• 剑指offer(36-40)编程题


    36.输入两个链表,找出它们的第一个公共结点。

     1 class Solution1 {
     2 public:
     3     ListNode* FindFirstCommonNode(ListNode* pHead1, ListNode* pHead2) {
     4         ListNode* p = pHead1;
     5         ListNode* q = pHead2;
     6         unordered_set<ListNode*> us;
     7         while (p) {
     8             us.insert(p);
     9             p = p->next;
    10         }
    11         while (q) {
    12             if (us.find(q) != us.end()) {
    13                 return q;
    14             }
    15             q = q->next;
    16         }
    17         return nullptr;
    18     }
    19 };
    20 
    21 class Solution2 {
    22 public:
    23     ListNode* FindFirstCommonNode(ListNode* pHead1, ListNode* pHead2) {
    24         ListNode* p = pHead1;
    25         ListNode* q = pHead2;
    27         int n1 = 0, n2 = 0;
    28         while (p) {
    29             n1++;
    30             p = p->next;
    31         }
    32         while (q) {
    33             n2++;
    34             q = q->next;
    35         }
    37         p = pHead1;
    38         q = pHead2;
    39         if (n1 > n2) {
    40             for (int i = 0; i < n1 - n2; i++) {
    41                 p = p->next;
    42             }
    43         } else {
    44             for (int i = 0; i < n2 - n1; i++) {
    45                 q = q->next;
    46             }
    47         }
    49         while (p) {
    50             if (p == q)
    51                 return p;
    52             else {
    53                 p = p->next;
    54                 q = q->next;
    55                 break;
    56             }
    57         }
    58         return p;
    59     }
    60 };

     37.统计一个数字在排序数组中出现的次数。

    class Solution {
    private:
         //not found ,return -1
        int getFirstK(vector<int>& data, int left, int right, int k) {
            if (left > right) return -1;
            int mid = left + (right - left) / 2;
            if (data[mid] > k) return getFirstK(data, left, mid - 1, k);
            else if (data[mid] < k) return getFirstK(data, mid + 1, right, k);
            else if (data[mid] == k && data[mid - 1] == k)
                return getFirstK(data, left, mid - 1, k);
            else return mid;
        }
         //not found ,return -1
        int getLastK(vector<int>&data,int left,int right,int k){
            if(left > right) return -1;
            int mid = left + (right-left)/2;
            if(data[mid] < k) return getLastK(data,mid+1,right,k);
            else if(data[mid] >k) return getLastK(data,left,mid-1,k);
            else if(data[mid] == k && data[mid+1] ==k)
                return getLastK(data,mid+1,right,k);
            else return mid;
        }
    public:
        int GetNumberOfK(vector<int>& data, int k) {
            int n = data.size();
            if(n == 0) return 0;
            //not found ,return -1
            int firstK = getFirstK(data, 0, n - 1, k);
            int lastK = getLastK(data,0,n-1,k);
            if(firstK == -1) return 0;
            return lastK - firstK + 1;
        }
    };

    38. 输入一棵二叉树,求该树的深度。从根结点到叶结点依次经过的结点(含根、叶结点)形成树的一条路径,最长路径的长度为树的深度。

     1 /*
     2 struct TreeNode {
     3     int val;
     4     struct TreeNode *left;
     5     struct TreeNode *right;
     6     TreeNode(int x) :
     7             val(x), left(NULL), right(NULL) {
     8     }
     9 };*/
    10 class Solution {
    11 public:
    12     int TreeDepth(TreeNode* pRoot) {
    13         if (pRoot == nullptr) return 0;
    14         int level = 0;
    15         queue<TreeNode*> q1;
    16         queue<TreeNode*> q2;
    17         q1.push(pRoot);
    18         while (!q1.empty()) {
    19             level++;
    20             while (!q1.empty()) {
    21                 TreeNode* tmp = q1.front();
    22                 q1.pop();
    23                 if (tmp->left) q2.push(tmp->left);
    24                 if (tmp->right) q2.push(tmp->right);
    25             }
    26             swap(q1, q2);
    27         }
    28         return level;
    29     }
    30 };

    39.输入一棵二叉树,判断该二叉树是否是平衡二叉树。

     1 class Solution {
     2 private:
     3     bool IsBalanced(TreeNode* pRoot, int& depth) {
     4         if (pRoot == nullptr) {
     5             depth = 0;
     6             return true;
     7         }
     8         int leftDepth, rightDepth;
     9 
    10         if (IsBalanced(pRoot->left, leftDepth)
    11                 && IsBalanced(pRoot->right, rightDepth)) {
    12             if(abs(leftDepth - rightDepth)<2){
    13                 depth = max(leftDepth,rightDepth)+1;
    14                 return true;
    15             }
    16         }
    17         return false;
    18     }
    19 public:
    20     bool IsBalanced_Solution(TreeNode* pRoot) {
    21         if (pRoot == nullptr) return true;
    22         int depth = 0;
    23         return IsBalanced(pRoot, depth);
    24     }
    25 };

     40.一个整型数组里除了两个数字之外,其他的数字都出现了两次。请写程序找出这两个只出现一次的数字。

     1 class Solution {
     2 public:
     3     void FindNumsAppearOnce(vector<int> data, int* num1, int *num2) {
     4         int n = data.size();
     5         int xorAll = 0;
     6         for (int i = 0; i < n; i++) {
     7             xorAll ^= data[i];
     8         }
     9         //find first bit is 1
    10         unsigned int index = 0;
    11         //与或操作记得加括号
    12         while ((xorAll & 1) == 0 && index < 8 * sizeof(int)) {
    13             index++;
    14             xorAll = xorAll >> 1;
    15         }
    16         *num1 = 0;
    17         *num2 = 0;
    18         int splitNum = 1 << index;
    19         for (int i = 0; i < n; i++) {
    20             //与或操作要加括号
    21             if ((data[i] & splitNum) == 0) {
    22                 *num1 ^= data[i];
    23             } else {
    24                 *num2 ^= data[i];
    25             }
    26         }
    27     }
    28 };
  • 相关阅读:
    全屏透明遮罩层
    理解Javascript__理解undefined和null
    JS 对象属性相关--检查属性、枚举属性等
    js 空正则匹配任意一个位置
    a 标签 download 和 target 不配合
    Array.prototype.filter(Boolean)
    页面操作表单不会调用表单 value 属性的 set 函数
    Babel6.x的安装
    html 事件处理程序中的代码在执行时,有权访问全局作用域中的任何代码。
    js 常用 DOM 元素宽高
  • 原文地址:https://www.cnblogs.com/wxquare/p/6651755.html
Copyright © 2020-2023  润新知