mod = 1000000007 eps = 10**-9 def main(): import sys from collections import deque input = sys.stdin.readline class UnionFind(): def __init__(self, n): self.n = n self.root = [-1] * (n + 1) self.rnk = [0] * (n + 1) def find_root(self, x): while self.root[x] >= 0: x = self.root[x] return x def unite(self, x, y): x = self.find_root(x) y = self.find_root(y) if x == y: return elif self.rnk[x] > self.rnk[y]: self.root[x] += self.root[y] self.root[y] = x else: self.root[y] += self.root[x] self.root[x] = y if self.rnk[x] == self.rnk[y]: self.rnk[y] += 1 def isSameGroup(self, x, y): return self.find_root(x) == self.find_root(y) def size(self, x): return -self.root[self.find_root(x)] def is_pal(S): if S == list(reversed(S)): return 1 else: return 0 N, M = map(int, input().split()) adj = [[] for _ in range(N+1)] S = set() E = {} I = {} ABC = [] for i in range(M): a, b, c = input().split() a = int(a) b = int(b) S.add(c) adj[a].append((b, c)) adj[b].append((a, c)) E[a * (N+1) + b] = c E[b * (N+1) + a] = c I[a * (N + 1) + b] = i+1 I[b * (N + 1) + a] = i+1 ABC.append((a, b, c)) if len(S) == 1: print(-1) exit() que = deque() que.append(1) seen = [-1] * (N+1) seen[1] = 0 par = [0] * (N+1) seq = [] while que: v = que.popleft() seq.append(v) for u, _ in adj[v]: if seen[u] == -1: seen[u] = seen[v] + 1 par[u] = v que.append(u) v = N ans = [] color = [] while v != 1: p = par[v] color.append(E[v * (N+1) + p]) ans.append(I[v * (N+1) + p]) v = p ans.reverse() color.reverse() if not is_pal(color): print(len(ans)) print(*ans, sep="\n") exit() for _ in range(2): ans.append(ans[-1]) color.append(color[-1]) if not is_pal(color): print(len(ans)) print(*ans, sep="\n") exit() c0 = color[0] adj_new = [[] for _ in range(N+1)] UF = UnionFind(N) for a, b, c in ABC: if c == c0: adj_new[a].append((b, c)) adj_new[b].append((a, c)) UF.unite(a, b) flg = 0 for v in range(1, N+1): if UF.isSameGroup(1, v): for u, _ in adj[v]: c = E[v * (N+1) + u] if c != c0 and u != N: adj_new[v].append((u, c)) adj_new[u].append((v, c)) uu = u flg = 1 break if flg: break # go to uu que = deque() que.append(1) seen = [-1] * (N + 1) seen[1] = 0 par = [0] * (N + 1) seq = [] while que: v = que.popleft() seq.append(v) for u, _ in adj_new[v]: if seen[u] == -1: seen[u] = seen[v] + 1 par[u] = v que.append(u) v = uu ans = [] color = [] while v != 1: p = par[v] color.append(E[v * (N + 1) + p]) ans.append(I[v * (N + 1) + p]) v = p ans.reverse() color.reverse() if uu == 1: for u, c in adj_new[1]: if c != c0: for _ in range(2): ans.append(I[u * (N+1) + 1]) color.append(c) # go to N que = deque() que.append(uu) seen = [-1] * (N + 1) seen[uu] = 0 par = [0] * (N + 1) seq = [] while que: v = que.popleft() seq.append(v) for u, _ in adj_new[v]: if seen[u] == -1: seen[u] = seen[v] + 1 par[u] = v que.append(u) v = N ans2 = [] color2 = [] while v != uu: p = par[v] color2.append(E[v * (N + 1) + p]) ans2.append(I[v * (N + 1) + p]) v = p ans2.reverse() color2.reverse() assert ans2 ans.extend(ans2) color.extend(color2) if not is_pal(color): print(len(ans)) print(*ans, sep="\n") else: for _ in range(2): ans.append(ans[-1]) color.append(color[-1]) #assert is_pal(color) == 0 print(len(ans)) print(*ans, sep="\n") if __name__ == '__main__': main()