import java.util.PriorityQueue; import java.util.Scanner; public final class Main { private static final int S = 14; private int N; private int T; private int[] A; private int[] B; private int[] C; private int[] D; static final Watch watch = new Watch(); static final XorShift rng = new XorShift(System.nanoTime()); public static final void main(final String[] args) { new Main().run(); } private void run() { try (final Scanner in = new Scanner(System.in)) { N = in.nextInt(); watch.init(); T = in.nextInt(); A = new int[N]; B = new int[N]; C = new int[N]; D = new int[N]; for (int i = 0; i < N; i++) { A[i] = in.nextInt() - 1; B[i] = in.nextInt() - 1; C[i] = in.nextInt() - 1; D[i] = in.nextInt() - 1; } int[][] counts = new int[2 * S][2 * S]; for (int r = 0; r < 2 * S; r++) { for (int c = 0; c < 2 * S; c++) { counts[r][c]++; } } // for (int i = 0; i < N; i++) { // int minR = 2 * Math.min(A[i], C[i]); // int maxR = 2 * Math.max(A[i], C[i]); // int minC = 2 * Math.min(B[i], D[i]); // int maxC = 2 * Math.max(B[i], D[i]); // for (int r = minR; r <= maxR; r++) { // for (int c = minC; c <= maxC; c++) { // counts[r][c]++; // } // } // } PriorityQueue> pq = new PriorityQueue<>(); for (int r = 0; r < 2 * S; r++) { for (int c = 0; c < 2 * S; c++) { if ((r + c) % 2 == 0) { continue; } final int min = 4; final int max = 22; final int center = 14; final int coef = ((r == center) && c >= min && c <= max) || ((c == min || c == max) && r >= min && r <= max) ? 10000 : 100; pq.add(new Pair((coef * -counts[r][c]) + (rng.nextInt(100)), (r << 16) | (c))); } } int num_higways = 0; int prev_capital = (int) 1e6; int prev_action = 0; for (int t = 0; t < T; t++) { int capital = in.nextInt(); int collaborators = in.nextInt(); if (capital < 0 && collaborators < 0) { break; } int highway_revenue = capital - prev_capital + (prev_action == 3 ? -50000 : 0); int highway_cost = (int) (1 + 1e7 / Math.sqrt(collaborators)); if (t < 21) { int action = 2; System.out.println(action); System.out.flush(); prev_capital = capital; prev_action = action; continue; } final boolean build_highway_is_better = num_higways == 0 || (highway_revenue / num_higways) * (num_higways + 1) * (T - 1 - t) - highway_cost > highway_revenue * (T - 1 - t); if (capital >= highway_cost && build_highway_is_better) { num_higways++; int action = 1; int v = pq.poll().second.intValue(); int r = v >>> 16; int c = v & ((1 << 16) - 1); if (r % 2 == 0) { assert c % 2 == 1; int r2 = 1 + r / 2; int c2 = 1 + (c - 1) / 2; int c3 = 1 + (c + 1) / 2; System.out.println(action + " " + r2 + " " + c2 + " " + r2 + " " + c3); System.out.flush(); prev_capital = capital; prev_action = action; continue; } else { assert c % 2 == 0; int r2 = 1 + (r - 1) / 2; int r3 = 1 + (r + 1) / 2; int c2 = 1 + c / 2; System.out.println(action + " " + r2 + " " + c2 + " " + r3 + " " + c2); System.out.flush(); prev_capital = capital; prev_action = action; continue; } } int action = 3; System.out.println(action); System.out.flush(); prev_capital = capital; prev_action = action; } } catch (final Exception e) { e.printStackTrace(); } } } class Watch { private long start; public Watch() { init(); } public double getSecond() { return (System.nanoTime() - start) * 1e-9; } public void init() { init(System.nanoTime()); } private void init(long start) { this.start = start; } public String getSecondString() { return toString(getSecond()); } public static final String toString(double second) { if (second < 60) { return String.format("%5.2fs", second); } else if (second < 60 * 60) { int minute = (int) (second / 60); return String.format("%2dm%2ds", minute, (int) (second % 60)); } else { int hour = (int) (second / (60 * 60)); int minute = (int) (second / 60); return String.format("%2dh%2dm%2ds", hour, minute % (60), (int) (second % 60)); } } } class XorShift { private int w = 88675123; private int x = 123456789; private int y = 362436069; private int z = 521288629; public XorShift(long l) { x = (int) l; } public int nextInt() { final int t = x ^ (x << 11); x = y; y = z; z = w; w = w ^ (w >>> 19) ^ (t ^ (t >>> 8)); return w; } public long nextLong() { return ((long) nextInt() << 32) ^ (long) nextInt(); } public double nextDouble() { return (nextInt() >>> 1) * 4.6566128730773926E-10; } public int nextInt(int n) { return (int) (n * nextDouble()); } } class Pair, S> implements Comparable> { public T first; public S second; public Pair(T t, S s) { this.first = t; this.second = s; } private int hash = 0; @Override public int hashCode() { if (hash == 0) { final int prime = 31; int result = 1; result = prime * result + ((first == null) ? 0 : first.hashCode()); result = prime * result + ((second == null) ? 0 : second.hashCode()); hash = result; } return hash; } @Override public boolean equals(Object obj) { if (this == obj) return true; if (obj == null) return false; if (getClass() != obj.getClass()) return false; Pair other = (Pair) obj; if (first == null) { if (other.first != null) return false; } else if (!first.equals(other.first)) return false; if (second == null) { if (other.second != null) return false; } else if (!second.equals(other.second)) return false; return true; } @Override public int compareTo(Pair o) { return first.compareTo(o.first); } }