Reactor Cooling ZOJ - 2314 上下界网络流
Code:
#include<cstdio> #include<algorithm> #include<vector> #include<queue> #include<iostream> #include<cstring> using namespace std; const int maxn=600; const int INF=1000000; # define pb push_back int A[maxn],mapp[INF],bass[INF]; int s,t; struct Edge{ int from,to,cap; Edge(int u,int v,int c):from(u),to(v),cap(c) {} }; vector<Edge>edges; struct Dicnic{ vector<int>G[maxn]; int d[maxn],vis[maxn],cur[maxn]; queue<int>Q; void init(){ for(int i=0;i<maxn;++i)G[i].clear(); edges.clear(); } void addedge(int u,int v,int c,int cnt){ edges.pb(Edge(u,v,c)); //正向弧 edges.pb(Edge(v,u,0)); //反向弧 int m=edges.size(); G[u].pb(m-2); G[v].pb(m-1); if(cnt>0)mapp[cnt]=m-1; } int BFS() { memset(vis,0,sizeof(vis)); d[s]=0,vis[s]=1;Q.push(s); while(!Q.empty()){ int u=Q.front();Q.pop(); int sz=G[u].size(); for(int i=0;i<sz;++i){ Edge e=edges[G[u][i]]; if(!vis[e.to]&&e.cap>0){ d[e.to]=d[u]+1,vis[e.to]=1; Q.push(e.to); } } } return vis[t]; } int dfs(int x,int a){ if(x==t)return a; int sz=G[x].size(); int f,flow=0; for(int i=cur[x];i<sz;++i){ Edge e=edges[G[x][i]]; cur[x]=i; if(d[e.to]==d[x]+1&&e.cap>0){ f=dfs(e.to,min(a,e.cap)); if(f) { int u=G[x][i]; a-=f; edges[u].cap-=f; edges[u^1].cap+=f; flow+=f; if(a==0)break; } } } return flow; } int maxflow(){ int ans=0; while(BFS()){ memset(cur,0,sizeof(cur)); ans+=dfs(s,INF); } return ans; } }op; int main(){ int T;cin>>T; s=0,t=420; for(int cas=1;cas<=T;++cas){ memset(A,0,sizeof(A)); op.init(); int n,m,sum=0; cin>>n>>m; for(int i=1;i<=m;++i){ int a,b,c,d; cin>>a>>b>>c>>d; bass[i]=c; op.addedge(a,b,d-c,i); A[a]-=c,A[b]+=c; } for(int i=1;i<=m;++i){ if(A[i]>0){op.addedge(s,i,A[i],0);sum+=A[i];} if(A[i]<0)op.addedge(i,t,-A[i],0); } int flow=op.maxflow(); if(flow==sum){ cout<<"YES"<<endl; for(int i=1;i<m;++i)cout<<edges[mapp[i]].cap+bass[i]<<endl; cout<<edges[mapp[m]].cap+bass[m]; if(cas!=T)cout<<endl; }else cout<<"NO"<<endl; if(cas!=T)cout<<endl; } return 0; }