使用列表
我认为最好的方式,成为熟悉的核心列表功能是看一些简单的例子,素材去更好的理解链表。
以下是一个样例。包括创建。加入。删除和遍历链表。
<span style="font-size:18px;">#include <stdio.h> #include <stdlib.h> #include "list.h" struct kool_list{ int to; struct list_head list; int from; };//自己定义欲链接的数据额结构,并包括双向链表结构 int main(int argc, char **argv){ struct kool_list *tmp; struct list_head *pos, *q; unsigned int i; struct kool_list mylist; INIT_LIST_HEAD(&mylist.list);//初始化一个链表表头 /* 向<span style="font-family: Arial, Helvetica, sans-serif;">mylist中加入元素</span><span style="font-family: Arial, Helvetica, sans-serif;"> */</span> for(i=5; i!=0; --i){ tmp= (struct kool_list *)malloc(sizeof(struct kool_list)); /* INIT_LIST_HEAD(&tmp->list); * * this initializes a dynamically allocated list_head. we * you can omit this if subsequent call is add_list() or * anything along that line because the next, prev * fields get initialized in those functions. */ printf("enter to and from:"); scanf("%d %d", &tmp->to, &tmp->from); /* add the new item 'tmp' to the list of items in mylist */ list_add(&(tmp->list), &(mylist.list));//项链表中加入新的元素节点,tmp中的list /* you can also use list_add_tail() which adds new items to * the tail end of the list */ } printf(" "); /* now you have a circularly linked list of items of type struct kool_list. * now let us go through the items and print them out */ /* list_for_each() is a macro for a for loop. * first parameter is used as the counter in for loop. in other words, inside the * loop it points to the current item's list_head. * second parameter is the pointer to the list. it is not manipulated by the macro. */ printf("traversing the list using list_for_each() "); list_for_each(pos, &mylist.list){//遍历链表,pos依次指向链表的元素 /* at this point: pos->next points to the next item's 'list' variable and * pos->prev points to the previous item's 'list' variable. Here item is * of type struct kool_list. But we need to access the item itself not the * variable 'list' in the item! macro list_entry() does just that. See "How * does this work?" below for an explanation of how this is done. */ tmp= list_entry(pos, struct kool_list, list);//获得包括pos节点的数据结构<span style="font-family: Arial, Helvetica, sans-serif;">struct kool_list指针</span> /* given a pointer to struct list_head, type of data structure it is part of, * and it's name (struct list_head's name in the data structure) it returns a * pointer to the data structure in which the pointer is part of. * For example, in the above line list_entry() will return a pointer to the * struct kool_list item it is embedded in! */ printf("to= %d from= %d ", tmp->to, tmp->from); } printf(" "); /* since this is a circularly linked list. you can traverse the list in reverse order * as well. all you need to do is replace 'list_for_each' with 'list_for_each_prev' * everything else remain the same! * * Also you can traverse the list using list_for_each_entry() to iterate over a given * type of entries. For example: */ printf("traversing the list using list_for_each_entry() "); list_for_each_entry(tmp, &mylist.list, list) printf("to= %d from= %d ", tmp->to, tmp->from); printf(" "); /* now let's be good and free the kool_list items. since we will be removing items * off the list using list_del() we need to use a safer version of the list_for_each() * macro aptly named list_for_each_safe(). Note that you MUST use this macro if the loop * involves deletions of items (or moving items from one list to another). */ printf("deleting the list using list_for_each_safe() "); list_for_each_safe(pos, q, &mylist.list){ tmp= list_entry(pos, struct kool_list, list); printf("freeing item to= %d from= %d ", tmp->to, tmp->from); list_del(pos); free(tmp); } return 0; }</span>
几种常用的核心清单API实现。上述案件Linux核心名单(三)介绍。