#include using namespace std; using ll = long long; template struct LRPrique { using F = function; const F f; const T err; priority_queue L; priority_queue, greater<>> R; int L_sz, R_sz; T L_sum, R_sum; // f(sz) -> size of L // e.g.) median : [](int sz) -> int { return (sz + 1) / 2; } LRPrique(F f, T err = numeric_limits::max()) : f(f), err(err), L_sz(0), R_sz(0), L_sum(0), R_sum(0) {} void L_push(T x) { ++L_sz; L_sum += x; L.emplace(x); } void R_push(T x) { ++R_sz; R_sum += x; R.emplace(x); } T L_pop() { T ret = L.top(); L.pop(); --L_sz; L_sum -= ret; return ret; } T R_pop() { T ret = R.top(); R.pop(); --R_sz; R_sum -= ret; return ret; } void emplace(T x) { if (R.empty() or R.top() > x) L_push(x); else R_push(x); } void flatten() { int gL_sz = f(L_sz + R_sz); while (L.size() < gL_sz) { T tp = R_pop(); L_push(tp); } while (L.size() > gL_sz) { T tp = L_pop(); R_push(tp); } } T get() { int gL_sz = f(L_sz + R_sz); if (gL_sz > L_sz + R_sz) return err; flatten(); return L.top(); } }; signed main() { int Q, K; cin >> Q >> K; LRPrique lr([=](int sz) -> int { return K; }); while (Q--) { int T; cin >> T; if (T == 1) { ll a; cin >> a; lr.emplace(a); } else { ll ret = lr.get(); if (ret == lr.err) { cout << -1 << endl; } else { cout << ret << endl; lr.L_pop(); } } } }