#include <iostream>#include <vector>#include <fstream>#include <algorithm>#define MAX 501#define INF 0x6FFFFFFFusing namespace std;struct Path{//路径    vector<int> station;//路径上的站点    int sent;//该路径需要送出的车辆数    int back;//需要带回的车辆数};int map[MAX][MAX];//是否连通int visited[MAX];//访问标志int bikes[MAX], dist[MAX];//站点车辆和从PMBC到该站点的最短路径vector<Path> path;Path pathTemp;bool compare(Path p1, Path p2){//路径比较，按照送出数和归还数    if(p1.sent<p2.sent)        return true;    else if(p1.sent==p2.sent && p1.back<p2.back)        return true;    else        return false;}void Init(){//初始化状态    for(int i=0; i<MAX; i++)    {        visited[i] = 0;        dist[i] = INF;        for(int j=0; j<MAX; j++)            map[i][j] = 0;    }}void Dijkstra(int node, int n){//node 为起始节点，n为节点数    for(int i=0; i<n; i++)        dist[i] = INF;//初始距离均设为无穷大    dist[node] = 0;//起始节点距离为0    for(;;)    {        int min = INF;        int num = -1;        for(int i=0; i<n; i++)        {//找到现存未知的距离最小的节点            if(dist[i]<=min && visited[i] == 0)            {    min = dist[i];    num = i;}        }        if(num == -1)            break;        visited[num] = 1;//将该节点标为已知        for(int i=0; i<n; i++)        {            if(!visited[i] && map[i][num]!=0 )            //更新相邻节点路径                if(dist[i] > dist[num]+ map[num][i])                    dist[i] = dist[num] + map[num][i];        }    }}void DFS(int station, int dest, int _dist, int n){//当前站点，目标站点，路径，总站点数    visited[station] = 1;    if(station!=0)        pathTemp.station.push_back(station);//路径更新    if(station == dest)    {        if(_dist == dist[dest]) //到达站点且距离满足dijkstra找到的最短距离            path.push_back(pathTemp);        return;    }    if(_dist>dist[dest])        return;    for(int i=0; i<n; i++)    {        if(!visited[i] && map[station][i]!=0)        {                DFS(i, dest, _dist + map[station][i], n);            pathTemp.station.pop_back();//回调，弹出节点，避免重复写入            visited[i] = 0;        }    }}int main(void){    //ifstream fin("data.txt");    int bikeMax, stationNum, problemStation, roadNum;    cin>>bikeMax>>stationNum>>problemStation>>roadNum;    Init();//初始化    for(int i=1; i<stationNum+1; i++)        cin>>bikes[i];    for(int i=0; i<roadNum; i++)    {        int station1, station2, time;        cin>>station1>>station2>>time;        map[station1][station2] = time;        map[station2][station1] = time;    }    Dijkstra(0, stationNum+1);//寻求最优路径    for(int i=0; i<stationNum+1; i++)//访问标志复原        visited[i] = 0;    DFS(0, problemStation, 0, stationNum+1);    //计算每个时间最优路径下需要送出和带回的自行车数    int extra;    for(int i=0; i<path.size(); i++)    {        extra = 0;//从路径上前面站点带来的多余车辆        for(int j=0; j<path[i].station.size(); j++)        {            if(bikes[path[i].station[j]]<bikeMax/2)            {                if(extra>=bikeMax/2 - bikes[path[i].station[j]])                    extra -= bikeMax/2 - bikes[path[i].station[j]];                else                {                        path[i].sent += bikeMax/2 - bikes[path[i].station[j]] - extra;                        extra = 0;                }            }            if(bikes[path[i].station[j]]>bikeMax/2)                extra += bikes[path[i].station[j]] - bikeMax/2;        }        path[i].back = extra;    }    sort(path.begin(), path.end(), compare);//按照少送出，少带回的原则排序    cout<<path[0].sent<<" "<<0;    for(int i=0; i<path[0].station.size(); i++)        cout<<"->"<<path[0].station[i];    cout<<" "<<path[0].back;    return 0;}