLIST_APPEND_(list, item, ...) \ SLIST_INSERT_(list, (list)->tail, item, __VA_ARGS__) /** * Add an item to the head of a singly-linked list. * * @param list * The list to modify. * @param item * The item to prepend. * @param node (optional) * If specified, use item->node.next rather than item->next. */ #define SLIST_PREPEND(list, ...) SLIST_PREPEND_(list, __VA_ARGS__, ) #define SLIST_PREPEND_(list, item, ...) \ SLIST_INSERT_(list, &(list)->head, item, __VA_ARGS__) /** * Add an entire singly-linked list to the tail of another. * * @param dest * The destination list. * @param src * The source list. */ #define SLIST_EXTEND(dest, src) \ LIST_BLOCK_(SLIST_EXTEND_((dest), (src))) #define SLIST_EXTEND_(dest, src) \ if (src->head) { \ *dest->tail = src->head; \ dest->tail = src->tail; \ SLIST_INIT(src); \ } /** * Remove an item from a singly-linked list. * * @param list * The list to remove from. * @param cursor * A pointer to the item to remove, either &list->head or &prev->next. * @param node (optional) * If specified, use item->node.next rather than item->next. * @return * The removed item. */ #define SLIST_REMOVE(list, ...) SLIST_REMOVE_(list, __VA_ARGS__, ) #define SLIST_REMOVE_(list, cursor, ...) \ SLIST_REMOVE__((list), (cursor), LIST_NEXT_(__VA_ARGS__)) #define SLIST_REMOVE__(list, cursor, next) \ (list->tail = (*cursor)->next ? list->tail : cursor, \ slist_remove_impl(*cursor, cursor, &(*cursor)->next, list->tail, sizeof(*cursor))) // Helper for SLIST_REMOVE() static inline void *slist_remove_impl(void *ret, void *cursor, void *next, void *tail, size_t size) { // ret = *cursor; // *cursor = ret->next; memcpy(cursor, next, size); // ret->next = *list->tail; (NULL) memcpy(next, tail, size); return ret; } /** * Pop the head off a singly-linked list. * * @param list * The list to pop from. * @param node (optional) * If specified, use head->node.next rather than head->next. */ #define SLIST_POP(...) SLIST_POP_(__VA_ARGS__, ) #define SLIST_POP_(list, ...) \ SLIST_REMOVE_(list, &(list)->head, __VA_ARGS__) /** * Initialize a doubly-linked list. * * @param list * The list to initialize. */ #define LIST_INIT(list) \ LIST_BLOCK_(LIST_INIT_((list))) #define LIST_INIT_(list) \ list->head = list->tail = NULL; /** * LIST_PREV_() => prev * LIST_PREV_(node, ) => node.prev */ #define LIST_PREV_(...) LIST_NODE_(prev, __VA_ARGS__) /** * Add an item to the tail of a doubly-linked list. * * @param list * The list to modify. * @param item * The item to append. * @param node (optional) * If specified, use item->node.{prev,next} rather than item->{prev,next}. */ #define LIST_APPEND(list, ...) LIST_INSERT(list, (list)->tail, __VA_ARGS__) /** * Add an item to the head of a doubly-linked list. * * @param list * The list to modify. * @param item * The item to prepend. * @param node (optional) * If specified, use item->node.{prev,next} rather than item->{prev,next}. */ #define LIST_PREPEND(list, ...) LIST_INSERT(list, NULL, __VA_ARGS__) /** * Insert into a doubly-linked list after the given cursor. * * @param list * The list to initialize. * @param cursor * Insert after this element. * @param item * The item to insert. * @param node (optional) * If specified, use item->node.{prev,next} rather than item->{prev,next}. */ #define LIST_INSERT(list, cursor, ...) LIST_INSERT_(list, cursor, __VA_ARGS__, ) #define LIST_INSERT_(list, cursor, item, ...) \ LIST_BLOCK_(LIST_INSERT__((list), (cursor), (item), LIST_PREV_(__VA_ARGS__), LIST_NEXT_(__VA_ARGS__))) #define LIST_INSERT__(list, cursor, item, prev, next) \ item->prev = cursor; \ item->next = cursor ? cursor->next : list->head; \ *(item->prev ? &item->prev->next : &list->head) = item; \ *(item->next ? &item->next->prev : &list->tail) = item; /** * Remove an item from a doubly-linked list. * * @param list * The list to modify. * @param item * The item to remove. * @param node (optional) * If specified, use item->node.{prev,next} rather than item->{prev,next}. */ #define LIST_REMOVE(list, ...) LIST_REMOVE_(list, __VA_ARGS__, ) #define LIST_REMOVE_(list, item, ...) \ LIST_BLOCK_(LIST_REMOVE__((list), (item), LIST_PREV_(__VA_ARGS__), LIST_NEXT_(__VA_ARGS__))) #define LIST_REMOVE__(list, item, prev, next) \ *(item->prev ? &item->prev->next : &list->head) = item->next; \ *(item->next ? &item->next->prev : &list->tail) = item->prev; \ item->prev = item->next = NULL; /** * Check if an item is attached to a doubly-linked list. * * @param list * The list to check. * @param item * The item to check. * @param node (optional) * If specified, use item->node.{prev,next} rather than item->{prev,next}. * @return * Whether the item is attached to the list. */ #define LIST_ATTACHED(list, ...) LIST_ATTACHED_(list, __VA_ARGS__, ) #define LIST_ATTACHED_(list, item, ...) \ LIST_ATTACHED__((list), (item), LIST_PREV_(__VA_ARGS__), LIST_NEXT_(__VA_ARGS__)) #define LIST_ATTACHED__(list, item, prev, next) \ (item->prev || item->next || list->head == item || list->tail == item) #endif // BFS_LIST_H