Description
When Xellos was doing a practice course in university, he once had to measure the intensity of an effect that slowly approached equilibrium. A good way to determine the equilibrium intensity would be choosing a sufficiently large number of consecutive data points that seems as constant as possible and taking their average. Of course, with the usual sizes of data, it‘s nothing challenging — but why not make a similar programming contest problem while we‘re at it?
You‘re given a sequence of n data points a1, ..., an. There aren‘t any big jumps between consecutive data points — for each 1 ≤ i < n, it‘s guaranteed that |ai + 1 - ai| ≤ 1.
A range [l, r] of data points is said to be almost constant if the difference between the largest and the smallest value in that range is at most 1. Formally, let M be the maximum and m the minimum value of ai for l ≤ i ≤ r; the range [l, r] is almost constant if M - m ≤ 1.
Find the length of the longest almost constant range.
Input
The first line of the input contains a single integer n (2 ≤ n ≤ 100 000) — the number of data points.
The second line contains n integers a1, a2, ..., an (1 ≤ ai ≤ 100 000).
Output
Print a single number — the maximum length of an almost constant range of the given sequence.
Sample Input
Input
51 2 3 3 2
Output
4
Input
115 4 5 5 6 7 8 8 8 7 6
Output
5
Hint
In the first sample, the longest almost constant range is [2, 5]; its length (the number of data points in it) is 4.
In the second sample, there are three almost constant ranges of length 4: [1, 4], [6, 9] and [7, 10]; the only almost constant range of the maximum length 5 is [6, 10].
思路:
一开始各种想LIS,但是CF再次证明了前两道题目全是想法题(虽然想法并不比算法简单= =~)
首先是要在一整个数段中找到其中的一个子数段,在它的M-m<=1的情况下使其len最大
那么这里就涉及到两个思维的关键点:
(1)不同状态之间的转换:为每个状态设置一个M和m,对于每一个后进入的点判断是否可以继续维持前一状态,如果可以就count++
(2)要意识到新状态的开始点并不一定是旧状态的结束点:可能有一点使得原来的状态不能够持续下去而结束了,但是并不意味着这一点就是新状态的开始点,在维持旧状态的过程中可能就出现了新状态的开始点,这点主要到了以后只要根据不同的情况去找那个开始点就OK了
#include <iostream> using namespace std; int m,M,n; int num[100007]; bool ok(int t) { if(m==M) { if(t==m) return true; else if(t == m-1||t == m+1) return true; else return false; } else { if(t==M||t==m) return true; else return false; } } int main() { while(cin>>n) { cin>>num[1]; m = num[1]; M = num[1]; int count = 1; int ans = 0; for(int i = 2;i <= n;i++) { cin>>num[i]; if(ok(num[i])) { if(m==M && num[i] == m-1) m = num[i]; else if(m==M && num[i] == m+1) M = num[i]; count++; } else { if(m == M) { M = m = num[i]; count = 1; } else { int pos; if(num[i] == num[i-1]+1) { M = num[i]; m = num[i-1]; for(int j = i-1;j >= 1;j--) { if(num[j] != num[i-1]) break; pos = j; } count = i-pos+1;//此时的count应该=当前的坐标-s段开始的坐标 } else if(num[i] == num[i-1]-1) { M = num[i-1]; m = num[i]; for(int j = i-1;j >= 1;j--) { if(num[j] != num[i-1]) break; pos = j; } count = i-pos+1;//同上 } else { M = m = num[i]; count = 1; } } } ans = max(ans,count); } cout<<ans<<endl; } return 0; }