数据结构系列前言:
数据结构作为程序员的基本知识,需要我们每个人牢牢掌握。近期我也展开了对数据结构的二次学习,来弥补当年挖的坑。。。。。。 当时上课的时候也就是跟着听课,没有亲自实现任何一种数据结构,更别提利用数据结构来解决问题了。 现在就来填坑了奋斗 在这里提醒看到我博客的孩子们,如果你还是在校生,永远不要轻视任何一门基础课的学习,这个时候挖的坑,要么需要用双倍的努力去填,要么会直接影响一个人的能力等等。。。。。。 千万别给自己挖坑
进入正题,关于链表的数据结构知识,这里简单介绍下:
链表是一种物理存储单元上非线性、非连续性的数据结构(它在数据逻辑上是线性的),它的每个节点由两个域组成:数据域和指针域。数据域中存储实际数据,指针域则存储着指针信息,指向链表中的下一个元素或者上一个元素。正是由于指针的存在,链表的存储在物理单元是非连续性的。
链表的优点和缺点同样明显。和线性表相比,链表在添加和删除节点上的效率更高,因为其只需要修改指针信息即可完成操作,而不像线性表(数组)那样需要移动元素。同样的,链表的长度在理论上也是无限的(在存储器容量范围内),并可以动态变化长度,相比线性表优势很大。 相应的,由于线性表无法随机访问节点,只能通过指针顺着链表进行遍历查询来访问,故其访问数据元素的效率比较低。
下面是JS部分
这里面封装了的常用方法及描述:
对于各常用方法的算法描述在这里就不写了,相信大家都可以轻易读懂并理解,毕竟都是非常基础的知识了。
单链表:
function LinkedList(){ /*节点定义*/ var Node = function(element){ this.element = element; //存放节点内容 this.next = null; //指针 } var length = 0, //存放链表长度 head = null; //头指针 this.append = function(element){ var node = new Node(element), current; //操作所用指针 if (!head){ head = node; }else { current = head; while(current.next){ current = current.next; } current.next = node; } length++; return true; }; this.insert = function(position, element){ if (position >= 0 && position <= length) { var node = new Node(element), current = head, previous, index = 0; if(position === 0){ node.next = current; head = node; }else{ while(index++ < position){ previous = current; current = current.next; } node.next = current; previous.next = node; } length++; return true; }else{ return false; } }; this.removeAt = function(position){ if(position > -1 && position < length){ var current = head, previous, index = 0; if (position === 0) { head = current.next; }else{ while (index++ < position){ previous = current; current = current.next; } previous.next = current.next; }; length--; return current.element; }else{ return null; } }; this.remove = function(element){ var current = head, previous; if(element === current.element){ head = current.next; length--; return true; } previous = current; current = current.next; while(current){ if(element === current.element){ previous.next = current.next; length--; return true; }else{ previous = current; current = current.next; } } return false; }; this.remove = function(){ if(length < 1){ return false; } var current = head, previous; if(length == 1){ head = null; length--; return current.element; } while(current.next !== null){ previous = current; current = current.next; } previous.next = null; length--; return current.element; }; this.indexOf = function(element){ var current = head, index = 0; while(current){ if(element === current.element){ return index; } index++; current = current.next; } return false; }; this.isEmpty = function(){ return length === 0; }; this.size = function(){ return length; }; this.toString = function(){ var current = head, string = ''; while(current){ string += current.element; current = current.next; } return string; }; this.getHead = function(){ return head; } }
循环链表:在单链表的基础上,将尾节点的指针指向头结点,就构成了一个循环链表。环形链表从任意一个节点开始,都可以遍历整个链表。
function CircularLinkedList(){ var Node = function(element){ this.element = element; this.next = null; } var length = 0, head = null; this.append = function(element){ var node = new Node(element), current; if (!head) { head = node; node.next = head; }else{ current = head; while(current.next !== head){ current = current.next; } current.next = node; node.next = head; }; length++; return true; }; this.insert = function(position, element){ if(position > -1 && position < length){ var node = new Node(element), index = 0, current = head, previous; if (position === 0) { node.next = head; head = node; }else{ while(index++ < position){ previous = current; current = current.next; } previous.next = node; node.next = current; }; length++; return true; }else{ return false; } }; this.removeAt = function(position){ if(position > -1 && position < length){ var current = head, previous, index = 0; if (position === 0) { head = current.next; }else{ while (index++ < position){ previous = current; current = current.next; } previous.next = current.next; }; length--; return current.element; }else{ return null; } }; this.remove = function (element){ var current = head, previous, indexCheck = 0; while(current && indexCheck < length){ if(current.element === element){ if(indexCheck == 0){ head = current.next; length--; return true; }else{ previous.next = current.next; length--; return true; } }else{ previous = current; current = current.next; indexCheck++; } } return false; }; this.remove = function(){ if(length === 0){ return false; } var current = head, previous, indexCheck = 0; if(length === 1){ head = null; length--; return current.element; } while(indexCheck++ < length){ previous = current; current = current.next; } previous.next = head; length--; return current.element; }; this.indexOf = function(element){ var current = head, index = 0; while(current && index < length){ if(current.element === element){ return index; }else{ index++; current = current.next; } } return false; }; this.isEmpty = function(){ return length === 0; }; this.size = function(){ return length; }; this.toString = function(){ var current = head, string = '', indexCheck = 0; while(current && indexCheck < length){ string += current.element; current = current.next; indexCheck++; } return string; }; }
使用方法:
在类外部扩充方法:
以上就是本文的全部内容,希望对大家的学习有所帮助,也希望大家多多支持。