#include<stdio.h>

#include<cmath>

#include<iostream>

#include<string.h>

#include<algorithm>

#include<queue>

#include<stack>

#include<map>

#include<deque>

#include<string>

#include<unordered_map>

#include<unordered_set>

using namespace std;

#define max(a, b) (a) > (b)? (a) : (b)

#define min(a, b) (a) < (b)? (a) : (b)

unordered_map<int, unordered_map<int, int>>  gMap;

int gMinDist[100005];

bool gInQueue[100005];

int Spfa(int s, int t) {

	queue<int> Q;

	Q.push(s);

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

	memset(gInQueue, false, sizeof(gInQueue));

	gMinDist[s] = 0;

	gInQueue[s] = true;

	//题目中不存在负权边，因此不需要检查有负权回路。检查存在负权回路，则需要通过

	//判断否个点是否被更新超过 N 次，N为点的总数

	while (!Q.empty()) {

		int u = Q.front();

		Q.pop();

		gInQueue[u] = false;

		for (auto x : gMap[u]) {

			int v = x.first;

			if (gMinDist[v] == -1 || gMinDist[v] > gMinDist[u] + x.second) {

				gMinDist[v] = gMinDist[u] + x.second;

				if (!gInQueue[v]) { //如果不存在队列中，则加入队列。剪枝优化

					Q.push(v);

				}

			}

		}

	}

	return gMinDist[t];

}

int main() {

	int n, m, s, t;

	int u, v, d;

	scanf("%d %d %d %d", &n, &m, &s, &t);

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

		scanf("%d %d %d", &u, &v, &d); //用 unordered_map 存储图的结构，可以方便的去除重边

		if (gMap.find(u) == gMap.end() || (gMap[u].find(v) == gMap[u].end() || gMap[u][v] > d)) {

			gMap[u][v] = d;

			gMap[v][u] = d;

		}

	}

	int min_dist = Spfa(s, t);

	printf("%d\n", min_dist);

	return 0;

}