#include using namespace std; template> struct RedBlackTree{ private: enum Color{RED, BLACK, NIL}; struct Node{ T key; Color color; size_t sz = 0; Node *parentP = nullptr, *leftP = nullptr, *rightP = nullptr; constexpr Node(): key{}, color(NIL) {} constexpr Node(const T &key, Color color): key(key), color(color), sz(1) {} constexpr bool is_valid() const { return color != NIL; } constexpr bool is_nil() const { return color == NIL; } constexpr bool is_red() const { return color == RED; } constexpr bool is_black() const { return color != RED; } constexpr bool is_left() const { return parentP->leftP == this; } constexpr bool is_right() const { return parentP->rightP == this; } constexpr bool is_root() const { return parentP->is_nil(); } constexpr void flip_color(){ assert(is_valid()); if(is_red()) color = BLACK; else color = RED; } }; using Np = Node*; static Np get_nil(){ static Node nil = Node{}; return &nil; } Np root = get_nil(); const Compair cmp; void rotate_left(Np t){ Np y = t->rightP; assert(y->is_valid()); t->rightP = y->leftP; if(y->leftP->is_valid()) y->leftP->parentP = t; y->parentP = t->parentP; if(t->is_root()) root = y; else if(t->is_left()) t->parentP->leftP = y; else t->parentP->rightP = y; y->leftP = t; t->parentP = y; y->sz = t->sz; t->sz = t->leftP->sz + t->rightP->sz + 1; } void rotate_right(Np t){ Np y = t->leftP; assert(y->is_valid()); t->leftP = y->rightP; if(y->rightP->is_valid()) y->rightP->parentP = t; y->parentP = t->parentP; if(t->is_root()) root = y; else if(t->is_left()) t->parentP->leftP = y; else t->parentP->rightP = y; y->rightP = t; t->parentP = y; y->sz = t->sz; t->sz = t->leftP->sz + t->rightP->sz + 1; } void insert_fixup(Np t){ assert(!!t->parentP); while(t->parentP->is_red()){ if(t->parentP->is_left()){ Np y = t->parentP->parentP->rightP; if(y->is_red()){ t->parentP->flip_color(); y->flip_color(); t->parentP->parentP->flip_color(); t = t->parentP->parentP; }else{ if(t->is_right()){ t = t->parentP; rotate_left(t); } t->parentP->flip_color(); t->parentP->parentP->flip_color(); rotate_right(t->parentP->parentP); } }else{ Np y = t->parentP->parentP->leftP; if(y->is_red()){ t->parentP->flip_color(); y->flip_color(); t->parentP->parentP->flip_color(); t = t->parentP->parentP; }else{ if(t->is_left()){ t = t->parentP; rotate_right(t); } t->parentP->flip_color(); t->parentP->parentP->flip_color(); rotate_left(t->parentP->parentP); } } } if(root->is_red()) root->flip_color(); } void erase_impl(Np t){ Np x = get_nil(), y = t; Color color = y->color; if(t->leftP->is_nil()){ x = t->rightP; transplant(t, t->rightP); }else if(t->rightP->is_nil()){ x = t->leftP; transplant(t, t->leftP); }else{ y = minimum(y->rightP); Np m = y->parentP; while(m != t){ m->sz -= 1; m = m->parentP; } color = y->color; x = y->rightP; if(y->parentP == t) x->parentP = y; else{ transplant(y, y->rightP); y->rightP = t->rightP; y->rightP->parentP = y; } transplant(t, y); y->leftP = t->leftP; y->leftP->parentP = y; y->color = t->color; y->sz = t->sz; } if(color == BLACK) erase_fixup(x); delete t; } void erase_fixup(Np t){ while(!t->is_root() && t->is_black()){ if(t->is_left()){ Np y = t->parentP->rightP; if(y->is_red()){ y->flip_color(); t->parentP->flip_color(); rotate_left(t->parentP); y = t->parentP->rightP; } if(y->leftP->is_black() && y->rightP->is_black()){ y->flip_color(); t = t->parentP; }else{ if(y->rightP->is_black()){ y->leftP->flip_color(); y->flip_color(); rotate_right(y); y = t->parentP->rightP; } y->color = t->parentP->color; t->parentP->color = BLACK; y->rightP->color = BLACK; rotate_left(t->parentP); t = root; } }else{ Np y = t->parentP->leftP; if(y->is_red()){ y->flip_color(); t->parentP->flip_color(); rotate_right(t->parentP); y = t->parentP->leftP; } if(y->leftP->is_black() && y->rightP->is_black()){ y->flip_color(); t = t->parentP; }else{ if(y->leftP->is_black()){ y->rightP->flip_color(); y->flip_color(); rotate_left(y); y = t->parentP->leftP; } y->color = t->parentP->color; t->parentP->color = BLACK; y->leftP->color = BLACK; rotate_right(t->parentP); t = root; } } } if(t->is_red()) t->flip_color(); } void transplant(Np u, Np v){ if(u->is_root()) root = v; else if(u->is_left()) u->parentP->leftP = v; else u->parentP->rightP = v; v->parentP = u->parentP; } Np minimum(Np t) const { while(t->leftP->is_valid()) t = t->leftP; return t; } Np maximum(Np t) const { while(t->rightP->is_valid()) t = t->rightP; return t; } Np successor(Np t) const { if(t->rightP->is_valid()) return minimum(t->rightP); Np y = t->parentP; while(y->is_valid() && t->is_right()){ t = y; y = y->parentP; } return y; } Np predecessor(Np t) const { if(t->leftP->is_valid()) return maximum(t->leftP); Np y = t->parentP; while(y->is_valid() && t->is_left()){ t = y; y = y->parentP; } return y; } Np lower_bound(Np t, const T &key) const { if(t->is_nil()) return t; if(cmp(t->key, key)) return lower_bound(t->rightP, key); Np l = lower_bound(t->leftP, key); if(l->is_nil()) return t; return l; } Np upper_bound(Np t, const T &key) const { if(t->is_nil()) return t; if(!cmp(key, t->key)) return upper_bound(t->rightP, key); Np l = upper_bound(t->leftP, key); if(l->is_nil()) return t; return l; } Np select(Np t, size_t k) const { assert(!!t); size_t r = t->leftP->sz; if(k == r) return t; else if(k < r) return select(t->leftP, k); else return select(t->rightP, k - r - 1); } void dump(Np t) const { if(t->is_nil()) return; dump(t->leftP); cout << t->key << " "; dump(t->rightP); } public: RedBlackTree(const Compair &cmp = Compair{}): cmp(cmp) {} RedBlackTree(initializer_list v ,const Compair &cmp = Compair{}): cmp(cmp) { for(auto&e : v) insert(e); } Np insert(const T &key){ Np t = new Node(key, RED); t->leftP = t->rightP = get_nil(); Np x = root, y = get_nil(); while(x->is_valid()){ y = x; if(cmp(key, x->key)) x = x->leftP; else x = x->rightP; y->sz += 1; } assert(!!y); t->parentP = y; if(y->is_nil()) root = t; else if(cmp(key, y->key)) y->leftP = t; else y->rightP = t; insert_fixup(t); return t; } bool erase(const T &key){ Np t = find(key); if(t->is_nil()) return false; assert(t->key == key); Np y = t; while(y->is_valid()){ y->sz -= 1; y = y->parentP; } erase_impl(t); return true; } Np find(const T &key) const { Np t = root; while(t->is_valid() && t->key != key){ if(cmp(key, t->key)) t = t->leftP; else t = t->rightP; } return t; } bool exist(const T &key) const { return find(key)->is_valid(); } size_t rank(Np t) const { size_t r = t->leftP->sz; Np y = t; while(!y->is_root()){ if(y->is_right()) r += y->parentP->leftP->sz + 1; y = y->parentP; } return r; } void dump() const { dump(root); cout << endl; } Np lower_bound(const T &key) const { return lower_bound(root, key); } Np upper_bound(const T &key) const { return upper_bound(root, key); } T at(int k) const { if(k < 0) k += (int)size(); assert(0 <= k && k < (int)size()); return select(root, k)->key; } T operator[](int k) const { if(k < 0) k += (int)size(); assert(0 <= k && k < (int)size()); return select(root, k)->key; } T pop(int k){ T key = at(k); erase(key); return key; } size_t size() const { return root->sz; } struct itr{ Np t; RedBlackTree &tree; bool operator!=(const itr &it) const { return t != it.t; } void operator++(){ t = tree.successor(t); } void operator--(){ if(t->is_nil()) t = tree.maximum(root); else t = tree.predecessor(t); } T operator*() const { return t->key; } }; itr begin(){ return {minimum(root), *this}; } itr end(){ return {get_nil(), *this}; } }; int main() { RedBlackTree rbt; int q; size_t k; cin >> q >> k; --k; while(q--){ int t; cin >> t; if(t == 1){ int64_t v; cin >> v; rbt.insert(v); }else{ if(rbt.size() <= k) cout << "-1\n"; else cout << rbt.pop(k) << "\n"; } } }