Time Limit: 10000MS | Memory Limit: 65536K | |
Total Submissions: 8324 | Accepted: 3488 | |
Case Time Limit: 5000MS |
Description
Given an undirected graph, in which two vertices can be connected by multiple edges, what is the size of the minimum cut of the graph? i.e. how many edges must be removed at least to disconnect the graph into two subgraphs?
Input
Input contains multiple test cases. Each test case starts with two integers N and M (2 ≤ N ≤ 500, 0 ≤ M ≤ N × (N − 1) ⁄ 2) in one line, where N is the number of vertices. Following are M lines, each line contains M integers A, B and C (0 ≤ A, B < N, A ≠ B, C > 0), meaning that there C edges connecting vertices A and B.
Output
There is only one line for each test case, which contains the size of the minimum cut of the graph. If the graph is disconnected, print 0.
Sample Input
3 3
0 1 1
1 2 1
2 0 1
4 3
0 1 1
1 2 1
2 3 1
8 14
0 1 1
0 2 1
0 3 1
1 2 1
1 3 1
2 3 1
4 5 1
4 6 1
4 7 1
5 6 1
5 7 1
6 7 1
4 0 1
7 3 1
Sample Output
2
1
2
Source
#include<iostream>
#include<cstdio>
#include<cstring>
#include<algorithm>
using namespace std;
#define MAXN 555
#define inf 1<<30 int v[MAXN],dist[MAXN];
int map[MAXN][MAXN];
bool vis[MAXN];
int n,m; //求全局最小割的Stoer_Wanger算法
int Stoer_Wanger(int n)
{
int res=inf;
for(int i=;i<n;i++)v[i]=i;
while(n>){
int k=,pre=;//pre用来表示之前加入A集合的点,我们每次都以0点为第一个加入A集合的点
memset(vis,false,sizeof(vis));
memset(dist,,sizeof(dist));
for(int i=;i<n;i++){
k=-;
for(int j=;j<n;j++){
if(!vis[v[j]]){
dist[v[j]]+=map[v[pre]][v[j]];//dis数组用来表示该点与A集合中所有点之间的边的长度之和
if(k==-||dist[v[k]]<dist[v[j]]){
k=j;
}
}
}
vis[v[k]]=true;
if(i==n-){
res=min(res,dist[v[k]]);
//将该点合并到pre上,相应的边权就要合并
for(int j=;j<n;j++){
map[v[pre]][v[j]]+=map[v[j]][v[k]];
map[v[j]][v[pre]]+=map[v[j]][v[k]];
}
v[k]=v[--n];//删除最后一个点
}
pre=k;
}
}
return res;
} int main()
{
int u,v,w,ss;
while(~scanf("%d%d",&n,&m)){ memset(map,,sizeof(map));
while(m--){
scanf("%d%d%d",&u,&v,&w); map[u][v]+=w;
map[v][u]+=w;
}
int ans=Stoer_Wanger(n);
printf("%d\n",ans);
}
return ;
}