#include using namespace std; const int mod = 1012924417; using int64 = long long; const int64 infll = (1LL << 62) - 1; const int inf = (1 << 30) - 1; struct IoSetup { IoSetup() { cin.tie(nullptr); ios::sync_with_stdio(false); cout << fixed << setprecision(10); cerr << fixed << setprecision(10); } } iosetup; template< typename T1, typename T2 > ostream &operator<<(ostream &os, const pair< T1, T2 > &p) { os << p.first << " " << p.second; return os; } template< typename T1, typename T2 > istream &operator>>(istream &is, pair< T1, T2 > &p) { is >> p.first >> p.second; return is; } template< typename T > ostream &operator<<(ostream &os, const vector< T > &v) { for(int i = 0; i < (int) v.size(); i++) { os << v[i] << (i + 1 != v.size() ? " " : ""); } return os; } template< typename T > istream &operator>>(istream &is, vector< T > &v) { for(T &in : v) is >> in; return is; } template< typename T1, typename T2 > inline bool chmax(T1 &a, T2 b) { return a < b && (a = b, true); } template< typename T1, typename T2 > inline bool chmin(T1 &a, T2 b) { return a > b && (a = b, true); } template< typename T = int64 > vector< T > make_v(size_t a) { return vector< T >(a); } template< typename T, typename... Ts > auto make_v(size_t a, Ts... ts) { return vector< decltype(make_v< T >(ts...)) >(a, make_v< T >(ts...)); } template< typename T, typename V > typename enable_if< is_class< T >::value == 0 >::type fill_v(T &t, const V &v) { t = v; } template< typename T, typename V > typename enable_if< is_class< T >::value != 0 >::type fill_v(T &t, const V &v) { for(auto &e : t) fill_v(e, v); } template< typename F > struct FixPoint : F { FixPoint(F &&f) : F(forward< F >(f)) {} template< typename... Args > decltype(auto) operator()(Args &&... args) const { return F::operator()(*this, forward< Args >(args)...); } }; template< typename F > inline decltype(auto) MFP(F &&f) { return FixPoint< F >{forward< F >(f)}; } template< typename Monoid = int, typename OperatorMonoid = Monoid > struct LinkCutTree { using F = function< Monoid(Monoid, Monoid) >; using G = function< Monoid(Monoid, OperatorMonoid, int) >; using H = function< OperatorMonoid(OperatorMonoid, OperatorMonoid) >; using S = function< Monoid(Monoid) >; struct Node { Node *l, *r, *p; int idx; Monoid key, sum; OperatorMonoid lazy; bool rev; int sz; bool is_root() { return !p || (p->l != this && p->r != this); } Node(int idx, const Monoid &key, const OperatorMonoid &om) : idx(idx), key(key), sum(key), lazy(om), sz(1), l(nullptr), r(nullptr), p(nullptr), rev(false) {} }; const Monoid M1; const OperatorMonoid OM0; const F f; const G g; const H h; const S s; LinkCutTree() : LinkCutTree([](Monoid a, Monoid b) { return a + b; }, [](Monoid a) { return a; }, Monoid()) {} LinkCutTree(const F &f, const S &s, const Monoid &M1) : LinkCutTree(f, G(), H(), s, M1, OperatorMonoid()) {} LinkCutTree(const F &f, const G &g, const H &h, const S &s, const Monoid &M1, const OperatorMonoid &OM0) : f(f), g(g), h(h), s(s), M1(M1), OM0(OM0) {} Node *make_node(int idx, const Monoid &v = Monoid()) { return new Node(idx, v, OM0); } void propagate(Node *t, const OperatorMonoid &x) { t->lazy = h(t->lazy, x); t->key = g(t->key, x, 1); t->sum = g(t->sum, x, t->sz); } void toggle(Node *t) { assert(t); swap(t->l, t->r); t->sum = s(t->sum); t->rev ^= true; } void push(Node *t) { if(t->lazy != OM0) { if(t->l) propagate(t->l, t->lazy); if(t->r) propagate(t->r, t->lazy); t->lazy = OM0; } if(t->rev) { if(t->l) toggle(t->l); if(t->r) toggle(t->r); t->rev = false; } } void update(Node *t) { t->sz = 1; t->sum = t->key; if(t->l) t->sz += t->l->sz, t->sum = f(t->l->sum, t->sum); if(t->r) t->sz += t->r->sz, t->sum = f(t->sum, t->r->sum); } void rotr(Node *t) { auto *x = t->p, *y = x->p; if((x->l = t->r)) t->r->p = x; t->r = x, x->p = t; update(x), update(t); if((t->p = y)) { if(y->l == x) y->l = t; if(y->r == x) y->r = t; update(y); } } void rotl(Node *t) { auto *x = t->p, *y = x->p; if((x->r = t->l)) t->l->p = x; t->l = x, x->p = t; update(x), update(t); if((t->p = y)) { if(y->l == x) y->l = t; if(y->r == x) y->r = t; update(y); } } void splay(Node *t) { push(t); while(!t->is_root()) { auto *q = t->p; if(q->is_root()) { push(q), push(t); if(q->l == t) rotr(t); else rotl(t); } else { auto *r = q->p; push(r), push(q), push(t); if(r->l == q) { if(q->l == t) rotr(q), rotr(t); else rotl(t), rotr(t); } else { if(q->r == t) rotl(q), rotl(t); else rotr(t), rotl(t); } } } } Node *expose(Node *t) { Node *rp = nullptr; for(Node *cur = t; cur; cur = cur->p) { splay(cur); cur->r = rp; update(cur); rp = cur; } splay(t); return rp; } void link(Node *child, Node *parent) { expose(child); expose(parent); child->p = parent; parent->r = child; update(parent); } void cut(Node *child) { expose(child); auto *parent = child->l; child->l = nullptr; parent->p = nullptr; update(child); } void evert(Node *t) { expose(t); toggle(t); push(t); } Node *lca(Node *u, Node *v) { if(get_root(u) != get_root(v)) return nullptr; expose(u); return expose(v); } vector< int > get_path(Node *x) { vector< int > vs; function< void(Node *) > dfs = [&](Node *cur) { if(!cur) return; push(cur); dfs(cur->r); vs.push_back(cur->idx); dfs(cur->l); }; expose(x); dfs(x); return vs; } void set_propagate(Node *t, const OperatorMonoid &x) { expose(t); propagate(t, x); push(t); } Node *get_kth(Node *x, int k) { expose(x); while(x) { push(x); if(x->r && x->r->sz > k) { x = x->r; } else { if(x->r) k -= x->r->sz; if(k == 0) return x; k -= 1; x = x->l; } } return nullptr; } Node *get_root(Node *x) { expose(x); while(x->l) { push(x); x = x->l; } return x; } }; int main() { int N; cin >> N; auto f = [](int64 a, int64 b) { return a + b; }; auto g = [](int64 a, int64 b, int64 len) { return a; }; auto h = [](int64 a, int64 b) { return a; }; auto s = [](int64 a) { return a; }; using LCT = LinkCutTree<>; LCT lct(f, g, h, s, 0, 0); vector< LCT::Node * > ver(N), es(N); for(int i = 0; i < N; i++) { ver[i] = lct.make_node(i, 0); } for(int i = 1; i < N; i++) { int a, b, c; cin >> a >> b >> c; es[i] = lct.make_node(i, c); lct.link(es[i], ver[a]); lct.evert(ver[b]); lct.link(ver[b], es[i]); } int Q; cin >> Q; while(Q--) { vector< int > k(3); cin >> k; sort(begin(k), end(k)); int64 tap = infll; do { lct.evert(ver[k[0]]); auto get = lct.lca(ver[k[1]], ver[k[2]]); lct.expose(get); int64 uku = get->sum; lct.evert(ver[k[1]]); lct.expose(ver[k[2]]); chmin(tap, uku + ver[k[2]]->sum); } while(next_permutation(begin(k), end(k))); cout << tap << endl; } }