CS-Notes/docs/notes/剑指 Offer 题解 - 20~29.md
2019-03-15 19:41:36 +08:00

385 lines
11 KiB
Markdown
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

<!-- GFM-TOC -->
* [20. 表示数值的字符串](#20-表示数值的字符串)
* [题目描述](#题目描述)
* [解题思路](#解题思路)
* [21. 调整数组顺序使奇数位于偶数前面](#21-调整数组顺序使奇数位于偶数前面)
* [题目描述](#题目描述)
* [解题思路](#解题思路)
* [22. 链表中倒数第 K 个结点](#22-链表中倒数第-k-个结点)
* [解题思路](#解题思路)
* [23. 链表中环的入口结点](#23-链表中环的入口结点)
* [题目描述](#题目描述)
* [解题思路](#解题思路)
* [24. 反转链表](#24-反转链表)
* [解题思路](#解题思路)
* [递归](#递归)
* [迭代](#迭代)
* [25. 合并两个排序的链表](#25-合并两个排序的链表)
* [题目描述](#题目描述)
* [解题思路](#解题思路)
* [递归](#递归)
* [迭代](#迭代)
* [26. 树的子结构](#26-树的子结构)
* [题目描述](#题目描述)
* [解题思路](#解题思路)
* [27. 二叉树的镜像](#27-二叉树的镜像)
* [题目描述](#题目描述)
* [解题思路](#解题思路)
* [28 对称的二叉树](#28-对称的二叉树)
* [题目描述](#题目描述)
* [解题思路](#解题思路)
* [29. 顺时针打印矩阵](#29-顺时针打印矩阵)
* [题目描述](#题目描述)
* [解题思路](#解题思路)
<!-- GFM-TOC -->
# 20. 表示数值的字符串
[NowCoder](https://www.nowcoder.com/practice/6f8c901d091949a5837e24bb82a731f2?tpId=13&tqId=11206&tPage=1&rp=1&ru=/ta/coding-interviews&qru=/ta/coding-interviews/question-ranking)
## 题目描述
```html
true
"+100"
"5e2"
"-123"
"3.1416"
"-1E-16"
false
"12e"
"1a3.14"
"1.2.3"
"+-5"
"12e+4.3"
```
## 解题思路
使用正则表达式进行匹配。
```html
[] 字符集合
() 分组
? 重复 0 ~ 1
+ 重复 1 ~ n
* 重复 0 ~ n
. 任意字符
\\. 转义后的 .
\\d 数字
```
```java
public boolean isNumeric(char[] str) {
if (str == null || str.length == 0)
return false;
return new String(str).matches("[+-]?\\d*(\\.\\d+)?([eE][+-]?\\d+)?");
}
```
# 21. 调整数组顺序使奇数位于偶数前面
[NowCoder](https://www.nowcoder.com/practice/beb5aa231adc45b2a5dcc5b62c93f593?tpId=13&tqId=11166&tPage=1&rp=1&ru=/ta/coding-interviews&qru=/ta/coding-interviews/question-ranking)
## 题目描述
需要保证奇数和奇数,偶数和偶数之间的相对位置不变,这和书本不太一样。
<div align="center"> <img src="pics/7_2001550475133282.png"/> </div><br>
## 解题思路
```java
public void reOrderArray(int[] nums) {
// 奇数个数
int oddCnt = 0;
for (int val : nums)
if (val % 2 == 1)
oddCnt++;
int[] copy = nums.clone();
int i = 0, j = oddCnt;
for (int num : copy) {
if (num % 2 == 1)
nums[i++] = num;
else
nums[j++] = num;
}
}
```
# 22. 链表中倒数第 K 个结点
[NowCoder](https://www.nowcoder.com/practice/529d3ae5a407492994ad2a246518148a?tpId=13&tqId=11167&tPage=1&rp=1&ru=/ta/coding-interviews&qru=/ta/coding-interviews/question-ranking)
## 解题思路
设链表的长度为 N。设两个指针 P1 和 P2先让 P1 移动 K 个节点,则还有 N - K 个节点可以移动。此时让 P1 和 P2 同时移动,可以知道当 P1 移动到链表结尾时P2 移动到 N - K 个节点处,该位置就是倒数第 K 个节点。
<div align="center"> <img src="pics/ea2304ce-268b-4238-9486-4d8f8aea8ca4.png" width="500"/> </div><br>
```java
public ListNode FindKthToTail(ListNode head, int k) {
if (head == null)
return null;
ListNode P1 = head;
while (P1 != null && k-- > 0)
P1 = P1.next;
if (k > 0)
return null;
ListNode P2 = head;
while (P1 != null) {
P1 = P1.next;
P2 = P2.next;
}
return P2;
}
```
# 23. 链表中环的入口结点
[NowCoder](https://www.nowcoder.com/practice/253d2c59ec3e4bc68da16833f79a38e4?tpId=13&tqId=11208&tPage=1&rp=1&ru=/ta/coding-interviews&qru=/ta/coding-interviews/question-ranking)
## 题目描述
一个链表中包含环,请找出该链表的环的入口结点。要求不能使用额外的空间。
## 解题思路
使用双指针,一个指针 fast 每次移动两个节点,一个指针 slow 每次移动一个节点。因为存在环,所以两个指针必定相遇在环中的某个节点上。假设相遇点在下图的 z1 位置,此时 fast 移动的节点数为 x+2y+zslow 为 x+y由于 fast 速度比 slow 快一倍,因此 x+2y+z=2(x+y),得到 x=z。
在相遇点slow 要到环的入口点还需要移动 z 个节点,如果让 fast 重新从头开始移动,并且速度变为每次移动一个节点,那么它到环入口点还需要移动 x 个节点。在上面已经推导出 x=z因此 fast 和 slow 将在环入口点相遇。
<div align="center"> <img src="pics/d5d3b7ae-2712-412e-98f1-633ce6ec5955.png" width="500"/> </div><br>
```java
public ListNode EntryNodeOfLoop(ListNode pHead) {
if (pHead == null || pHead.next == null)
return null;
ListNode slow = pHead, fast = pHead;
do {
fast = fast.next.next;
slow = slow.next;
} while (slow != fast);
fast = pHead;
while (slow != fast) {
slow = slow.next;
fast = fast.next;
}
return slow;
}
```
# 24. 反转链表
[NowCoder](https://www.nowcoder.com/practice/75e878df47f24fdc9dc3e400ec6058ca?tpId=13&tqId=11168&tPage=1&rp=1&ru=/ta/coding-interviews&qru=/ta/coding-interviews/question-ranking)
## 解题思路
### 递归
```java
public ListNode ReverseList(ListNode head) {
if (head == null || head.next == null)
return head;
ListNode next = head.next;
head.next = null;
ListNode newHead = ReverseList(next);
next.next = head;
return newHead;
}
```
### 迭代
```java
public ListNode ReverseList(ListNode head) {
ListNode newList = new ListNode(-1);
while (head != null) {
ListNode next = head.next;
head.next = newList.next;
newList.next = head;
head = next;
}
return newList.next;
}
```
# 25. 合并两个排序的链表
[NowCoder](https://www.nowcoder.com/practice/d8b6b4358f774294a89de2a6ac4d9337?tpId=13&tqId=11169&tPage=1&rp=1&ru=/ta/coding-interviews&qru=/ta/coding-interviews/question-ranking)
## 题目描述
<div align="center"> <img src="pics/43f2cafa-3568-4a89-a895-4725666b94a6.png" width="500"/> </div><br>
## 解题思路
### 递归
```java
public ListNode Merge(ListNode list1, ListNode list2) {
if (list1 == null)
return list2;
if (list2 == null)
return list1;
if (list1.val <= list2.val) {
list1.next = Merge(list1.next, list2);
return list1;
} else {
list2.next = Merge(list1, list2.next);
return list2;
}
}
```
### 迭代
```java
public ListNode Merge(ListNode list1, ListNode list2) {
ListNode head = new ListNode(-1);
ListNode cur = head;
while (list1 != null && list2 != null) {
if (list1.val <= list2.val) {
cur.next = list1;
list1 = list1.next;
} else {
cur.next = list2;
list2 = list2.next;
}
cur = cur.next;
}
if (list1 != null)
cur.next = list1;
if (list2 != null)
cur.next = list2;
return head.next;
}
```
# 26. 树的子结构
[NowCoder](https://www.nowcoder.com/practice/6e196c44c7004d15b1610b9afca8bd88?tpId=13&tqId=11170&tPage=1&rp=1&ru=/ta/coding-interviews&qru=/ta/coding-interviews/question-ranking)
## 题目描述
<div align="center"> <img src="pics/4583e24f-424b-4d50-8a14-2c38a1827d4a.png" width="500"/> </div><br>
## 解题思路
```java
public boolean HasSubtree(TreeNode root1, TreeNode root2) {
if (root1 == null || root2 == null)
return false;
return isSubtreeWithRoot(root1, root2) || HasSubtree(root1.left, root2) || HasSubtree(root1.right, root2);
}
private boolean isSubtreeWithRoot(TreeNode root1, TreeNode root2) {
if (root2 == null)
return true;
if (root1 == null)
return false;
if (root1.val != root2.val)
return false;
return isSubtreeWithRoot(root1.left, root2.left) && isSubtreeWithRoot(root1.right, root2.right);
}
```
# 27. 二叉树的镜像
[NowCoder](https://www.nowcoder.com/practice/564f4c26aa584921bc75623e48ca3011?tpId=13&tqId=11171&tPage=1&rp=1&ru=/ta/coding-interviews&qru=/ta/coding-interviews/question-ranking)
## 题目描述
<div align="center"> <img src="pics/a2d13178-f1ef-4811-a240-1fe95b55b1eb.png" width="300"/> </div><br>
## 解题思路
```java
public void Mirror(TreeNode root) {
if (root == null)
return;
swap(root);
Mirror(root.left);
Mirror(root.right);
}
private void swap(TreeNode root) {
TreeNode t = root.left;
root.left = root.right;
root.right = t;
}
```
# 28 对称的二叉树
[NowCder](https://www.nowcoder.com/practice/ff05d44dfdb04e1d83bdbdab320efbcb?tpId=13&tqId=11211&tPage=1&rp=1&ru=/ta/coding-interviews&qru=/ta/coding-interviews/question-ranking)
## 题目描述
<div align="center"> <img src="pics/f42443e0-208d-41ea-be44-c7fd97d2e3bf.png" width="300"/> </div><br>
## 解题思路
```java
boolean isSymmetrical(TreeNode pRoot) {
if (pRoot == null)
return true;
return isSymmetrical(pRoot.left, pRoot.right);
}
boolean isSymmetrical(TreeNode t1, TreeNode t2) {
if (t1 == null && t2 == null)
return true;
if (t1 == null || t2 == null)
return false;
if (t1.val != t2.val)
return false;
return isSymmetrical(t1.left, t2.right) && isSymmetrical(t1.right, t2.left);
}
```
# 29. 顺时针打印矩阵
[NowCoder](https://www.nowcoder.com/practice/9b4c81a02cd34f76be2659fa0d54342a?tpId=13&tqId=11172&tPage=1&rp=1&ru=/ta/coding-interviews&qru=/ta/coding-interviews/question-ranking)
## 题目描述
下图的矩阵顺时针打印结果为1, 2, 3, 4, 8, 12, 16, 15, 14, 13, 9, 5, 6, 7, 11, 10
<div align="center"> <img src="pics/8_2001550475451664.png"/> </div><br>
## 解题思路
```java
public ArrayList<Integer> printMatrix(int[][] matrix) {
ArrayList<Integer> ret = new ArrayList<>();
int r1 = 0, r2 = matrix.length - 1, c1 = 0, c2 = matrix[0].length - 1;
while (r1 <= r2 && c1 <= c2) {
for (int i = c1; i <= c2; i++)
ret.add(matrix[r1][i]);
for (int i = r1 + 1; i <= r2; i++)
ret.add(matrix[i][c2]);
if (r1 != r2)
for (int i = c2 - 1; i >= c1; i--)
ret.add(matrix[r2][i]);
if (c1 != c2)
for (int i = r2 - 1; i > r1; i--)
ret.add(matrix[i][c1]);
r1++; r2--; c1++; c2--;
}
return ret;
}
```
</br><div align="center">欢迎关注公众号,在公众号后台回复 ziliao 可领取复习大纲,帮你理清复习重点。</div></br></br>
<div align="center"><img width="180px" src="https://cyc-1256109796.cos.ap-guangzhou.myqcloud.com/%E5%85%AC%E4%BC%97%E5%8F%B7.jpg"></img></div>