Language: Cable TV Network
Description The interconnection of the relays in a cable TV network is bi-directional. The network is connected if there is at least one interconnection path between each pair of relays present in the network. Otherwise the network is disconnected. An empty network or a network with a single relay is considered connected. The safety factor f of a network with n relays is:
1. n, if the net remains connected regardless the number of relays removed from the net. 2. The minimal number of relays that disconnect the network when removed. For example, consider the nets from figure 1, where the circles mark the relays and the solid lines correspond to interconnection cables. The network (a) is connected regardless the number of relays that are removed and, according to rule (1), f=n=3. The network (b) is disconnected when 0 relays are removed, hence f=0 by rule (2). The network (c) is disconnected when the relays 1 and 2 or 1 and 3 are removed. The safety factor is 2. Input Write a program that reads several data sets from the standard input and computes the safety factor for the cable networks encoded by the data sets. Each data set starts with two integers: 0<=n<=50,the number of relays in the net, and m, the number of cables in the net. Follow m data pairs (u,v), u < v, where u and v are relay identifiers (integers in the range 0..n-1). The pair (u,v) designates the cable that interconnects the relays u and v. The pairs may occur in any order.Except the (u,v) pairs, which do not contain white spaces, white spaces can occur freely in input. Input data terminate with an end of file and are correct. Output For each data set, the program prints on the standard output, from the beginning of a line, the safety factor of the encoded net. Sample Input 0 0 1 0 3 3 (0,1) (0,2) (1,2) 2 0 5 7 (0,1) (0,2) (1,3) (1,2) (1,4) (2,3) (3,4) Sample Output 0 1 3 0 2 Hint The first data set encodes an empty network, the second data set corresponds to a network with a single relay, and the following three data sets encode the nets shown in figure 1. Source |
给你一个无向图,这个图有一个安全系数f,f的定义是:
给你一个图,求出f
参照ihge2k的题解。
图的连通度分为点连通度和边连通度:
并且,有向图和无向图的连通度求法不同,因此还要分开考虑(对于混合图,只需将其中所有的无向边按照
无向图的办法处理、有向边按照有向图的办法处理即可)。
于是对于本题我们可以枚举源点和汇点求解,时间复杂度\(o(n^6)\)。scanf
的要求挺严格的,空格都要管。
#include<iostream>
#include<cstring>
#include<queue>
#define il inline
#define co const
using namespace std;
co int N=51,M=2e4;
int n,m,s,t;
int a[M],b[M],d[N*2];
int head[N*2],edge[M],leng[M],next[M],tot;
il void add(int x,int y,int z){
edge[++tot]=y,leng[tot]=z,next[tot]=head[x],head[x]=tot;
edge[++tot]=x,leng[tot]=0,next[tot]=head[y],head[y]=tot;
}
bool bfs(){
memset(d,0,sizeof d),d[s]=1;
queue<int> q;q.push(s);
while(q.size()){
int x=q.front();q.pop();
for(int i=head[x];i;i=next[i]){
int y=edge[i],z=leng[i];
if(z&&!d[y]) d[y]=d[x]+1,q.push(y);
}
}
return d[t]!=0;
}
int dfs(int x,int capc){
if(x==t) return capc;
int rest=capc;
for(int i=head[x];i&&rest;i=next[i]){
int y=edge[i],z=leng[i];
if(z&&d[y]==d[x]+1){
int delta=dfs(y,min(rest,z));
if(!delta) d[y]=0;
leng[i]-=delta,leng[i^1]+=delta;
rest-=delta;
}
}
return capc-rest;
}
void Cable_TV_Network(){
for(int i=0;i<m;++i) scanf(" (%d,%d)",a+i,b+i)/*,fprintf(stderr,"in %d %d\n",a[i],b[i])*/;
int ans=1e9;
for(s=0;s<n;++s)for(t=0;t<s;++t)if(s!=t){
memset(head,0,sizeof head),tot=1;
for(int i=0;i<n;++i)
i==s||i==t?add(i,i+n,1e9):add(i,i+n,1);
for(int i=0;i<m;++i)
add(a[i]+n,b[i],1e9),add(b[i]+n,a[i],1e9);
int maxflow=0;
while(bfs())
for(int delta;delta=dfs(s,1e9);) maxflow+=delta;
ans=min(ans,maxflow);
}
if(n<=1||ans==1e9) ans=n;
printf("%d\n",ans);
}
int main(){
while(~scanf("%d%d",&n,&m)) Cable_TV_Network();
return 0;
}
原文:https://www.cnblogs.com/autoint/p/11002286.html