#include #include using std::cin; using std::cout; const char endl = '\n'; const int N = 1e5 + 5; int n, op, x; // Treap void insert(int); void erase(int); int getRank(int); int getKth(int); int main() { std::ios::sync_with_stdio(false); cin >> n; while (n--) { cin >> op >> x; if (op == 1) { insert(x); } else if (op == 2) { erase(x); } else if (op == 3) { cout << getRank(x) << endl; } else if (op == 4) { cout << getKth(x) << endl; } else if (op == 5) { cout << getKth(getRank(x) - 1) << endl; } else { cout << getKth(getRank(x + 1)) << endl; } } return 0; } // === Treap === int root, cnt; struct node { int l, r, s, v, k; node() : l(0), r(0), s(0), v(0), k(rand()) {} node(int _v) : l(0), r(0), s(1), v(_v), k(rand()) {} } tr[N]; inline void pushup(int u) { tr[u].s = tr[tr[u].l].s + tr[tr[u].r].s + 1; } std::pair split(int p, int k) { if (!p) return std::make_pair(0, 0); if (k <= tr[tr[p].l].s) { auto o = split(tr[p].l, k); tr[p].l = o.second; pushup(p); o.second = p; return o; } auto o = split(tr[p].r, k - tr[tr[p].l].s - 1); tr[p].r = o.first; pushup(p); o.first = p; return o; } std::pair splitByValue(int p, int v) { if (!p) return std::make_pair(0, 0); if (tr[p].v < v) { auto o = splitByValue(tr[p].r, v); tr[p].r = o.first; pushup(p); o.first = p; return o; } auto o = splitByValue(tr[p].l, v); tr[p].l = o.second; pushup(p); o.second = p; return o; } int merge(int x, int y) { if (!x || !y) return x | y; if (tr[x].k > tr[y].k) { tr[x].r = merge(tr[x].r, y); pushup(x); return x; } tr[y].l = merge(x, tr[y].l); pushup(y); return y; } void insert(int v) { auto o = splitByValue(root, v); int p = ++cnt; tr[p] = node(v); o.first = merge(o.first, p); root = merge(o.first, o.second); } void erase(int v) { auto o = splitByValue(root, v); auto t = split(o.second, 1); if (tr[t.first].v == v) { root = merge(o.first, t.second); } else { root = merge(o.first, merge(t.first, t.second)); } } int getRank(int v) { auto o = splitByValue(root, v); int r = tr[o.first].s + 1; root = merge(o.first, o.second); return r; } int getKth(int k) { auto x = split(root, k - 1); auto y = split(x.second, 1); int r = y.first; root = merge(x.first, merge(y.first, y.second)); return tr[r].v; }