from collections import deque class LCA: def __init__(self, size): self.size = size self.level = (size - 1).bit_length() self.edges = [[] for _ in range(size)] self.depth = [0] * size self.length = [float('inf')] * size self.prev = [None] * size self.kprev = None def addEdge(self, fr, to, cost=1): self.edges[fr].append((to, cost)) self.edges[to].append((fr, cost)) def dfs(self): st = deque([(0, 0)]) self.depth[0] = 0 self.length[0] = 0 while st: now, prev = st.pop() for to, cost in self.edges[now]: if to == prev: continue st.append((to, now)) self.depth[to] = self.depth[now] + 1 self.length[to] = self.length[now] + cost self.prev[to] = now def construct(self): self.dfs() kprev = [self.prev] S = self.prev for _ in range(self.level): T = [0] * self.size for i in range(self.size): if S[i] is None: continue T[i] = S[S[i]] kprev.append(T) S = T self.kprev = kprev def lca(self, u, v): dist = self.depth[v] - self.depth[u] if dist < 0: u, v = v, u dist = -dist for k in range(self.level + 1): if dist & 1: v = self.kprev[k][v] dist //= 2 if u == v: return u for k in range(self.level)[:: -1]: prevU = self.kprev[k][u] prevV = self.kprev[k][v] if prevU != prevV: u = prevU v = prevV return self.kprev[0][u] def dist(self, u, v): return self.length[u] + self.length[v] - self.length[self.lca(u, v)] * 2 N = int(input()) tree = LCA(N) for _ in range(N - 1): fr, to, cost = map(int, input().split()) tree.addEdge(fr, to, cost) tree.construct() Q = int(input()) ans = [] for _ in range(Q): x, y, z = map(int, input().split()) ans.append(min( tree.dist(x, y) + tree.dist(tree.lca(x, y), z), tree.dist(y, z) + tree.dist(tree.lca(y, z), x), tree.dist(z, x) + tree.dist(tree.lca(z, x), y), )) print(*ans, sep='\n')