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为链表篇 增加 Swift 实现
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@ -145,6 +145,35 @@ class Solution:
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return True
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```
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Swift Code:
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```swift
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class Solution {
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func isPalindrome(_ head: ListNode?) -> Bool {
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// 这里需要用动态数组,因为我们不知道链表的长度
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var arr:[Int?] = []
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var copynode = head
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// 将链表的值复制到数组中
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while copynode != nil {
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arr.append(copynode?.val)
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copynode = copynode?.next
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}
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// 双指针遍历数组
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var back = 0, pro = arr.count - 1
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while back < pro {
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// 判断两个指针的值是否相等
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if arr[pro] != arr[back] {
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return false
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}
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// 移动指针
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back += 1
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pro -= 1
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}
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return true
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}
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}
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```
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这个方法可以直接通过,但是这个方法需要辅助数组,那我们还有其他更好的方法吗?
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**双指针翻转链表法**
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@ -375,3 +404,57 @@ class Solution:
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return low
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```
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Swift Code:
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```swift
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class Solution {
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func isPalindrome(_ head: ListNode?) -> Bool {
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if head == nil || head?.next == nil {
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return true
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}
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//找到中间节点,也就是翻转的头节点,这个在昨天的题目中讲到
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//但是今天和昨天有一些不一样的地方就是,如果有两个中间节点返回第一个,昨天的题目是第二个
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var midnode = searchmidnode(head)
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//原地翻转链表,需要两个辅助指针。这个也是面试题目,大家可以做一下
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//这里我们用的是midnode.next需要注意,因为我们找到的是中点,但是我们翻转的是后半部分
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var backhalf = reverse(midnode?.next);
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//遍历两部分链表,判断值是否相等
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var p1 = head
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var p2 = backhalf
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while p2 != nil {
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if p1?.val != p2?.val {
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midnode?.next = reverse(backhalf)
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return false
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}
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p1 = p1?.next
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p2 = p2?.next
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}
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//还原链表并返回结果,这一步是需要注意的,我们不可以破坏初始结构,我们只是判断是否为回文,
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//当然如果没有这一步也是可以AC,但是面试的时候题目要求可能会有这一条。
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midnode?.next = reverse(backhalf)
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return true
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}
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//找到中点
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func searchmidnode(_ head: ListNode?) -> ListNode? {
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var fast = head, slow = head
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while fast?.next != nil && fast?.next?.next != nil {
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fast = fast?.next?.next
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slow = slow?.next
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}
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return slow
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}
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//翻转链表
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func reverse(_ slow: ListNode?) -> ListNode? {
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var slow = slow
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var low: ListNode?
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var temp: ListNode?
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while slow != nil {
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temp = slow?.next
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slow?.next = low
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low = slow
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slow = temp
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}
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return low
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}
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}
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```
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@ -108,3 +108,20 @@ class Solution:
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return False
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```
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Swift Code:
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```swift
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class Solution {
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func hasCycle(_ head: ListNode?) -> Bool {
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var fast = head, slow = head
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while fast != nil && fast?.next != nil {
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fast = fast?.next?.next
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slow = slow?.next
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if fast === slow {
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return true
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}
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}
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return false
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}
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}
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```
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@ -132,8 +132,6 @@ class Solution:
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return head
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```
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### 快慢指针
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这个方法是比较巧妙的方法,但是不容易想到,也不太容易理解,利用快慢指针判断是否有环很容易,但是判断环的入口就没有那么容易,之前说过快慢指针肯定会在环内相遇,见下图。
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@ -275,3 +273,29 @@ class Solution:
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return slow
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```
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Swift Code:
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```swift
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class Solution {
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func detectCycle(_ head: ListNode?) -> ListNode? {
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// 快慢指针
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var fast = head, slow = head
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while fast != nil && fast?.next != nil {
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fast = fast?.next?.next
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slow = slow?.next
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// 相遇
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if fast === slow {
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// 设置一个新的指针,从头节点出发,慢指针速度为1,所以可以使用慢指针从相遇点出发
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// 此处也可以不创新结点,直接将 fast = head
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var newNode = head
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while newNode !== slow {
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slow = slow?.next
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newNode = newNode?.next
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}
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return slow
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}
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}
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return nil
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}
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}
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```
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@ -225,5 +225,41 @@ class Solution:
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return dummyNode.next
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```
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Swift Code:
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```swift
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class Solution {
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func insertionSortList(_ head: ListNode?) -> ListNode? {
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if head == nil && head?.next == nil {
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return head
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}
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//哑节点
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var dummyNode = ListNode(-1)
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dummyNode.next = head
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//pre负责指向新元素,last 负责指向新元素的前一元素
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//判断是否需要执行插入操作
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var pre = head?.next
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var last = head
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while pre != nil {
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//不需要插入到合适位置,则继续往下移动
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if last!.val <= pre!.val {
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pre = pre?.next
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last = last?.next
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continue
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}
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//开始出发,查找新元素的合适位置
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var temphead = dummyNode
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while temphead.next!.val <= pre!.val {
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temphead = temphead.next!
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}
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//此时我们已经找到了合适位置,我们需要进行插入,大家可以画一画
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last?.next = pre?.next
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pre?.next = temphead.next
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temphead.next = pre
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//继续往下移动
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pre = last?.next
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}
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return dummyNode.next
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}
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}
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```
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@ -138,6 +138,32 @@ class Solution:
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return low
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```
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Swift Code:
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```swift
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class Solution {
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func reverseList(_ head: ListNode?) -> ListNode? {
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// 边界条件
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if head == nil || head?.next == nil {
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return head
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}
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var pro = head
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var low: ListNode?
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while pro != nil {
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// 代表橙色指针
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var temp = pro
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// 移动绿色指针
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pro = pro?.next
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// 反转节点
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temp?.next = low
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// 移动黄色指针
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low = temp
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}
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return low
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}
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}
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```
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上面的迭代写法是不是搞懂啦,现在还有一种递归写法,不是特别容易理解,刚开始刷题的同学,可以只看迭代解法。
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@ -227,6 +253,25 @@ class Solution:
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return pro
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```
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Swift Code:
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```swift
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class Solution {
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func reverseList(_ head: ListNode?) -> ListNode? {
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// 结束条件
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if head == nil || head?.next == nil {
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return head
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}
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var pro = reverseList(head?.next)
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// 将节点进行反转
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head?.next?.next = head
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// 防止循环
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head?.next = nil
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return pro
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}
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}
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```
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<br/>
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> 贡献者[@jaredliw](https://github.com/jaredliw)注:
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@ -128,3 +128,27 @@ class Solution:
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return head
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```
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Swift Code:
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```swift
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class Solution {
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func oddEvenList(_ head: ListNode?) -> ListNode? {
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if head == nil || head?.next == nil {
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return head
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}
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var odd = head
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var even = head?.next
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var evenHead = even
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while odd?.next != nil && even?.next != nil {
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//将偶数位合在一起,奇数位合在一起
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odd?.next = even?.next
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odd = odd?.next
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even?.next = odd?.next
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even = even?.next
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}
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//链接
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odd?.next = evenHead
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return head
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}
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}
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```
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@ -165,3 +165,34 @@ class Solution:
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return dummy.next # 注意,这里传回的不是head,而是虚拟节点的下一个节点,head有可能已经换了
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```
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Swift Code:
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```swift
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class Solution {
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func deleteDuplicates(_ head: ListNode?) -> ListNode? {
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// 侦察兵指针
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var pre = head
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// 创建哑节点,接上head
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var dummy = ListNode(-1)
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dummy.next = head
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// 跟随的指针
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var low:ListNode? = dummy
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while pre != nil && pre?.next != nil {
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if pre?.val == pre?.next?.val {
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// 移动侦察兵指针直到找到与上一个不相同的元素
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while pre != nil && pre?.next != nil && pre?.val == pre?.next?.val {
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pre = pre?.next
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}
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// while循环后,pre停留在最后一个重复的节点上
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pre = pre?.next
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// 连上新节点
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low?.next = pre
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} else {
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pre = pre?.next
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low = low?.next
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}
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}
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return dummy.next // 注意,这里传回的不是head,而是虚拟节点的下一个节点,head有可能已经换了
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}
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}
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```
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@ -157,3 +157,34 @@ class Solution:
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return headsmall.next
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```
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Swift Code:
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```swift
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class Solution {
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func partition(_ head: ListNode?, _ x: Int) -> ListNode? {
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var pro = head
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var big = ListNode(-1)
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var small = ListNode(-1)
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var headbig = big
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var headsmall = small
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//分
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while pro != nil {
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//大于时,放到 big 链表上
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if pro!.val >= x {
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big.next = pro
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big = big.next!
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//小于时,放到 small 链表上
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} else {
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small.next = pro
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small = small.next!
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}
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pro = pro?.next
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}
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//细节
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big.next = nil
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//合
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small.next = headbig.next
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return headsmall.next
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}
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}
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```
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@ -218,3 +218,50 @@ class Solution:
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return low
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```
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Swift Code:
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```swift
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class Solution {
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func reverseBetween(_ head: ListNode?, _ left: Int, _ right: Int) -> ListNode? {
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// 虚拟头结点
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var temp = ListNode(-1)
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temp.next = head
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var pro:ListNode? = temp
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// 来到 left 节点前的一个节点
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var i = 0
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for n in i..<left - 1 {
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pro = pro?.next
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i += 1
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}
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// 保存 left 节点前的一个节点
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var leftNode = pro
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// 来到 right 节点
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for n in i..<right {
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pro = pro?.next
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}
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// 保存 right 节点后的一个节点
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var rightNode:ListNode? = pro?.next
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// 切断链表
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pro?.next = nil // 切断 right 后的部分
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var newHead:ListNode? = leftNode?.next // 保存 left 节点
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leftNode?.next = nil // 切断 left 前的部分
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// 反转
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leftNode?.next = reverse(newHead)
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// 重新接头
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newHead?.next = rightNode
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return temp.next
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}
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// 和反转链表1代码一致
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func reverse(_ head: ListNode?) -> ListNode? {
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var low:ListNode?
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var pro = head
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while pro != nil {
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var temp = pro
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pro = pro?.next
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temp?.next = low
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low = temp
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}
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return low
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}
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}
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```
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@ -123,3 +123,27 @@ class Solution:
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return headtemp.next
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```
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Swift Code:
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```swift
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class Solution {
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func mergeTwoLists(_ l1: ListNode?, _ l2: ListNode?) -> ListNode? {
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var l1 = l1, l2 = l2
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var headpro: ListNode? = ListNode(-1)
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var headtemp = headpro
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while l1 != nil && l2 != nil {
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//接上大的那个
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if l1!.val >= l2!.val {
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headpro?.next = l2
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l2 = l2!.next
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} else {
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headpro?.next = l1
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l1 = l1!.next
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}
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headpro = headpro?.next
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}
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headpro?.next = l1 != nil ? l1 : l2
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return headtemp?.next
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}
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}
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```
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@ -135,6 +135,40 @@ class Solution:
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return tempb
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```
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Swift Code:
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```swift
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class Solution {
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func getIntersectionNode(_ headA: ListNode?, _ headB: ListNode?) -> ListNode? {
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var tempa = headA
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var tempb = headB
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var arr:Set<ListNode> = []
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//遍历链表A,将所有值都存到arr中
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while tempa != nil {
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arr.insert(tempa!)
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tempa = tempa?.next
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}
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//遍历列表B,如果发现某个结点已在arr中则直接返回该节点
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while tempb != nil {
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if arr.contains(tempb!) {
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return tempb
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}
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tempb = tempb?.next
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}
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//若上方没有返回,此刻tempb为null
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return tempb
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}
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}
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extension ListNode: Hashable, Equatable {
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public func hash(into hasher: inout Hasher) {
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hasher.combine(val)
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hasher.combine(ObjectIdentifier(self))
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}
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public static func ==(lhs: ListNode, rhs: ListNode) -> Bool {
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return lhs === rhs
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}
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}
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```
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下面这个方法比较巧妙,不是特别容易想到,大家可以自己实现一下,这个方法也是利用我们的双指针思想。
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@ -221,6 +255,25 @@ class Solution:
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return tempa # 返回tempb也行
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```
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Swift Code:
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```swift
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class Solution {
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func getIntersectionNode(_ headA: ListNode?, _ headB: ListNode?) -> ListNode? {
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//定义两个节点
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var tempa = headA
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var tempb = headB
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//循环
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while tempa != tempb {
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// 如果不为空就指针下移,为空就跳到另一链表的头部
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tempa = tempa != nil ? tempa?.next : headB
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tempb = tempb != nil ? tempb?.next : headA
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}
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return tempa //返回tempb也行
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}
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}
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```
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好啦,链表的题目就结束啦,希望大家能有所收获,下周就要更新新的题型啦,继续坚持,肯定会有收获的。
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<br/>
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|
@ -136,3 +136,28 @@ class Solution:
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return after
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```
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Swift Code:
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```swift
|
||||
class Solution {
|
||||
func getKthFromEnd(_ head: ListNode?, _ k: Int) -> ListNode? {
|
||||
//特殊情况
|
||||
if head == nil {
|
||||
return head
|
||||
}
|
||||
//初始化两个指针
|
||||
var pro = head, after = head
|
||||
//先移动绿指针到指定位置
|
||||
for i in 0..<k-1 {
|
||||
pro = pro?.next
|
||||
}
|
||||
//两个指针同时移动
|
||||
while pro?.next != nil {
|
||||
pro = pro?.next
|
||||
after = after?.next
|
||||
}
|
||||
//返回倒数第k个节点
|
||||
return after
|
||||
}
|
||||
}
|
||||
```
|
||||
|
@ -118,3 +118,20 @@ class Solution:
|
||||
return slow
|
||||
```
|
||||
|
||||
Swift Code:
|
||||
|
||||
```swift
|
||||
class Solution {
|
||||
func middleNode(_ head: ListNode?) -> ListNode? {
|
||||
var fast = head //快指针
|
||||
var slow = head //慢指针
|
||||
//循环条件,思考一下跳出循环的情况
|
||||
while fast != nil && fast?.next != nil {
|
||||
fast = fast?.next?.next
|
||||
slow = slow?.next
|
||||
}
|
||||
//返回slow指针指向的节点
|
||||
return slow
|
||||
}
|
||||
}
|
||||
```
|
||||
|
@ -230,3 +230,42 @@ class Solution:
|
||||
return nList.next # 去除哑节点
|
||||
```
|
||||
|
||||
Swift Code:
|
||||
|
||||
```swift
|
||||
class Solution {
|
||||
func addTwoNumbers(_ l1: ListNode?, _ l2: ListNode?) -> ListNode? {
|
||||
var l1 = l1, l2 = l2
|
||||
var nList = ListNode(-1) // 哑节点
|
||||
var tempnode = nList
|
||||
// 用来保存进位值,初始化为0
|
||||
var summod = 0
|
||||
while l1 != nil || l2 != nil {
|
||||
// 链表的节点值
|
||||
let l1num = l1?.val ?? 0
|
||||
let l2num = l2?.val ?? 0
|
||||
// 将链表的值和进位值相加,得到为返回链表的值
|
||||
var sum = l1num + l2num + summod
|
||||
// 更新进位值,例18/10=1,9/10=0
|
||||
summod = sum / 10
|
||||
// 新节点保存的值,18%8=2,则添加2
|
||||
sum = sum % 10
|
||||
// 添加节点
|
||||
tempnode.next = ListNode(sum)
|
||||
// 移动指针
|
||||
tempnode = tempnode.next!
|
||||
if l1 != nil {
|
||||
l1 = l1?.next
|
||||
}
|
||||
if l2 != nil {
|
||||
l2 = l2?.next
|
||||
}
|
||||
}
|
||||
// 最后根据进位值判断需不需要继续添加节点
|
||||
if (summod != 0) {
|
||||
tempnode.next = ListNode(summod)
|
||||
}
|
||||
return nList.next //去除哑节点
|
||||
}
|
||||
}
|
||||
```
|
||||
|
Loading…
Reference in New Issue
Block a user