#include<cstdio> #include<cstring> #include<algorithm> #include<queue> #include<iostream> using namespace std; const int maxn=100010; bool vis[maxn]; int n,m,s,t,x,y,z,f,dis[maxn],pre[maxn],last[maxn],flow[maxn],maxflow,mincost; //dis最小花费;pre每个点的前驱;last每个点的所连的前一条边;flow源点到此处的流量 //maxflow 最大流量 //mincost 最大流量的情况下的最小花费 struct Edge { int to,next,flow,dis;//flow流量 dis花费 } edge[maxn]; int head[maxn],num_edge; queue <int> q; void add_edge(int from,int to,int flow,int dis) { edge[++num_edge].next=head[from]; edge[num_edge].to=to; edge[num_edge].flow=flow; edge[num_edge].dis=dis; head[from]=num_edge; } bool spfa(int s,int t) { memset(dis,0x7f,sizeof(dis)); memset(flow,0x7f,sizeof(flow)); memset(vis,0,sizeof(vis)); q.push(s); vis[s]=1; dis[s]=0; pre[t]=-1; while (!q.empty()) { int now=q.front(); q.pop(); vis[now]=0; for (int i=head[now]; i!=-1; i=edge[i].next) { if (edge[i].flow>0 && dis[edge[i].to]>dis[now]+edge[i].dis)//正边 { dis[edge[i].to]=dis[now]+edge[i].dis; pre[edge[i].to]=now; last[edge[i].to]=i; flow[edge[i].to]=min(flow[now],edge[i].flow);// if (!vis[edge[i].to]) { vis[edge[i].to]=1; q.push(edge[i].to); } } } } return pre[t]!=-1; } void MCMF() { while (spfa(s,t)) { int now=t; maxflow+=flow[t]; mincost+=flow[t]*dis[t]; while (now!=s) { //从源点一直回溯到汇点 edge[last[now]].flow-=flow[t];//flow和dis容易搞混 edge[last[now]^1].flow+=flow[t]; now=pre[now]; } } } int main() { memset(head,-1,sizeof(head)); num_edge=-1; cin>>n>>m; s=1+n,t=n; for (int i=1; i<=m; i++) { //z 最大流量 //f 单位流量的费用 int a,b,c; cin>>a>>b>>c; add_edge(a+n,b,1,c); add_edge(b,a+n,0,-c); } for(int i=1; i<=n; i++) { add_edge(i,i+n,1,0); add_edge(i+n,i,0,0); } MCMF(); printf("%d %d",maxflow,mincost); return 0; }