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  /*
   * Copyright (C) 2016 Kaspar Schleiser <kaspar@schleiser.de>
   *               2013 Freie Universitรคt Berlin
   *
   * This file is subject to the terms and conditions of the GNU Lesser
   * General Public License v2.1. See the file LICENSE in the top level
   * directory for more details.
   */
  
  /**
   * @addtogroup  core_util
   * @{
   *
   * @file
   * @brief       Circular linked list
   *
   * This file contains a circularly and singly linked list implementation.
   *
   * Its operations are:
   *
   * operation            | runtime | description
   * ---------------------|---------|---------------
   * clist_lpush()        | O(1)    | insert as head (leftmost node)
   * clist_lpop()         | O(1)    | remove and return head (leftmost node)
   * clist_rpush()        | O(1)    | append as tail (rightmost node)
   * clist_rpop()         | O(n)    | remove and return tail (rightmost node)
   * clist_find()         | O(n)    | find and return node
   * clist_find_before()  | O(n)    | find node return node pointing to node
   * clist_remove()       | O(n)    | remove and return node
   *
   * clist can be used as a traditional list, a queue (FIFO) and a stack (LIFO) using
   * fast O(1) operations.
   *
   * When used as traditional list, in order to traverse, make sure every element
   * is only visited once.
   *
   * Example:
   *
   *     void clist_traverse(clist_node_t *list) {
   *         clist_node_t *node = list->next;
   *         if (! node) {
   *             puts("list empty");
   *             return;
   *         }
   *
   *         do {
   *             node = node->next;
   *             // do something with node
   *         } while (node != list->next);
   *     }
   *
   * Or use the clist_foreach() helper function, e.g.,:
   *
   *    static int _print_node(clist_node_t *node)
   *    {
   *        printf("0x%08x ", (unsigned)node);
   *        return 0;
   *    }
   *
   *    [...]
   *    clist_foreach(&list, _print_node);
   *
   * To use clist as a queue, use clist_rpush() for adding elements and clist_lpop()
   * for removal. Using clist_lpush() and clist_rpop() is inefficient due to
   * clist_rpop()'s O(n) runtime.
   *
   * To use clist as stack, use clist_lpush()/clist_lpop().
   *
   * Implementation details:
   *
   * Each list is represented as a "clist_node_t". Its only member, the "next"
   * pointer, points to the last entry in the list, whose "next" pointer points to
   * the first entry.
   * Actual list objects should have a @c clist_node_t as member and then use
   * the container_of() macro in list operations.
   * See @ref thread_add_to_list() as example.
   *
   * @author      Kaspar Schleiser <kaspar@schleiser.de>
   */
  
  #ifndef CLIST_H
  #define CLIST_H
  
  #include <stddef.h>
  #include "list.h"
  
  #ifdef __cplusplus
   extern "C" {
  #endif
  
  /**
   * @brief List node structure
   *
   * Used as is as reference to a list.
   *
   */
  typedef list_node_t clist_node_t;
  
  /**
   * @brief Appends *new_node* at the end of *list
   *
   * @note Complexity: O(1)
   *
   * @param[in,out]   list        Pointer to clist
   * @param[in,out]   new_node    Node which gets inserted.
   *                              Must not be NULL.
   */
  static inline void clist_rpush(clist_node_t *list, clist_node_t *new_node)
  {
      if (list->next) {
          new_node->next = list->next->next;
          list->next->next = new_node;
      }
      else {
          new_node->next = new_node;
      }
      list->next = new_node;
  }
  
  
  /**
   * @brief Inserts *new_node* at the beginning of *list
   *
   * @note Complexity: O(1)
   *
   * @param[in,out]   list        Pointer to clist
   * @param[in,out]   new_node    Node which gets inserted.
   *                              Must not be NULL.
   */
  static inline void clist_lpush(clist_node_t *list, clist_node_t *new_node)
  {
      if (list->next) {
          new_node->next = list->next->next;
          list->next->next = new_node;
      }
      else {
          new_node->next = new_node;
          list->next = new_node;
      }
  }
  
  /**
   * @brief Removes and returns first element from list
   *
   * @note Complexity: O(1)
   *
   * @param[in,out]   list        Pointer to the *list* to remove first element
   *                              from.
   */
  static inline clist_node_t *clist_lpop(clist_node_t *list)
  {
      if (list->next) {
          clist_node_t *first = list->next->next;
          if (list->next == first) {
              list->next = NULL;
          }
          else {
              list->next->next = first->next;
          }
          return first;
      }
      else {
          return NULL;
      }
  }
  
  /**
   * @brief Advances the circle list.
   *
   * The result of this function is will be a list with
   * nodes shifted by one. So second list entry will be
   * first, first is last.
   *
   * [ A, B, C ] becomes [ B, C, A ]
   *
   * @note Complexity: O(1)
   *
   * @param[in,out]   list        The list to work upon.
   */
  static inline void clist_lpoprpush(clist_node_t *list)
  {
      if (list->next) {
          list->next = list->next->next;
      }
  }
  
  /**
   * @brief Returns first element in list
   *
   * @note: Complexity: O(1)
   *
   * @param[in]   list        The list to work upon.
   * @returns     first (leftmost) list element, or NULL if list is empty
   */
  static inline clist_node_t *clist_lpeek(const clist_node_t *list)
  {
      if (list->next) {
          return list->next->next;
      }
      return NULL;
  }
  
  /**
   * @brief Returns last element in list
   *
   * @note: Complexity: O(1)
   *
   * @param[in]   list        The list to work upon.
   * @returns     last (rightmost) list element, or NULL if list is empty
   */
  static inline clist_node_t *clist_rpeek(const clist_node_t *list)
  {
      return list->next;
  }
  
  /**
   * @brief Removes and returns last element from list
   *
   * @note Complexity: O(n) with n being the number of elements in the list.
   *
   * @param[in,out]   list        Pointer to the *list* to remove last element
   *                              from.
   */
  static inline clist_node_t *clist_rpop(clist_node_t *list)
  {
      if (list->next) {
          list_node_t *last = list->next;
          while (list->next->next != last) {
              clist_lpoprpush(list);
          }
          return clist_lpop(list);
      }
      else {
          return NULL;
      }
  }
  
  /**
   * @brief Finds node and returns its predecessor
   *
   * @note Complexity: O(n)
   *
   * @param[in]       list    pointer to clist
   * @param[in,out]   node    Node to look for
   *                          Must not be NULL.
   *
   * @returns         predecessor of node if found
   * @returns         NULL if node is not a list member
   */
  static inline clist_node_t *clist_find_before(const clist_node_t *list, const clist_node_t *node)
  {
      clist_node_t *pos = list->next;
      if (!pos) {
          return NULL;
      }
      do {
          pos = pos->next;
          if (pos->next == node) {
              return pos;
          }
      } while (pos != list->next);
  
      return NULL;
  }
  
  /**
   * @brief Finds and returns node
   *
   * @note Complexity: O(n)
   *
   * @param[in]       list    pointer to clist
   * @param[in,out]   node    Node to look for
   *                          Must not be NULL.
   *
   * @returns         node if found
   * @returns         NULL if node is not a list member
   */
  static inline clist_node_t *clist_find(const clist_node_t *list, const clist_node_t *node)
  {
      clist_node_t *tmp = clist_find_before(list, node);
      if (tmp) {
          return tmp->next;
      }
      else {
          return NULL;
      }
  }
  
  /**
   * @brief Finds and removes node
   *
   * @note Complexity: O(n)
   *
   * @param[in]       list    pointer to clist
   * @param[in,out]   node    Node to remove for
   *                          Must not be NULL.
   *
   * @returns         node if found and removed
   * @returns         NULL if node is not a list member
   */
  static inline clist_node_t *clist_remove(clist_node_t *list, clist_node_t *node)
  {
      if (list->next) {
          if (list->next->next == node) {
              return clist_lpop(list);
          }
          else {
              clist_node_t *tmp = clist_find_before(list, node);
              if (tmp) {
                  tmp->next = tmp->next->next;
                  if (node == list->next) {
                      list->next = tmp;
                  }
                  return node;
              }
          }
      }
  
      return NULL;
  }
  
  /**
   * @brief Traverse clist, call function for each member
   *
   * If @p func returns non-zero, traversal will be aborted like when calling
   * break within a for loop.
   *
   * @param[in]       list        List to traverse.
   * @param[in]       func        Function to call for each member.
   */
  static inline void clist_foreach(clist_node_t *list, int(*func)(clist_node_t *))
  {
      clist_node_t *node = list->next;
      if (! node) {
          return;
      }
      do {
          node = node->next;
          if (func(node)) {
              return;
          }
      } while (node != list->next);
  }
  
  #ifdef __cplusplus
  }
  #endif
  
  #endif /* CLIST_H */
  /** @} */