nyoj 304(区间dp)

解题思路：这道题很明显是用区间dp，可是与以往的区间dp不同，因为对于区间[i,j]，机器人所处的位置要么在i，要么在j（因为机器人要移动到某一点才能关闭灯泡，所以对于某一段区间来说，机器人最后肯定在两个端点上，否则将不能成立），那么既然要表示在左端点还是右端点，所以我们再开三维数组dp[i][j][0]表示停留在i点，dp[i][j][1]表示停留在j点，那么剩下的就是状态方程了，跟普通的区间dp一样，很容易写出来。。具体的看代码

#include<iostream>#include<cstdio>#include<cstring>#include<algorithm>using namespace std;const int maxn = 1005;int n,v,sum[maxn];int dp[maxn][maxn][2],cost[maxn],dis[maxn];void solve(){memset(dp,0x1f,sizeof(dp));dp[v][v][0] = dp[v][v][1] = 0;for(int l = 2; l <= n; l++){for(int i = 1; i <= n; i++){int j = i + l - 1;if(j > n) break;dp[i][j][0] = min(dp[i][j][0],dp[i+1][j][0] + (sum[n]-sum[j]+sum[i])*(dis[i+1]-dis[i]));dp[i][j][0] = min(dp[i][j][0],dp[i+1][j][1] + (sum[n]-sum[j]+sum[i])*(dis[j]-dis[i]));dp[i][j][1] = min(dp[i][j][1],dp[i][j-1][0] + (sum[n]-sum[j-1]+sum[i-1])*(dis[j]-dis[i]));dp[i][j][1] = min(dp[i][j][1],dp[i][j-1][1] + (sum[n]-sum[j-1]+sum[i-1])*(dis[j]-dis[j-1]));}}printf("%d\n",min(dp[1][n][0],dp[1][n][1]));}int main(){while(scanf("%d",&n)!=EOF){scanf("%d",&v);for(int i = 1; i <= n; i++)scanf("%d%d",&dis[i],&cost[i]);sum[0] = 0;for(int i = 1; i <= n; i++)sum[i] = sum[i-1] + cost[i];solve();}return 0;}