//POJ2679

//DFS+SPFA+邻接表

//只能走每个点费用最小的边，相同则需保证距离最短

//求最小费用及最短距离

//Time:47Ms     Memory:900K

#include<iostream>

#include<cstring>

#include<cstdio>

#include<algorithm>

#include<queue>

using namespace std;

#define MAXN 1105

#define MAXM 5005

#define INF 0x3f3f3f3f

struct Edge{

    int v,len,fee,next;

    Edge(){}

    Edge(int vv,int ll,int ff, int nn):v(vv),len(ll),fee(ff),next(nn){}

}e[2*MAXM];

int n,m;

int dept,dest;

int h[MAXN], le;

int minfee[MAXN], minFee[MAXN];

int vis[MAXN];

int d[MAXN], cnt[MAXN];

void add(int u, int v,int w,int fuv,int fvu)

{

    e[le] = Edge(v, w, fuv, h[u]);  h[u] = le++;

    e[le] = Edge(u, w, fvu, h[v]);  h[v] = le++;

}

bool dfs(int x)     //判定从x是否可达终点

{

    vis[x] = true;

    if(x == dest) return true;

    if(minfee[x] == INF)   return false;

    for(int i = h[x]; i != -1; i = e[i].next)

    {

        if(!vis[e[i].v] && minfee[x] == e[i].fee){

            if(dfs(e[i].v)) return true;

            vis[e[i].v] = false;

        }

    }

    return false;

}

bool spfa(int x)

{

    memset(d,INF,sizeof(d));

    memset(vis,false,sizeof(vis));

    memset(cnt, 0, sizeof(cnt));

    memset(minFee, 0, sizeof(minFee));

    queue<int> q;

    q.push(x);  vis[x] = true;

    cnt[x] = 1; d[x] = 0; minFee[x] = 0;

    while(!q.empty()){

        int cur = q.front();

        q.pop();    vis[cur] = false;

        for(int i = h[cur]; i != -1; i = e[i].next)

        {

            if(minfee[cur] != e[i].fee) continue;

            int v = e[i].v, w = e[i].len;

            if(minFee[v] > minFee[cur] + minfee[cur] ||

               d[v] > d[cur] + w)   //先判断费用更小，再判断距离更小

            {

                minFee[v] = minFee[cur] + minfee[cur];

                d[v] = d[cur] + w;

                if(!vis[v]){

                    vis[v] = true;

                    if(++cnt[v] > n)    //成环

                    {

                        if(dfs(v)) return false;    //可达终点

                        else continue;  //不可达终点

                    }

                    q.push(v);

                }

            }

        }

    }

    return true;

}

int main()

{

    //freopen("in.txt", "r", stdin);

    while(~scanf("%d%d%d%d", &n,&m,&dept,&dest))

    {

        memset(h,-1,sizeof(h));

        memset(minfee,INF,sizeof(minfee));

        le = 0;

        char cmd[100];

        int u,v,w,fuv,fvu;

        for(int i = 0; i < m; i++)

        {

            scanf("%s", cmd);

            sscanf(cmd, "(%d,%d,%d[%d]%d)", &u,&v,&fuv,&w,&fvu);

            add(u,v,w,fuv,fvu);

            minfee[u] = min(minfee[u], fuv);

            minfee[v] = min(minfee[v], fvu);

        }

        memset(vis,false,sizeof(vis));

        bool VOID = !dfs(dept);

        if(VOID){   //没有路径可达

            printf("VOID\n");

            continue;

        }

        bool UNBOUND = !spfa(dept); //可达路径中存在负权费用环路

        if(UNBOUND) printf("UNBOUND\n");

        else printf("%d %d\n", minFee[dest], d[dest]);

    }

    return 0;

}