/* * Copyright (c) 2013-2015 Wind River Systems, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * @file * @brief Doubly-linked list inline implementation * * Doubly-linked list implementation. * * The lists are expected to be initialized such that both the head and tail * pointers point to the list itself. Initializing the lists in such a fashion * simplifies the adding and removing of nodes to/from the list. */ #ifndef _misc_dlist__h_ #define _misc_dlist__h_ #include #ifdef __cplusplus extern "C" { #endif struct _dnode { union { struct _dnode *head; /* ptr to head of list (sys_dlist_t) */ struct _dnode *next; /* ptr to next node (sys_dnode_t) */ }; union { struct _dnode *tail; /* ptr to tail of list (sys_dlist_t) */ struct _dnode *prev; /* ptr to previous node (sys_dnode_t) */ }; }; typedef struct _dnode sys_dlist_t; typedef struct _dnode sys_dnode_t; /** * @brief Provide the primitive to iterate on a list * Note: the loop is unsafe and thus __dn should not be removed * * User _MUST_ add the loop statement curly braces enclosing its own code: * * SYS_DLIST_FOR_EACH_NODE(l, n) { * * } * * @param __dl A pointer on a sys_list_t to iterate on * @param __dn A sys_dnode_t pointer to peek each node of the list */ #define SYS_DLIST_FOR_EACH_NODE(__dl, __dn) \ for (__dn = sys_dlist_peek_head(__dl); __dn; \ __dn = sys_dlist_peek_next(__dl, __dn)) /** * @brief Provide the primitive to safely iterate on a list * Note: __dn can be removed, it will not break the loop. * * User _MUST_ add the loop statement curly braces enclosing its own code: * * SYS_DLIST_FOR_EACH_NODE_SAFE(l, n, s) { * * } * * @param __dl A pointer on a sys_list_t to iterate on * @param __dn A sys_dnode_t pointer to peek each node of the list * @param __dns A sys_dnode_t pointer for the loop to run safely */ #define SYS_DLIST_FOR_EACH_NODE_SAFE(__dl, __dn, __dns) \ for (__dn = sys_dlist_peek_head(__dl), \ __dns = sys_dlist_peek_next(__dl, __dn); \ __dn; __dn = __dns, \ __dns = sys_dlist_peek_next(__dl, __dn)) /** * @brief initialize list * * @param list the doubly-linked list * * @return N/A */ static inline void sys_dlist_init(sys_dlist_t *list) { list->head = (sys_dnode_t *)list; list->tail = (sys_dnode_t *)list; } #define SYS_DLIST_STATIC_INIT(ptr_to_list) {{(ptr_to_list)}, {(ptr_to_list)}} /** * @brief check if a node is the list's head * * @param list the doubly-linked list to operate on * @param node the node to check * * @return 1 if node is the head, 0 otherwise */ static inline int sys_dlist_is_head(sys_dlist_t *list, sys_dnode_t *node) { return list->head == node; } /** * @brief check if a node is the list's tail * * @param list the doubly-linked list to operate on * @param node the node to check * * @return 1 if node is the tail, 0 otherwise */ static inline int sys_dlist_is_tail(sys_dlist_t *list, sys_dnode_t *node) { return list->tail == node; } /** * @brief check if the list is empty * * @param list the doubly-linked list to operate on * * @return 1 if empty, 0 otherwise */ static inline int sys_dlist_is_empty(sys_dlist_t *list) { return list->head == list; } /** * @brief get a reference to the head item in the list * * @param list the doubly-linked list to operate on * * @return a pointer to the head element, NULL if list is empty */ static inline sys_dnode_t *sys_dlist_peek_head(sys_dlist_t *list) { return sys_dlist_is_empty(list) ? NULL : list->head; } /** * @brief get a reference to the head item in the list * * The list must be known to be non-empty. * * @param list the doubly-linked list to operate on * * @return a pointer to the head element */ static inline sys_dnode_t *sys_dlist_peek_head_not_empty(sys_dlist_t *list) { return list->head; } /** * @brief get a reference to the next item in the list * * @param list the doubly-linked list to operate on * @param node the node from which to get the next element in the list * * @return a pointer to the next element from a node, NULL if node is the tail * or NULL (when node comes from reading the head of an empty list). */ static inline sys_dnode_t *sys_dlist_peek_next(sys_dlist_t *list, sys_dnode_t *node) { return (!node || node == list->tail) ? NULL : node->next; } /** * @brief add node to tail of list * * @param list the doubly-linked list to operate on * @param node the element to append * * @return N/A */ static inline void sys_dlist_append(sys_dlist_t *list, sys_dnode_t *node) { node->next = list; node->prev = list->tail; list->tail->next = node; list->tail = node; } /** * @brief add node to head of list * * @param list the doubly-linked list to operate on * @param node the element to append * * @return N/A */ static inline void sys_dlist_prepend(sys_dlist_t *list, sys_dnode_t *node) { node->next = list->head; node->prev = list; list->head->prev = node; list->head = node; } /** * @brief insert node after a node * * Insert a node after a specified node in a list. * * @param list the doubly-linked list to operate on * @param insert_point the insert point in the list: if NULL, insert at head * @param node the element to append * * @return N/A */ static inline void sys_dlist_insert_after(sys_dlist_t *list, sys_dnode_t *insert_point, sys_dnode_t *node) { if (!insert_point) { sys_dlist_prepend(list, node); } else { node->next = insert_point->next; node->prev = insert_point; insert_point->next->prev = node; insert_point->next = node; } } /** * @brief insert node before a node * * Insert a node before a specified node in a list. * * @param list the doubly-linked list to operate on * @param insert_point the insert point in the list: if NULL, insert at tail * @param node the element to insert * * @return N/A */ static inline void sys_dlist_insert_before(sys_dlist_t *list, sys_dnode_t *insert_point, sys_dnode_t *node) { if (!insert_point) { sys_dlist_append(list, node); } else { node->prev = insert_point->prev; node->next = insert_point; insert_point->prev->next = node; insert_point->prev = node; } } /** * @brief insert node at position * * Insert a node in a location depending on a external condition. The cond() * function checks if the node is to be inserted _before_ the current node * against which it is checked. * * @param list the doubly-linked list to operate on * @param node the element to insert * @param cond a function that determines if the current node is the correct * insert point * @param data parameter to cond() * * @return N/A */ static inline void sys_dlist_insert_at(sys_dlist_t *list, sys_dnode_t *node, int (*cond)(sys_dnode_t *, void *), void *data) { if (sys_dlist_is_empty(list)) { sys_dlist_append(list, node); } else { sys_dnode_t *pos = sys_dlist_peek_head(list); while (pos && !cond(pos, data)) { pos = sys_dlist_peek_next(list, pos); } sys_dlist_insert_before(list, pos, node); } } /** * @brief remove a specific node from a list * * The list is implicit from the node. The node must be part of a list. * * @param node the node to remove * * @return N/A */ static inline void sys_dlist_remove(sys_dnode_t *node) { node->prev->next = node->next; node->next->prev = node->prev; } /** * @brief get the first node in a list * * @param list the doubly-linked list to operate on * * @return the first node in the list, NULL if list is empty */ static inline sys_dnode_t *sys_dlist_get(sys_dlist_t *list) { sys_dnode_t *node; if (sys_dlist_is_empty(list)) { return NULL; } node = list->head; sys_dlist_remove(node); return node; } #ifdef __cplusplus } #endif #endif /* _misc_dlist__h_ */