Given n non-negative integers a1, a2, ..., an, where each represents a point at coordinate (i, ai). n vertical lines are drawn such that the two endpoints of line i is at (i, ai) and (i, 0). Find two lines, which together with x-axis forms a container, such that the container contains the most water.
Note: You may not slant the container.
最直接的思路是暴力枚举法,枚举容器的两个边。O(n^2)。超时。
/********************************* * 日期:2015-01-21 * 作者:SJF0115 * 题目: 11.Container With Most Water * 网址:https://oj.leetcode.com/problems/container-with-most-water/ * 结果:Time Limit Exceeded * 来源:LeetCode * 博客: **********************************/ #include <iostream> #include <algorithm> #include <vector> using namespace std; class Solution { public: int maxArea(vector<int> &height) { int count = height.size(); if(count <= 1){ return 0; }//if int maxArea = 0; // 左边界 for(int i = 0;i < count-1;++i){ // 右边界 for(int j = i+1;j < count;++j){ int area = (j - i) * min(height[i],height[j]); maxArea = max(area,maxArea); }//for }//for return maxArea; } }; int main(){ Solution solution; vector<int> vec; vec.push_back(2); vec.push_back(3); vec.push_back(1); vec.push_back(4); vec.push_back(2); int result = solution.maxArea(vec); // 输出 cout<<result<<endl; return 0; }
/********************************* * 日期:2015-01-21 * 作者:SJF0115 * 题目: 11.Container With Most Water * 网址:https://oj.leetcode.com/problems/container-with-most-water/ * 结果:AC * 来源:LeetCode * 博客: **********************************/ #include <iostream> #include <algorithm> #include <vector> using namespace std; class Solution { public: int maxArea(vector<int> &height) { int count = height.size(); if(count <= 1){ return 0; }//if int maxArea = 0,area = 0; // 二分查找变形 for(int i = 0,j = count-1;i < j;){ // 去掉低的一边 if(height[i] > height[j]){ area = (j - i) * height[j]; --j; }//if else{ area = (j - i) * height[i]; ++i; }//else // 更新最大面积 if(area > maxArea){ maxArea = area; }//if }//for return maxArea; } }; int main(){ Solution solution; vector<int> vec; vec.push_back(2); vec.push_back(3); vec.push_back(1); vec.push_back(4); vec.push_back(2); int result = solution.maxArea(vec); // 输出 cout<<result<<endl; return 0; }
class Solution { public: int maxArea(vector<int> &height) { int count = height.size(); if(count <= 1){ return 0; }//if int index,maxArea = 0,area = 0; // 二分查找变形 for(int i = 0,j = count-1;i < j;){ // 去掉低的一边 if(height[i] > height[j]){ area = (j - i) * height[j]; index = j; // 向左移动,直到找到一个比height[index]高的 while(height[j] <= height[index]){ --j; }//while }//if else{ area = (j - i) * height[i]; index = i; // 向右移动,直到找到一个比height[index]高的 while(height[i] <= height[index]){ ++i; }//while }//else // 更新最大面积 if(area > maxArea){ maxArea = area; }//if }//for return maxArea; } };
构建结构体包含height和height在原数组中的位置
struct Node
{
int height;
int index;
};
对该结构体数组按照height的值递增排序,假设排序后的数组为vec.
假设f[i] 表示数组vec[i,i+1,…]内所有height按照原来的位置顺序排列好以后的最大水量
那么f[i-1]可以在O(1)时间内计算出来:因为vec[i-1].height 小于vec[i,i+1,…]内的所有height,所以以vec[i-1].index为边界的容器高度为vec[i-1].height,最大水量只需要分别计算vec[i,i+1,…]内按原始位置排列最前面和最后面的height,取两者的较大值。即下图中,黑色是最低的,要计算以黑色为边界的容器的最大水量,只需要分别和第一个和最后一个计算,去两者较大值
class Solution { struct Node { int height; int index; Node(int h, int i):height(h),index(i){} Node(){} bool operator < (const Node &a)const { return height < a.height; } }; public: int maxArea(vector<int> &height) { int res = 0, n = height.size(); if(n <= 1)return 0; vector<Node>vec(n); for(int i = 0; i < n; i++) { vec[i].index = i; vec[i].height = height[i]; } sort(vec.begin(), vec.end()); int start = vec[n-1].index, end = start;//记录已经处理完的height的原始位置的左右端点 for(int i = n-2; i >= 0 ; i--) { start = min(start, vec[i].index); end = max(end, vec[i].index); res = max(res, max(vec[i].height*(vec[i].index - start), vec[i].height*(end - vec[i].index))); } return res; } };
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[LeetCode]11.Container With Most Water
原文地址:http://blog.csdn.net/sunnyyoona/article/details/42965153