HDU 3251 Being a Hero 最小割

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Problem Description
You are the hero who saved your country. As promised, the king will give you some cities of the country, and you can choose which ones to own!

But don‘t get too excited. The cities you take should NOT be reachable from the capital -- the king does not want to accidentally enter your area. In order to satisfy this condition, you have to destroy some roads. What‘s worse, you have to pay for that -- each road is associated with some positive cost. That is, your final income is the total value of the cities you take, minus the total cost of destroyed roads.

Note that each road is a unidirectional, i.e only one direction is available. Some cities are reserved for the king, so you cannot take any of them even if they‘re unreachable from the capital. The capital city is always the city number 1.
 

 

Input
The first line contains a single integer T (T <= 20), the number of test cases. Each case begins with three integers n, m, f (1 <= f < n <= 1000, 1 <= m < 100000), the number of cities, number of roads, and number of cities that you can take. Cities are numbered 1 to n. Each of the following m lines contains three integers u, v, w, denoting a road from city u to city v, with cost w. Each of the following f lines contains two integers u and w, denoting an available city u, with value w.
 

 

Output
For each test case, print the case number and the best final income in the first line. In the second line, print e, the number of roads you should destroy, followed by e integers, the IDs of the destroyed roads. Roads are numbered 1 to m in the same order they appear in the input. If there are more than one solution, any one will do.
 

 

Sample Input
2
4 4 2
1 2 2
1 3 3
3 2 4
2 4 1
2 3
4 4
4 4 2
1 2 2
1 3 3
3 2 1
2 4 1
2 3
4 4
 

 

Sample Output
Case 1:
3 1 4
Case 2:
4 2 1 3
题意:n个城市,m条有向带权边。可以选择f个城市,1是首都,要切断1和选择城市的路线,总价值是选择城市的价值减去摧毁的道路,求最大价值。
将带权的点连接到t上,容量就是该点的权值,s连接1,容量是INF。求最小割,利用总的点权和减去最小割就是获得的收益。
 
  1 #include <iostream>
  2 #include <string.h>
  3 #include <stdio.h>
  4 #include <vector>
  5 #include <queue>
  6 #define INF 0x3f3f3f3f
  7 using namespace std;
  8 const int M = 210010;
  9 struct Nod {
 10     int to, cap, next, index;
 11 }edge[M];
 12 int T, n, m, f, s, t;
 13 int head[M], level[M], vis[M], iter[M], sum, num;
 14 void init() {
 15     memset(head, -1, sizeof(head));
 16     memset(vis, 0, sizeof(vis));
 17     num = 0;
 18     sum = 0;
 19 }
 20 void add_edge(int u, int v, int cap, int index) {
 21     edge[num].to = v; edge[num].cap = cap; edge[num].next = head[u]; edge[num].index = index; head[u] = num++;
 22     edge[num].to = u; edge[num].cap = 0; edge[num].next = head[v]; edge[num].index = -1; head[v] = num++;
 23 }
 24 bool bfs(int s, int t) {
 25     memset(level, -1, sizeof(level));
 26     level[s] = 0;
 27     queue<int> que;
 28     que.push(s);
 29     while(!que.empty()) {
 30         int v = que.front();
 31         que.pop();
 32         for(int i = head[v]; i != -1; i = edge[i].next) {
 33             int u = edge[i].to;
 34             if(level[u] < 0 && edge[i].cap) {
 35                 level[u] = level[v] + 1;
 36                 que.push(u);
 37             }
 38         }
 39     }
 40     return level[t] != -1;
 41 }
 42 int dfs(int v, int t, int f) {
 43     if(v == t) return f;
 44     for(int &i = iter[v]; i != -1; i = edge[i].next) {
 45         int u = edge[i].to;
 46         if(level[u] > level[v] && edge[i].cap > 0) {
 47             int d = dfs(u, t, min(f, edge[i].cap));
 48             if(d > 0) {
 49                 edge[i].cap -= d;
 50                 edge[i^1].cap += d;
 51                 return d;
 52             }
 53         }
 54     }
 55     level[v] = -1;
 56     return 0;
 57 }
 58 int max_flow(int s, int t) {
 59     int flow = 0;
 60     while(bfs(s, t)) {
 61         for(int i = 0; i <= t + 10; i ++) iter[i] = head[i];
 62         int f = 0;
 63         while((f = dfs(s, t, INF)) > 0) flow += f;
 64     }
 65     return flow;
 66 }
 67 void dfs(int u, int fa) {
 68     for(int i = head[u]; i != -1; i = edge[i].next) {
 69         int v = edge[i].to;
 70         if(!vis[v] && edge[i].cap) {
 71             vis[v] = true;
 72             dfs(v, u);
 73         }
 74     }
 75 }
 76 int main() {
 77     ios::sync_with_stdio(false);
 78     // cin >> T;
 79     scanf("%d", &T);
 80     int cas = 1;
 81     while(T--) {
 82         // cin >> n >> m >> f;
 83         scanf("%d %d %d", &n, &m, &f);
 84         init();
 85         add_edge(s, 1, INF, -1);
 86         s = 0, t = n + 1;
 87         for(int i = 1; i <= m; i ++) {
 88             int u, v, w;
 89             scanf("%d %d %d", &u, &v, &w);
 90             add_edge(u, v, w, i);
 91         }
 92         for(int i = 1; i <= f; i ++) {
 93             int u, w;
 94             scanf("%d %d", &u, &w);
 95             add_edge(u, t, w, -1);
 96             sum += w;
 97         }
 98         int ans = max_flow(s, t);
 99         ans = sum - ans;
100         printf("Case %d: %d\n",cas++, ans);
101         vis[1] = true;
102         dfs(1, -1);
103         queue<int> que;
104         for(int i = 0; i < num; i += 2) {//0正1负
105             if(vis[edge[i^1].to] && !vis[edge[i].to] && edge[i].index != -1) que.push(edge[i].index);
106         }
107         printf("%d",(int)que.size());
108         while(!que.empty()) {
109             printf(" %d",que.front());
110             que.pop();
111         }
112         printf("\n");
113     }
114     return 0;
115 }

 

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