HDU - 3873 Invade the Mars (帶有限制的最短路）

Invade the Mars

Time Limit: 5000/2000 MS (Java/Others)    Memory Limit: 365768/165536 K (Java/Others)
Total Submission(s): 2695    Accepted Submission(s): 775

Problem Description

It's now the year 21XX,when the earth will explode soon.The evil U.S. decided to invade the Mars to save their lives.
But the childlike Marsmen never keeps any army,because war never take place on the Mars.So it's very convenient for the U.S. to act the action.
Luckily,the Marsmen find out the evil plan before the invadation,so they formed a defense system.The system provides enchantment for some citys,and the enchantment generator for city A maybe set in city B,and to make things worse,both city B and C and more will provide echantment for city A.
The satelite of U.S. has got the map of the Mars.And they knows that when they enter a city,they can destory all echantment generator in this city at once,and they can enter a city only if they has destoryed all enchantment generator for this city,but troops can stay at the outside of the city and can enter it at the moment its echantment is destoryed.Of course the U.S. army will face no resistance because the Mars keep no army,so troops can invade in many way at the same time.
Now the U.S. will invade the Mars,give you the map,your task is to calculate the minimium time to enter the capital of the Mars.

Input

The first line contains an integer T,which is the number of test cases.
For each testcase:
The first line contains two integers N and M,1<=N<=3000,1<=M<=70000,the cities is numbered from 1 to N and the U.S. landed on city 1 while the capital of the Mars is city N.
The next M lines describes M paths on the Mars.Each line contains three integers ai,bi and wi,indicates there is a unidirectional path form ai to bi lasts wi minutes(1<=wi<=10^8).
The next N lines describes N citys,the 1+M+i line starts with a integer li,followed with li integers, which is the number of cities has a echantment generator protects city i.
It's guaranteed that the city N will be always reachable.

Output

For each case,print a line with a number indicating the minimium time needed to enter the capital of the Mars.

Sample Input

1 6 6 1 2 1 1 4 3 2 3 1 2 5 2 4 6 2 5 3 2 0 0 0 1 3 0 2 3 5

Sample Output

5

Hint

The Map is like this: We can follow these ways to achieve the fastest speed: 1->2->3,1->2->5,1->4->6.

 

Source

2011 Multi-University Training Contest 4 - Host by SDU

在最短路的基礎上加了一個限制，必須到達其它某些點才能經過某個點，用in數組表示經過這個點必須到達其它點的數量，Max 數組表示要到達這些所有必須要到達的點的最大時間，一個點出隊之後，更新Max和in數組，如果某點的in等於0，將它入隊，並更新最短距離，在鬆弛的過程中，無論能否經過這個點，我們都將它鬆弛，只有in[v]等於0的情況我們纔將它入隊，最短距離=max（到達這個點的距離，Max[v]）

#include <bits/stdc++.h>
using namespace std;
typedef long long ll;
const int MAXN = 5000;
const int MAXM = 200500;
const ll INF = 1e9;
struct node1
{
    int to,Next;
    ll w;
}edge[MAXM];
int head[MAXN],tot;
int in[MAXN];
void init()
{
    tot = 0;
    memset(head,-1,sizeof(head));
    memset(in,0,sizeof(in));
}
void addedge(int u,int v,ll w)
{
    edge[tot].to = v;
    edge[tot].w = w;
    edge[tot].Next = head[u];
    head[u] = tot++;
}
vector<int> p[MAXN];
ll dis[MAXN],Max[MAXN];
bool vis[MAXN];
int n;
struct node2
{
    int u;
    ll w;
    node2(){}
    node2(int _u,ll _w)
    {
        u = _u;
        w = _w;
    }
    bool operator < (const struct node2& a) const
    {
        return w > a.w;
    }
};
void Dijkstra()
{
    struct node2 t;
    int u,v;
    for(int i = 1; i <= n; i++) {
        dis[i] = INF;
        vis[i] = false;
        Max[i] = 0;
    }
    priority_queue<node2> pq;
    dis[1] = 0;
    pq.push(node2(1,0));
    while(!pq.empty()) {
        t = pq.top();
        pq.pop();
        u = t.u;
        if(vis[u]) continue;
        vis[u] = true;
        for(int i = 0; i < p[u].size(); i++) {
            v = p[u][i];
            in[v]--;
            Max[v] = max(Max[v],dis[u]);
            if(dis[v] != INF && !in[v]) {
                dis[v] = max(dis[v],Max[v]);
                pq.push(node2(v,dis[v]));
            }
        }
        for(int i = head[u]; i != -1; i = edge[i].Next) {
            v = edge[i].to;
            if(dis[v] > dis[u] + edge[i].w) {
                dis[v] = max(dis[u] + edge[i].w,Max[v]);
                if(!in[v]) pq.push(node2(v,dis[v]));
            }
        }
    }
}
int main(void)
{
    int T,m,u,v,num;
    ll w;
    scanf("%d",&T);
    while(T--) {
        init();
        scanf("%d %d",&n,&m);
        for(int i = 1; i <= n; i++) p[i].clear();
        for(int i = 1; i <= m; i++) {
            scanf("%d %d %lld",&u,&v,&w);
            addedge(u,v,w);
        }
        for(int i = 1; i <= n; i++) {
            scanf("%d",&in[i]);
            for(int j = 1; j <= in[i]; j++) {
                scanf("%d",&v);
                p[v].push_back(i);
            }
        }
        Dijkstra();
        printf("%lld\n",dis[n]);
    }
    return 0;
}