POJ 3281 Dining (网络流)
2017-07-29 15:40
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POJ 3281 Dining (网络流)
Description
Cows are such finicky eaters. Each cow has a preference for certain foods and drinks, and she will consume no others.Farmer John has cooked fabulous meals for his cows, but he forgot to check his menu against their preferences. Although he might not be able to stuff everybody, he wants to give a complete meal of both food and drink to as many cows as possible.
Farmer John has cooked F (1 ≤ F ≤ 100) types of foods and prepared D (1 ≤ D ≤ 100) types of drinks. Each of his N (1 ≤ N ≤ 100) cows has decided whether she is willing to eat a particular food or drink a particular drink. Farmer John must assign a food type and a drink type to each cow to maximize the number of cows who get both.
Each dish or drink can only be consumed by one cow (i.e., once food type 2 is assigned to a cow, no other cow can be assigned food type 2).
Input
Line 1: Three space-separated integers: N, F, and DLines 2.. N+1: Each line i starts with a two integers Fi and Di, the number of dishes that cow i likes and the number of drinks that cow i likes. The next Fi integers denote the dishes that cow i will eat, and the Di integers following that denote the drinks that cow i will drink.
Output
Line 1: A single integer that is the maximum number of cows that can be fed both food and drink that conform to their wishesSample Input
4 3 32 2 1 2 3 1
2 2 2 3 1 2
2 2 1 3 1 2
2 1 1 3 3
Sample Output
3Http
POJ:https://vjudge.net/problem/POJ-3281Source
网络流题目大意
有n只牛,F种食物,D种饮料,每一只牛喜欢若干食物和饮料。现在要给每一只牛分配食物和饮料,每一种食物或饮料只够一只牛吃。若一只牛吃到了它喜欢的食物和饮料(注意是两个都要符合),它就会很开心。现在求最多能使多少只牛开心解决思路
这道题与Luogu1402有些类似,但不知道为什么我用二分图的方法会WrongAnswer。所以我们用网络流最大流来解决。对于每一只牛i我们把其拆成两个点i和i+n,在i与i+n中连一条流量为1的边。这样是为了保证一只牛只吃到一种食物和一种饮料。再在对应的食物与牛i连容量为1的边,在对应的牛与饮料连容量为1的边。最后再连上超级源点和超级汇点就可以了。
虽然笔者是使用EK算法实现的网络流最大流,但是更推荐效率更优的Dinic算法,具体请移步我的这篇文章
代码
EK算法#include<iostream> #include<cstdio> #include<cstdlib> #include<cstring> #include<algorithm> #include<queue> using namespace std; const int maxN=510; const int maxM=2147483647; const int inf=2147483647; int n,F,D; int G[maxN][maxN]; int Flow[maxN]; int Path[maxN]; bool bfs(); int main() { memset(G,0,sizeof(G)); scanf("%d%d%d",&n,&F,&D); for (int i=1;i<=n;i++)//先在拆出来的牛点之间连边 G[i][i+n]=1; for (int i=1;i<=n;i++) { int n1,n2; scanf("%d%d",&n1,&n2); for (int j=1;j<=n1;j++) { int v; scanf("%d",&v); G[2*n+v][i]=1;//连牛与食物 } for (int j=1;j<=n2;j++) { int v; scanf("%d",&v); G[i+n][2*n+F+v]=1;//连牛与饮料 } } for (int i=1;i<=F;i++) G[0][n*2+i]=1;//连源点 for (int i=1;i<=D;i++) G[n*2+F+i][n*2+F+D+1]=1;//连汇点 int Ans=0; while (bfs())//EK算法 { int di=Flow[n*2+F+D+1]; int now=n*2+F+D+1; int last=Path[now]; while (now!=0) { G[last][now]-=di; G[now][last]+=di; now=last; last=Path[now]; } Ans++; } cout<<Ans<<endl; return 0; } bool bfs() { memset(Path,-1,sizeof(Path)); memset(Flow,0,sizeof(Flow)); Flow[0]=inf; queue<int> Q; while (!Q.empty()) Q.pop(); Q.push(0); do { int u=Q.front(); Q.pop(); for (int i=0;i<=2*n+F+D+1;i++) { if ((Path[i]==-1)&&(G[u][i]>0)) { Path[i]=u; Q.push(i); Flow[i]=min(Flow[u],G[u][i]); } } } while (!Q.empty()); if (Flow[n*2+F+D+1]==0) return 0; return 1; }
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