Arrest
Time Limit: 1000ms
Memory Limit: 32768KB
This problem will be judged on HDU. Original ID: 441164-bit integer IO format: %I64d Java class name: Main
There are (N+1) cities on TAT island. City 0 is where police headquarter located. The economy of other cities numbered from 1 to N ruined these years because they are all controlled by mafia. The police plan to catch all the mafia gangs in these N cities all over the year, and they want to succeed in a single mission. They figure out that every city except city 0 lives a mafia gang, and these gangs have a simple urgent message network: if the gang in city i (i>1) is captured, it will send an urgent message to the gang in city i-1 and the gang in city i -1 will get the message immediately.
The mission must be carried out very carefully. Once a gang received an urgent message, the mission will be claimed failed.
You are given the map of TAT island which is an undirected graph. The node on the graph represents a city, and the weighted edge represents a road between two cities(the weight means the length). Police headquarter has sent k squads to arrest all the mafia gangs in the rest N cities. When a squad passes a city, it can choose to arrest the gang in the city or to do nothing. These squads should return to city 0 after the arrest mission.
You should ensure the mission to be successful, and then minimize the total length of these squads traveled.
The mission must be carried out very carefully. Once a gang received an urgent message, the mission will be claimed failed.
You are given the map of TAT island which is an undirected graph. The node on the graph represents a city, and the weighted edge represents a road between two cities(the weight means the length). Police headquarter has sent k squads to arrest all the mafia gangs in the rest N cities. When a squad passes a city, it can choose to arrest the gang in the city or to do nothing. These squads should return to city 0 after the arrest mission.
You should ensure the mission to be successful, and then minimize the total length of these squads traveled.
Input
There are multiple test cases.
Each test case begins with a line with three integers N, M and k, here M is the number of roads among N+1 cities. Then, there are M lines. Each of these lines contains three integers X, Y, Len, which represents a Len kilometer road between city X and city Y. Those cities including city 0 are connected.
The input is ended by “0 0 0”.
Restrictions: 1 ≤ N ≤ 100, 1 ≤ M ≤ 4000, 1 ≤ k ≤ 25, 0 ≤ Len ≤ 1000
Each test case begins with a line with three integers N, M and k, here M is the number of roads among N+1 cities. Then, there are M lines. Each of these lines contains three integers X, Y, Len, which represents a Len kilometer road between city X and city Y. Those cities including city 0 are connected.
The input is ended by “0 0 0”.
Restrictions: 1 ≤ N ≤ 100, 1 ≤ M ≤ 4000, 1 ≤ k ≤ 25, 0 ≤ Len ≤ 1000
Output
For each test case,output a single line with a single integer that represents the minimum total length of these squads traveled.
Sample Input
3 4 2 0 1 3 0 2 4 1 3 2 2 3 2 0 0 0
Sample Output
14
Source
解题:
1 #include <iostream> 2 #include <cstdio> 3 #include <cstring> 4 #include <cmath> 5 #include <algorithm> 6 #include <climits> 7 #include <vector> 8 #include <queue> 9 #include <cstdlib> 10 #include <string> 11 #include <set> 12 #include <stack> 13 #define LL long long 14 #define pii pair<int,int> 15 using namespace std; 16 const int maxn = 600; 17 const int INF = 0x3f3f3f; 18 struct arc{ 19 int to,flow,cost,next; 20 arc(int x = 0,int y = 0,int z = 0,int nxt = -1){ 21 to = x; 22 flow = y; 23 cost = z; 24 next = nxt; 25 } 26 }; 27 arc e[maxn*maxn]; 28 int head[maxn],d[maxn],p[maxn],dis[maxn][maxn]; 29 int tot,S,T,N,M,K; 30 void add(int u,int v,int flow,int cost){ 31 e[tot] = arc(v,flow,cost,head[u]); 32 head[u] = tot++; 33 e[tot] = arc(u,0,-cost,head[v]); 34 head[v] = tot++; 35 } 36 bool in[maxn]; 37 bool spfa(){ 38 queue<int>q; 39 const int inf = 0x3f3f3f3f; 40 for(int i = 0; i < maxn; ++i){ 41 p[i] = -1; 42 in[i] = false; 43 d[i] = inf; 44 } 45 d[S] = 0; 46 q.push(S); 47 while(!q.empty()){ 48 int u = q.front(); 49 q.pop(); 50 in[u] = false; 51 for(int i = head[u]; ~i; i = e[i].next){ 52 if(e[i].flow && d[e[i].to] > d[u] + e[i].cost){ 53 d[e[i].to] = d[u] + e[i].cost; 54 p[e[i].to] = i; 55 if(!in[e[i].to]){ 56 in[e[i].to] = true; 57 q.push(e[i].to); 58 } 59 } 60 } 61 } 62 return p[T] > -1; 63 } 64 int solve(){ 65 int ans = 0; 66 while(spfa()){ 67 int minF = INF; 68 for(int i = p[T]; ~i; i = p[e[i^1].to]) 69 minF = min(minF,e[i].flow); 70 for(int i = p[T]; ~i; i = p[e[i^1].to]){ 71 e[i].flow -= minF; 72 e[i^1].flow += minF; 73 } 74 ans += d[T]*minF; 75 } 76 return ans; 77 } 78 void Floyd(){ 79 for(int k = 0; k <= N; ++k){ 80 for(int i = 0; i <= N; ++i) 81 for(int j = 0; j <= N; ++j) 82 dis[i][j] = min(dis[i][j],dis[i][k]+dis[k][j]); 83 } 84 } 85 int main(){ 86 int u,v,w; 87 while(scanf("%d %d %d",&N,&M,&K),N||M||K){ 88 memset(head,-1,sizeof(head)); 89 for(int i = tot = 0; i <= N; ++i){ 90 for(int j = 0; j <= N; ++j) 91 dis[i][j] = i == j?0:INF; 92 } 93 for(int i = 0; i < M; ++i){ 94 cin>>u>>v>>w; 95 dis[u][v] = dis[v][u] = min(dis[u][v],w); 96 } 97 S = 2*N + 1; 98 T = S + 1; 99 Floyd(); 100 add(S,0,K,0); 101 add(0,T,K,0); 102 for(int i = 1; i <= N; ++i){ 103 add(0,i,1,dis[0][i]); 104 add(i+N,T,1,dis[0][i]); 105 add(i,i+N,1,-INF); 106 for(int j = i + 1; j <= N; ++j) 107 add(i + N,j,1,dis[i][j]); 108 } 109 cout<<solve() + N*INF<<endl; 110 } 111 return 0; 112 }