POJ 2531 dfs递归枚举
Network Saboteur
| Time Limit: 2000MS | Memory Limit: 65536K | |
| Total Submissions: 9580 | Accepted: 4560 |
Description
A university network is composed of N computers. System administrators gathered information on the traffic between nodes, and carefully divided the network into two subnetworks in order to minimize traffic between parts.
A disgruntled computer science student Vasya, after being expelled from the university, decided to have his revenge. He hacked into the university network and decided to reassign computers to maximize the traffic between two subnetworks.
Unfortunately, he found that calculating such worst subdivision is one of those problems he, being a student, failed to solve. So he asks you, a more successful CS student, to help him.
The traffic data are given in the form of matrix C, where Cij is the amount of data sent between ith and jth nodes (Cij = Cji, Cii = 0). The goal is to divide the network nodes into the two disjointed subsets A and B so as to maximize the sum ∑Cij (i∈A,j∈B).
A disgruntled computer science student Vasya, after being expelled from the university, decided to have his revenge. He hacked into the university network and decided to reassign computers to maximize the traffic between two subnetworks.
Unfortunately, he found that calculating such worst subdivision is one of those problems he, being a student, failed to solve. So he asks you, a more successful CS student, to help him.
The traffic data are given in the form of matrix C, where Cij is the amount of data sent between ith and jth nodes (Cij = Cji, Cii = 0). The goal is to divide the network nodes into the two disjointed subsets A and B so as to maximize the sum ∑Cij (i∈A,j∈B).
Input
The first line of input contains a number of nodes N (2 <= N <= 20). The following N lines, containing N space-separated integers each, represent the traffic matrix C (0 <= Cij <= 10000).
Output file must contain a single integer -- the maximum traffic between the subnetworks.
Output file must contain a single integer -- the maximum traffic between the subnetworks.
Output
Output must contain a single integer -- the maximum traffic between the subnetworks.
Sample Input
3 0 50 30 50 0 40 30 40 0
Sample Output
90
题意:将给定图分成两个子图A,B,使A中结点i到B中结点j的距离和最大,输出最大值
初看以为是图论题,原来可以直接dfs过。。直接dfs递归枚举顺便剪枝
//poj2531_dfs递归枚举 #include<iostream> #include<cstdlib> #include<cstdio> #include<cstring> #include<algorithm> #include<queue> using namespace std; const int maxn=30; int N,C[maxn][maxn]; int dist[maxn]; int ans; bool vis[maxn];//1表示在集合A,0表示还在集合B void dfs(int cur,int step,int limit,int sum) { if(cur+limit-step>N) return;//这个剪枝貌似有点弱,只是从256ms优化到了188ms for(int i=1;i<=N;i++){ //从B添加结点cur掉A中 if(vis[i]) sum-=C[cur][i];//减少到A的边 else sum+=C[cur][i];//增加到B的边 } if(step==limit){ //到达限制,比较ans,返回 if(sum>ans) ans=sum; return; } vis[cur]=1; for(int i=cur+1;i<=N;i++){ dfs(i,step+1,limit,sum); //添加下一个 } for(int i=1;i<=N;i++){ //从A中拿回来 if(vis[i]) sum+=C[cur][i]; else sum-=C[cur][i]; } vis[cur]=0;//记得还原vis } int main() { while(cin>>N){ for(int i=1;i<=N;i++){ for(int j=1;j<=N;j++){ cin>>C[i][j]; dist[i]+=C[i][j]; } } ans=0; for(int i=1;i<=N/2;i++){ //枚举A中的结点个数 for(int st=1;st<=N;st++){ //递归枚举,st为起点 memset(vis,0,sizeof(vis)); dfs(st,1,i,0); } } cout<<ans<<endl; } return 0; }