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@ -801,8 +801,6 @@ public:
##
## 29.37. 树的子结构 ## 29.37. 树的子结构
```cpp ```cpp
@ -877,6 +875,48 @@ int lowbit(int x){
## 32. 49. 二叉搜索树与双向链表 ## 32. 49. 二叉搜索树与双向链表
```cpp
//最后要改成中序遍历的结果
/**
* Definition for a binary tree node.
* struct TreeNode {
* int val;
* TreeNode *left;
* TreeNode *right;
* TreeNode(int x) : val(x), left(NULL), right(NULL) {}
* };
*/
class Solution {
public:
TreeNode *pre = nullptr , * head = nullptr;
TreeNode* convert(TreeNode* root) {
if(!root)return nullptr;
dfs(root);
//力扣专著
// leetcode 是 循环链表, 要加上 这里
// 循环链表 首尾相连, pre 最后在 链表尾结点
//head->left = pre, pre->right = head;
return head;
}
void dfs(TreeNode * cur)
{
if(!cur)return ;
dfs(cur->left);
if(!pre)head = cur;//这个头结点是我们要的答案
else
{
//画图
pre->right = cur;
cur->left = pre;
}
//更新前驱节点
pre = cur;
dfs(cur->right);
}
};
```
@ -914,10 +954,32 @@ public:
## 35.60. 礼物的最大价值 ## 35.60. 礼物的最大价值
```cpp
非常经典的dp问题,太难了,直接pass
```
## 36.63. 字符串中第一个只出现一次的字符 ## 36.63. 字符串中第一个只出现一次的字符
```cpp
class Solution {
public:
char firstNotRepeatingChar(string s) {
unordered_map<char , int>hash;
for(auto ch : s)hash[ch]++;
//要求返回第一个只出现一次的字符,我们只能再变量一次字符串,而不是哈希表
for(auto ch : s)
{
if(hash[ch] == 1)return ch;
}
return '#';
}
};
```
## 37.85. 不用加减乘除做加法 ## 37.85. 不用加减乘除做加法
@ -940,6 +1002,42 @@ public:
## 38.47. 二叉树中和为某一值的路径 ## 38.47. 二叉树中和为某一值的路径
```cpp
/**
* Definition for a binary tree node.
* struct TreeNode {
* int val;
* TreeNode *left;
* TreeNode *right;
* TreeNode(int x) : val(x), left(NULL), right(NULL) {}
* };
*/
//dfs中的条件是难点:没有左右子树,且遍历到这里刚好sum减到了0,才可以把这条路径放进去
class Solution {
public:
//res是最中的答案,path是其中的一条路
vector<vector<int>>res;
vector<int> path;
vector<vector<int>> findPath(TreeNode* root, int sum) {
if(!root)return {};//标准
dfs(root,sum);
return res;
}
void dfs(TreeNode * node , int sum)
{
if(!node)return;//标准
path.push_back(node->val);
if(!node->left && !node->right && sum - node->val == 0)res.push_back(path);//这个是难点
dfs(node->left,sum-node->val);
dfs(node->right,sum-node->val);
path.pop_back();
}
};
```
## 39.82. 圆圈中最后剩下的数字 ## 39.82. 圆圈中最后剩下的数字
```cpp ```cpp
@ -957,26 +1055,447 @@ public:
## 40.39. 对称的二叉树 ## 40.39. 对称的二叉树
## 41.58. 把数组排成最小的数
```cpp
/**
* Definition for a binary tree node.
* struct TreeNode {
* int val;
* TreeNode *left;
* TreeNode *right;
* TreeNode(int x) : val(x), left(NULL), right(NULL) {}
* };
*/
class Solution {
public:
bool res = true;
bool isSymmetric(TreeNode* root) {
if(!root)return true;
return dfs(root->left,root->right);//难点是看出来要把左右节点作为参数传给dfs
}
bool dfs(TreeNode * p, TreeNode* q)
{
if(!p || !q)return !p && !q;//这句话也是难点
//上一步p为空或者q为空,都直接返回了,到了这里,p和q肯定都不为空
if(p->val != q->val)return false;
return dfs(p->left,q->right) && dfs(p->right,q->left);
}
};
```
## 42.38. 二叉树的镜像 ## 42.38. 二叉树的镜像
##
```cpp
class Solution {
public:
void mirror(TreeNode* root) {
if(!root)return ;
swap(root->left,root->right);//swap能直接换节点!,这个有点吊
mirror(root->left);
mirror(root->right);
}
};
```
## 44.43. 不分行从上往下打印二叉树 ## 44.43. 不分行从上往下打印二叉树
## 45.45. 之字形打印二叉树
## 46.69. 数组中数值和下标相等的元素 ```cpp
## //层序遍历
class Solution {
public:
vector<int> printFromTopToBottom(TreeNode* root) {
if(!root)return {};
queue<TreeNode*> q;
vector<int> res;
q.push(root);
while(!q.empty())
{
//res.push_back(q.);//这里我当时卡住了,不知道怎么把队列的值放进去
auto t = q.front();//1.先拿队列头
q.pop();//2.弹出队头
res.push_back(t->val);
//注意:这里不用for循环,直接就把t的左右子树加进去就行了
if(t->left)q.push(t->left);
if(t->right)q.push(t->right);
}
return res;
}
};
```
## 45.44. 分行从上往下打印二叉树
```cpp
/**
* Definition for a binary tree node.
* struct TreeNode {
* int val;
* TreeNode *left;
* TreeNode *right;
* TreeNode(int x) : val(x), left(NULL), right(NULL) {}
* };
*/
//相比较43题,你需要在while循环中嵌套一个while循环
class Solution {
public:
vector<vector<int>>res;
vector<vector<int>> printFromTopToBottom(TreeNode* root) {
if(!root)return {};
queue<TreeNode*>q;
q.push(root);
while(!q.empty())
{
//分层
int len = q.size();
vector<int> path;//每一层
while(len--)
{
auto t = q.front();
q.pop();
path.push_back(t->val);
if(t->left)q.push(t->left);
if(t->right)q.push(t->right);
}
res.push_back(path);
}
return res;
}
};
```
### 补充45. 之字形打印二叉树
```cpp
/**
* Definition for a binary tree node.
* struct TreeNode {
* int val;
* TreeNode *left;
* TreeNode *right;
* TreeNode(int x) : val(x), left(NULL), right(NULL) {}
* };
*/
//相比较43题,你需要在while循环中嵌套一个while循环
class Solution {
public:
vector<vector<int>>res;
vector<vector<int>> printFromTopToBottom(TreeNode* root) {
if(!root)return {};
queue<TreeNode*>q;
q.push(root);
bool flag = false;//表示不用翻转
while(!q.empty())
{
//分层
int len = q.size();
vector<int> path;//每一层
while(len--)
{
auto t = q.front();
q.pop();
path.push_back(t->val);
if(t->left)q.push(t->left);
if(t->right)q.push(t->right);
}
if(flag) reverse(path.begin(),path.end());
flag = !flag;
res.push_back(path);
}
return res;
}
};
```
## 48.25. 剪绳子 ## 48.25. 剪绳子
```cpp
//直接上结论:
//0.如果小于3,就直接返回1*(n-1)
//1.如果这个数%3余1,就先拆分出一个4
//2.如果这个数%3余2,就先拆分出一个2
//3.将这个数拆分成尽可能多的3,最后还剩下多少就再乘多少
class Solution {
public:
int maxProductAfterCutting(int length) {
if(length<=3)return 1*(length-1);//n>=2,m>=2表示绳长大于等于2,且分的段数大于等于2
int n = length;
int sum = 1;
if(n%3 == 1) sum *= 4,n -= 4;
if(n%3 == 2) sum *= 2,n-= 2;
while(n) sum*=3 , n -= 3;
return sum;
}
};
```
## 49.88. 树中两个结点的最低公共祖先 ## 49.88. 树中两个结点的最低公共祖先
```cpp
//代码很简单,只有一函数即可
//以下情况是一句代码:
//1.如果p和q都属于这颗树,就返回这颗树
//2.如果q属于这颗树,p不属于,就返回q
//3.如果p属于这颗树,q不属于,就返回p
//不管怎么说,都是一句话,if(q==root || q==root)return root;
/**
* Definition for a binary tree node.
* struct TreeNode {
* int val;
* TreeNode *left;
* TreeNode *right;
* TreeNode(int x) : val(x), left(NULL), right(NULL) {}
* };
*/
class Solution {
public:
TreeNode* lowestCommonAncestor(TreeNode* root, TreeNode* p, TreeNode* q) {
if(!root)return nullptr;
if(p==root || q == root)return root;
TreeNode* left = lowestCommonAncestor(root->left,p,q);
TreeNode* right = lowestCommonAncestor(root->right,p,q);
if(left && right)return root;//一个在左,一个在右,就返回根节点
if(left)return left;//只有左面,就返回左面
else return right;//只有右面,就返回右面
}
};
```
## 50.17. 从尾到头打印链表 ## 50.17. 从尾到头打印链表
````cpp
//小小翻转列表,直接拿些
class Solution {
public:
vector<int> printListReversingly(ListNode* head) {
if(!head)return {};
if(!head->next)return{head->val};
ListNode* pre = nullptr;
ListNode* cur = head;
while(cur)
{
auto next = cur->next;
cur->next = pre;
pre = cur;
cur = next;
}
vector<int> res;
//头节点是pre
while(pre)
{
res.push_back(pre->val);
pre = pre->next;
}
return res;
}
};
````
## 51.61. 最长不含重复字符的子字符串 ## 51.61. 最长不含重复字符的子字符串
## 52.80. 骰子的点数
```cpp
//双指针
//哈希表
//维护一个ij区间
//当我们把一个新的字符加到哈希表中大于了1时
//我们就要删掉ij区间内所有出现1的字符直到遍历到那个大于1的字符为止
//此时,我们再计算当前的答案
class Solution {
public:
int longestSubstringWithoutDuplication(string s) {
if(s.empty())return 0;
int res = 0;
unordered_map<char ,int> hash;
for(int i = 0 , j = 0 ; j < s.size() ; j ++)// i,j 区间
{
if((++hash[s[j]]) > 1)//开始维护
{
while(hash[s[i]] == 1)
{
hash[s[i]]--;
i++;//过
}
//此时,我们就遍历到那个重复字符
hash[s[i]]--,i++;
}
res = max(res , j-i+1);
}
return res;
}
};
```
## 53.20. 用两个栈实现队列 ## 53.20. 用两个栈实现队列
```cpp
//思路要搞定:
//其中一个栈,有元素进就先进,
//当要弹出元素时,先从一个栈中将元素放到另一个栈中,再弹出
//考查队头,原理同上
//判空:两个队列同时为空才是空
class MyQueue {
public:
stack<int> stk1 ,stk2;
/** Initialize your data structure here. */
MyQueue() {
}
/** Push element x to the back of queue. */
void push(int x) {
stk1.push(x);
}
/** Removes the element from in front of queue and returns that element. */
int pop() {
if(!stk2.empty()){
int t = stk2.top();
stk2.pop();
return t;
}
else
{
while(!stk1.empty()){
stk2.push(stk1.top());
stk1.pop();
}
int t = stk2.top();
stk2.pop();
return t;
}
}
/** Get the front element. */
int peek() {
if(!stk2.empty())return stk2.top();
else
{
while(!stk1.empty()){
stk2.push(stk1.top());
stk1.pop();
}
return stk2.top();
}
}
/** Returns whether the queue is empty. */
bool empty() {
if(stk1.empty() && stk2.empty())return true;
else return false;
}
};
/**
* Your MyQueue object will be instantiated and called as such:
* MyQueue obj = MyQueue();
* obj.push(x);
* int param_2 = obj.pop();
* int param_3 = obj.peek();
* bool param_4 = obj.empty();
*/
```
## 54.83. 股票的最大利润 ## 54.83. 股票的最大利润
```cpp
//贪心
//先买再卖
//如何枚举
//枚举在某天卖
//开一变量,计算前i天的最小值minV
//如果前天的股票价格>minV,比较一下max(res,当天股票价格-minV)
class Solution {
public:
int maxDiff(vector<int>& nums) {
if(nums.empty())return 0;
int minV = nums[0];
int res = 0;
for(int i = 1 ; i < nums.size() ;i++)
{
minV = min(minV,nums[i]);//得到前几天股票的最低价
res = max(res , nums[i]-minV);//res与当前股票价格-前几天股票的最低价)进行比较
}
return res;
}
};
```
## 40. 顺时针打印矩阵 ## 40. 顺时针打印矩阵
## 44. 分行从上往下打印二叉树 ```cpp
## 51. 数字排列 //蛇形数组
------ //走到不能走为止:
//1.越界了不能走
//2.已经走过了不能走(加一个数组标记是否走过)
//每都先计算一下:下一步能不能走,不能走,就换下一个方向
class Solution {
public:
vector<int> printMatrix(vector<vector<int> > matrix) {
if(matrix.empty())return {};
int n = matrix.size() , m = matrix[0].size();
vector<int> res;
vector<vector<bool>>st(n,vector<bool>(m,false));
int dx[4] = {0,1,0,-1} , dy[4] = {1,0,-1,0};//四个方向的向量:右下左上
int x = 0,y = 0 ,step = 0;//起始点,方向
for(int i= 0 ; i < n*m ;i++)
{
res.push_back(matrix[x][y]);
st[x][y] = true;
int a = x + dx[step] , b = y +dy[step];//先计算一下,下一个位置能不能走,不能走就换下一个方向
if(a < 0 || a > n-1 || b <0 || b > m-1 || st[a][b])
{
step = (step + 1)%4;
a = x + dx[step] , b = y +dy[step];
}
x = a ,y =b;
}
return res;
}
};
```