文章目录
- 设计链表 Leetcode707
- 不使用头节点
- 使用头节点 推荐**
设计链表 Leetcode707
题目要求我们通过实现几个方法来完成对链表的各个操作
由于在go语言中都为值传递,(注意这里与值类型、引用类型的而区别),所以即使我们直接在方法中传入指针,但是我们在方法里是不能直接修改指针所改的地址,其在方法中只会复制一份副本进行操作,而不会影响到原变量。
所以我们这里可以设置一个结构体,在mylinkedlist中在定义链表节点进行解决。
关于值传递的注意事项
这里放一个经典的愚蠢案例以作警戒,妄想通过副本直接影响原链表
我是猪
func (this *MyLinkedList) AddAtTail(val int) {Node := this.Headif Node == nil {Node = &ListNode{Val: val}//this.Head = Nodereturn}for Node.Next != nil {Node = Node.Next}Node.Next = &ListNode{Val: val}
}
不使用头节点
// ListNode 定义链表结构
type ListNode struct {Val intNext *ListNode
}//正常建立,不涉及头节点
// MyLinkedList 为了方便操作链表建立的结构体
type MyLinkedList struct {size intHead *ListNode
}// Constructor 初始化链表对象 √
func Constructor() MyLinkedList {return MyLinkedList{}
}// Get 获取第index个节点的数据 √
func (this *MyLinkedList) Get(index int) int {if index+1 > this.size {return -1}Node := this.Headfor ; index > 0; index-- {Node = Node.Next}return Node.Val
}// AddAtHead 将数据为val的节点添加到第一位 √
func (this *MyLinkedList) AddAtHead(val int) {Node := &ListNode{Val: val, Next: this.Head}this.Head = Nodethis.size++
}// AddAtTail 将数据为val的节点添加到最后一位 √
func (this *MyLinkedList) AddAtTail(val int) {this.size++if this.Head == nil {this.Head = &ListNode{Val: val}return}Node := this.Headfor Node.Next != nil {Node = Node.Next}Node.Next = &ListNode{Val: val}
}// AddAtIndex 将数据为val的节点插入到第index个节点之前;若链表长度为index,则放置到最后一位;若超过链表长度不做修改 √
func (this *MyLinkedList) AddAtIndex(index int, val int) {if this.size == index {this.AddAtTail(val)return}if this.size < index {return}//有第index节点//如果index=0,则需要改动首结点,直接待用addAtHeadif index == 0 {this.AddAtHead(val)return}cur := this.HeadNode := cur//0 1 2 3 ;index=2for ; index > 1; index-- {Node = Node.Next}Node.Next = &ListNode{Val: val, Next: Node.Next}this.Head = curthis.size++
}// DeleteAtIndex 删除第index个节点
func (this *MyLinkedList) DeleteAtIndex(index int) {if index+1 > this.size {return}// 0 1 2 3 ;index=0//如果index=0,依旧需要修改头节点if index == 0 {this.Head = this.Head.Nextthis.size--return}Node := this.Headcur := Node0 1 2 3 ;index=3,删除最后一个,只需要将最后.next=nil//if index+1 == this.size {// for ; index > 1; index-- {// cur = cur.Next// }// cur.Next = nil// this.Head = Node// this.size--// return//}//0 1 2 3 ;index=2//for ; index > 1; index-- {// cur = cur.Next//}//cur.Next = cur.Next.Next//this.Head = Node//this.size--for ; index > 1; index-- {cur = cur.Next}if index+1 == this.size {cur.Next = nilthis.size--return}cur.Next = cur.Next.Nextthis.Head = Nodethis.size--
}使用头节点 推荐**
首先性能足够优秀,而且代码简洁还方便
//本次目标时建立具有 头节点 的链表(虚拟头节点,但实际就是有头节点)
//链表结构:H* 0 1 2 3
//优势,在对头节点后的节点进行操作会方便type MyLinkedList struct {Size intDummyHead *ListNode
}// Constructor 使用虚拟头节点时,很关键的一步在在初始化我们的mylinkedlist,我们需要直接对dummyhead分配内存空间,防止后续对首个节点进行操作时出现问题
func Constructor() MyLinkedList {return MyLinkedList{DummyHead: &ListNode{}}
}func (this *MyLinkedList) Get(index int) int {//*h 0 1 2 3 ;0if this.Size <= index {return -1}DummyHead := this.DummyHeadcur := DummyHeadfor ; index >= 0; index-- {cur = cur.Next}return cur.Val
}func (this *MyLinkedList) AddAtHead(val int) {//if this.Size == 0 {// this.Head = &ListNode{Next: &ListNode{Val: val}}// this.Size++//} else {// this.Head.Next = &ListNode{Val: val, Next: this.Head.Next}// this.Size++//}//newNode := &ListNode{Val: val} // 创建新节点//newNode.Next = this.Head.Next // 新节点指向当前头节点//this.Head.Next = newNode // 新节点变为头节点//this.Size++ // 链表大小增加1//上面第一块没想明白,逻辑有问题;第二部分进行整合,本质一样this.DummyHead.Next = &ListNode{Val: val, Next: this.DummyHead.Next}this.Size++
}func (this *MyLinkedList) AddAtTail(val int) {if this.Size == 0 {this.AddAtHead(val)return}DummyHead := this.DummyHeadcur := DummyHead//h* 0 1 2 3 4 ;for cur.Next != nil {cur = cur.Next}cur.Next = &ListNode{Val: val}this.DummyHead = DummyHeadthis.Size++
}func (this *MyLinkedList) AddAtIndex(index int, val int) {//如果index=链表长度,插入到末尾if this.Size == index {this.AddAtTail(val)return}//如果index>链表长度,什么都不做//<长度,插入到index节点前//h* 0 1 2 3 4 ;2if this.Size > index {DummyHead := this.DummyHeadcur := DummyHeadfor ; index > 0; index-- {cur = cur.Next}cur.Next = &ListNode{Val: val, Next: cur.Next}this.DummyHead = DummyHeadthis.Size++}}func (this *MyLinkedList) DeleteAtIndex(index int) {//h* 0 1 2 3 4 ;0if this.Size > index {DummyHead := this.DummyHeadcur := DummyHeadfor ; index > 0; index-- {cur = cur.Next}cur.Next = cur.Next.Nextthis.DummyHead = DummyHeadthis.Size--}}
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