inf = 10**18 class BellmanFord(): def __init__(self, N): self.N = N self.edges = [] def add(self, u, v, d, directed=False): """ u = from, v = to, d = cost directed = Trueのとき、有向グラフである。 """ if directed is False: self.edges.append([u, v, d]) self.edges.append([v, u, d]) else: self.edges.append([u, v, d]) def BellmanFord_search(self, start): """ :param s: 始点 :return: d[i] 始点sから各点iまでの最短経路 """ # infならたどり着けず # -infなら"通りたいパスに"負の閉路が存在する D = [inf for i in range(self.N)] D[start] = 0 for i in range(self.N*2): for u,v,d in self.edges: if D[v] > D[u] + d: D[v] = D[u] + d #2巡目負経路が存在する場合の動き if i>=self.N: D[v]=-inf return D N,M = map(int, input().split()) A = list(map(int, input().split())) ABC = [list(map(int, input().split())) for _ in range(M)] G = BellmanFord(N) for a,b,c in ABC: G.add(a-1,b-1,c-A[b-1],True) ANS = G.BellmanFord_search(0) if ANS[N-1]==-inf: print('inf') else: print(-ANS[N-1]+A[0])