import java.util.PriorityQueue import java.util.Scanner data class Edge(val v: Int, val w: Long) val INF = 1e18.toLong() fun dijkstra(g: Array>, s: Int): Array { data class State(val d: Long, val u: Int) : Comparable { override operator fun compareTo(other: State): Int { if (d != other.d) return -d.compareTo(other.d) return u.compareTo(other.u) } } var q: PriorityQueue = PriorityQueue() val n = g.size var dist = Array(n, {INF}) dist[s] = 0 q.add(State(0, s)) while (!q.isEmpty()) { val (d, u) = q.remove() if (d > dist[u]) continue for (e in g[u]) { if (dist[e.v] > dist[u] + e.w) { dist[e.v] = dist[u] + e.w q.add(State(dist[e.v], e.v)) } } } return dist } fun main(args: Array) { val tmp = readLine()!!.split(" ") val N = tmp[0].toInt() val M = tmp[1].toInt() val P = tmp[2].toInt() - 1 val Q = tmp[3].toInt() - 1 val T = tmp[4].toLong() var g = Array(N, {mutableListOf()}) repeat(M) { val tmp2 = readLine()!!.split(" ") val u = tmp2[0].toInt() - 1 val v = tmp2[1].toInt() - 1 val w = tmp2[2].toLong() g[u].add(Edge(v, w)) g[v].add(Edge(u, w)) } val d0 = dijkstra(g, 0) val dp = dijkstra(g, P) val dq = dijkstra(g, Q) var ans = -INF if (dp[0] + dp[Q] + dq[0] <= T) { ans = T } for (i in 0..N-1) { for (j in 0..N-1) { if (d0[i] + d0[j] + maxOf(dp[i] + dp[j], dq[i] + dq[j]) <= T) { ans = maxOf(ans, T - maxOf(dp[i] + dp[j], dq[i] + dq[j])) } } } if (ans < 0L) { println(-1) } else { println(ans) } }