• 洛谷P2853 [USACO06DEC]牛的野餐Cow Picnic


    题目描述

    The cows are having a picnic! Each of Farmer John's K (1 ≤ K ≤ 100) cows is grazing in one of N (1 ≤ N ≤ 1,000) pastures, conveniently numbered 1...N. The pastures are connected by M (1 ≤ M ≤ 10,000) one-way paths (no path connects a pasture to itself).

    The cows want to gather in the same pasture for their picnic, but (because of the one-way paths) some cows may only be able to get to some pastures. Help the cows out by figuring out how many pastures are reachable by all cows, and hence are possible picnic locations.

    K(1≤K≤100)只奶牛分散在N(1≤N≤1000)个牧场.现在她们要集中起来进餐.牧场之间有M(1≤M≤10000)条有向路连接,而且不存在起点和终点相同的有向路.她们进餐的地点必须是所有奶牛都可到达的地方.那么,有多少这样的牧场呢?

    输入输出格式

    输入格式:

    Line 1: Three space-separated integers, respectively: K, N, and M

    Lines 2..K+1: Line i+1 contains a single integer (1..N) which is the number of the pasture in which cow i is grazing.

    Lines K+2..M+K+1: Each line contains two space-separated integers, respectively A and B (both 1..N and A != B), representing a one-way path from pasture A to pasture B.

    输出格式:

    Line 1: The single integer that is the number of pastures that are reachable by all cows via the one-way paths.

    输入输出样例

    输入样例#1:
    2 4 4
    2
    3
    1 2
    1 4
    2 3
    3 4
    输出样例#1:
    2

    说明

    The cows can meet in pastures 3 or 4.

    以每一头牛为起点,DFS标记所有能到达的点。如果一个点被标记的次数等于牛总数,那么将它计入答案。

     1 /*by SilverN*/
     2 #include<iostream>
     3 #include<algorithm>
     4 #include<cstring>
     5 #include<cstdio>
     6 #include<cmath>
     7 #include<vector>
     8 using namespace std;
     9 const int mxn=1010;
    10 int read(){
    11     int x=0,f=1;char ch=getchar();
    12     while(ch<'0' || ch>'9'){if(ch=='-')f=-1;ch=getchar();}
    13     while(ch>='0' && ch<='9'){x=x*10+ch-'0';ch=getchar();}
    14     return x*f;
    15 }
    16 vector<int>e[mxn];
    17 int cnt[mxn];
    18 bool vis[mxn];
    19 void DFS(int u){
    20     vis[u]=1;
    21     cnt[u]++;
    22     for(int i=0;i<e[u].size();i++){
    23         int v=e[u][i];
    24         if(!vis[v]){
    25             DFS(v);
    26         }
    27     }
    28     return;
    29 }
    30 int K,n,m;
    31 int cow[mxn];
    32 int main(){
    33     int i,j,u,v;
    34     K=read();n=read();m=read();
    35     for(i=1;i<=K;i++){
    36         cow[i]=read();
    37     }
    38     for(i=1;i<=m;i++){
    39         u=read();v=read();
    40         e[u].push_back(v);
    41     }
    42     for(i=1;i<=K;i++){
    43         memset(vis,0,sizeof vis);
    44         DFS(cow[i]);
    45     }
    46     int ans=0;
    47     for(i=1;i<=n;i++)
    48         if(cnt[i]==K)ans++;
    49     cout<<ans<<endl;
    50     return 0;
    51 }
  • 相关阅读:
    P2567 [SCOI2010]幸运数字 DFS+容斥定理
    Codeforces Round #462 (Div. 2) C DP
    Codeforces Round #428 (Div. 2) C. dfs
    POJ 2079 最大三角形面积(凸包)
    POJ 3608 凸包间最短距离(旋转卡壳)
    2018年全国多校算法寒假训练
    Educational Codeforces Round 37 E. Connected Components?(图论)
    UVa 1440:Inspection(带下界的最小流)***
    BZOJ 1483:[HNOI2009]梦幻布丁(链表启发式合并)
    PAT L3-016:二叉搜索树的结构(暴力)
  • 原文地址:https://www.cnblogs.com/SilverNebula/p/6058346.html
Copyright © 2020-2023  润新知