/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2014 by Michael Sevakis * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #include #include "linked_list.h" /** (L)inked (L)ist **/ /** * Helper to find the node previous to 'find' * * returns: NULL if 'find' is the first node * last node if the 'find' isn't found in the list */ static struct ll_node * ll_search_prev(struct ll_head *list, struct ll_node *find) { struct ll_node *prev = NULL; struct ll_node *node = list->head; while (node != NULL && node != find) { prev = node; node = node->next; } return prev; } /** * Initializes the singly-linked list */ void ll_init(struct ll_head *list) { list->head = NULL; list->tail = NULL; } /** * Adds a node to s singly-linked list using "insert next" */ void ll_insert_next(struct ll_head *list, struct ll_node *node, struct ll_node *newnode) { if (node == NULL) { node = list->head; newnode->next = node; list->head = newnode; if (node == NULL) list->tail = node; } else { struct ll_node *next = node->next; newnode->next = next; node->next = newnode; if (next == NULL) list->tail = newnode; } } /** * Adds a node to a singly-linked list using "insert first" */ void ll_insert_first(struct ll_head *list, struct ll_node *node) { struct ll_node *head = list->head; node->next = head; list->head = node; if (head == NULL) list->tail = node; } /** * Adds a node to a singly-linked list using "insert last" */ void ll_insert_last(struct ll_head *list, struct ll_node *node) { struct ll_node *tail = list->tail; node->next = NULL; list->tail = node; if (tail == NULL) list->head = node; else tail->next = node; } /** * Removes the node after "node"; if there is none, nothing is changed */ void ll_remove_next(struct ll_head *list, struct ll_node *node) { if (node == NULL) { node = list->head->next; list->head = node; if (node == NULL) list->tail = NULL; } else { struct ll_node *next = node->next; if (next != NULL) { next = next->next; node->next = next; if (!next) list->tail = node; } } } /** * Removes the first node in the list */ void ll_remove_first(struct ll_head *list) { struct ll_node *node = list->head->next; list->head = node; if (node == NULL) list->tail = NULL; } /** * Removes the node from the list */ void ll_remove(struct ll_head *list, struct ll_node *node) { ll_remove_next(list, ll_search_prev(list, node)); } /** (L)inked (L)ist (D)ouble **/ /** * Initializes the doubly-linked list */ void lld_init(struct lld_head *list) { list->head = NULL; list->tail = NULL; /* tail could be stored in first item's prev pointer but this simplifies the routines and maintains the non-circularity */ } /** * Adds a node to a doubly-linked list using "insert first" */ void lld_insert_first(struct lld_head *list, struct lld_node *node) { struct lld_node *head = list->head; list->head = node; if (head == NULL) list->tail = node; else head->prev = node; node->next = head; node->prev = NULL; } /** * Adds a node to a doubly-linked list using "insert last" */ void lld_insert_last(struct lld_head *list, struct lld_node *node) { struct lld_node *tail = list->tail; list->tail = node; if (tail == NULL) list->head = node; else tail->next = node; node->next = NULL; node->prev = tail; } /** * Removes a node from a doubly-linked list */ void lld_remove(struct lld_head *list, struct lld_node *node) { struct lld_node *next = node->next; struct lld_node *prev = node->prev; if (node == list->head) list->head = next; if (node == list->tail) list->tail = prev; if (prev != NULL) prev->next = next; if (next != NULL) next->prev = prev; } /** (L)inked (L)ist (D)ouble (C)ircular **/ /** * Helper that inserts a node into a doubly-link circular list; does not * affect list->head, just returns its state */ static inline struct lldc_node * lldc_insert(struct lldc_head *list, struct lldc_node *node) { struct lldc_node *head = list->head; if (head == NULL) { node->prev = node; node->next = node; } else { node->prev = head->prev; node->next = head; head->prev->next = node; head->prev = node; } return head; } /** * Initializes the doubly-linked circular list */ void lldc_init(struct lldc_head *list) { list->head = NULL; } /** * Adds a node to a doubly-linked circular list using "insert first" */ void lldc_insert_first(struct lldc_head *list, struct lldc_node *node) { lldc_insert(list, node); list->head = node; } /** * Adds a node to a doubly-linked circular list using "insert last" */ void lldc_insert_last(struct lldc_head *list, struct lldc_node *node) { if (lldc_insert(list, node) == NULL) list->head = node; } /** * Removes a node from a doubly-linked circular list */ void lldc_remove(struct lldc_head *list, struct lldc_node *node) { struct lldc_node *next = node->next; if (node == list->head) { if (node == next) { list->head = NULL; return; } list->head = next; } struct lldc_node *prev = node->prev; next->prev = prev; prev->next = next; }