Codeforces Round #208 (Div. 二)D. Dima and Hares
http://codeforces.com/contest/358/problem/D
Dima liked the present he got from Inna very much. He liked the present he got from Seryozha even more.
Dima felt so grateful to Inna about the present that he decided to buy her n hares. Inna was very happy. She lined up the hares in a row, numbered them from 1 to n from left to right and started feeding them with carrots. Inna was determined to feed each hare exactly once. But in what order should she feed them?
Inna noticed that each hare radiates joy when she feeds it. And the joy of the specific hare depends on whether Inna fed its adjacent hares before feeding it. Inna knows how much joy a hare radiates if it eats when either both of his adjacent hares are hungry, or one of the adjacent hares is full (that is, has been fed), or both of the adjacent hares are full. Please note that hares number 1 and n don't have a left and a right-adjacent hare correspondingly, so they can never have two full adjacent hares.
Help Inna maximize the total joy the hares radiate. :)
The first line of the input contains integer n (1 ≤ n ≤ 3000) — the number of hares. Then three lines follow, each line has n integers. The first line contains integers a1 a2 ... an. The second line contains b1, b2, ..., bn. The third line contains c1, c2, ..., cn. The following limits are fulfilled: 0 ≤ ai, bi, ci ≤ 105.
Number ai in the first line shows the joy that hare number i gets if his adjacent hares are both hungry. Number bi in the second line shows the joy that hare number i radiates if he has exactly one full adjacent hare. Number сi in the third line shows the joy that hare number i radiates if both his adjacent hares are full.
In a single line, print the maximum possible total joy of the hares Inna can get by feeding them.
4 1 2 3 4 4 3 2 1 0 1 1 0
13
7 8 5 7 6 1 8 9 2 7 9 5 4 3 1 2 3 3 4 1 1 3
44
3 1 1 1 1 2 1 1 1 1
4
分析:
注意此题的题意理解,题目是要找到一个feed 的顺序,也就是每个hare只有feed之后才有收益。
貌似第一眼看起来,排列是指数级别的复杂度,这道题有一个非常明显的标志,每个hare只和相邻的hare有关系,由此复杂度剧减。
而实际上,也无需求出真正的feed序列,只需要计算出每个hare和相邻hare的feed的先后顺序就可以!
动态规划:
dp[i][0]表示hare i 比 i-1 后feed 情况下, 前i-1 个 hare 的最大收益
dp[i][1]表示hare
i 比 i-1 先feed 情况下, 前i-1 个 hare 的最大收益
cst[k][i]表示输入矩阵的第k行,对应的收益值,具体背景参考题目描述。
转移方程: 分别考虑i-1比i-2是先feed还是后feed
dp[i][0]= max(dp[i-1][0]+cst[1][i-1],dp[i-1][1]+cst[0][i-1]);
dp[i][1]= max(dp[i-1][0]+cst[2][i-1],dp[i-1][1]+cst[1][i-1]);
边界条件:(边界条件可以放入转移方程中,参考代码)
dp[1][0]=cst[0][0]; 1比0后feed,考虑0的收益。
dp[1][1]=cst[1][0]; 1比0先feed,考虑0的收益。
源代码:
#include<algorithm>
#include<iostream>
#include<stdio.h>
#include<stdlib.h>
#include<cstring>
#include<cmath>
using namespace std;
#define N 3005
#define INF 1e8
int dp[N][2];
int cst[3][N];
//dp[i][0]表示i比i-1后feed,前i-1的最大收益
int main()
{
int n;
scanf("%d",&n);
for(int j=0;j<3;j++)
for(int i=0;i<n;i++)
scanf("%d",&cst[j][i]);
dp[0][0]=-INF;
dp[0][1]=0;
//dp[1][0]=cst[0][0];
//dp[1][1]=cst[1][0];
for(int i=1;i<=n;i++){
dp[i][0]= max(dp[i-1][0]+cst[1][i-1],dp[i-1][1]+cst[0][i-1]);
dp[i][1]= max(dp[i-1][0]+cst[2][i-1],dp[i-1][1]+cst[1][i-1]);
}
printf("%d\n",dp[n][0]);
//system("pause");
return 0;
}