import heapq import sys input = lambda: sys.stdin.readline().rstrip() n, m, k = map(int,input().split()) r = list(map(int,input().split())) for i in range(k): r[i] -= 1 graph = [[] for _ in range(n)] r_n = len(r) r_edges = {} r.sort() for i in range(m): a, b, c = map(int,input().split()) if b < a: a, b = b, a graph[a - 1].append((b - 1, c)) graph[b - 1].append((a - 1, c)) if i in r: r_edges[(a - 1, b - 1)] = r.index(i) def dijkstra(n, graph): INF = 10 ** 9 dist = [[INF] * (2 ** r_n) for _ in range(n)] dist[0][0] = 0 hq = [] heapq.heappush(hq, (0, 0, 0)) visit = [[False] * (2 ** r_n) for _ in range(n)] visit[0][0] = True while hq: c, v, bit = heapq.heappop(hq) if c > dist[v][bit]: continue visit[v][bit] = True for to, cost in graph[v]: if (min(v, to), max(v, to)) in r_edges: msk = 1 << r_edges[(min(v, to), max(v, to))] if visit[to][bit | msk] == False and dist[v][bit] + cost < dist[to][bit | msk]: dist[to][bit | msk] = dist[v][bit] + cost heapq.heappush(hq, (dist[to][bit | msk], to, bit | msk)) elif visit[to][bit] == False and dist[v][bit] + cost < dist[to][bit]: dist[to][bit] = dist[v][bit] + cost heapq.heappush(hq, (dist[to][bit], to, bit)) return dist ans = dijkstra(n, graph) print(ans[n - 1][2 ** r_n - 1])