from random import gauss, random, randrange try: LOCAL except NameError: LOCAL = 0 if LOCAL: DEBUG = 1 print("LOOP ?") LOOP = int(input()) else: DEBUG = 0 LOOP = 1 def receive(): global P global R global money global MI, MA global sell_count if DEBUG: sell_count = [min(R[i], int(R[i] ** 0.5 * 1.05 ** P[i] * D[i] * (0.75 + random() * 0.5))) for i in range(N)] money += 1000 * sum(sell_count) else: money = int(input()) sell_count = [int(a) for a in input().split()] for i in range(N): if R[i]: ma = (sell_count[i] + 1) / (R[i] ** 0.5 * 0.75 * 1.05 ** P[i]) mi = sell_count[i] / (R[i] ** 0.5 * 1.25 * 1.05 ** P[i]) MI[i] = max(mi, MI[i]) if sell_count[i] < R[i]: MA[i] = min(ma, MA[i]) for i in range(N): if R[i]: if sell_count[i] * 10 >= 3 * R[i]: P[i] = min(P[i] + 1, 60) elif sell_count[i] * 10 < R[i]: P[i] = max(P[i] - 1, -60) if DEBUG: for i in range(N): R[i] -= sell_count[i] else: for i, a in enumerate(input().split()): P[i] = int(a) for i, a in enumerate(input().split()): R[i] = int(a) for i in range(N): total_sell_count[i] += sell_count[i] def adj(n): if n < 4: return 3 if n % 10 < 3: return n // 10 * 10 if n % 10 < 6: return n // 10 * 10 + 3 return n // 10 * 10 + 6 def Order(): global P global R global money target = 10 buy_count = [0] * N best_allocation = [((MA[i] + MI[i]) * 1.05 ** P[i]) ** 2 for i in range(N)] su = sum(best_allocation) for i in range(N): best_allocation[i] *= 10 ** 8 best_allocation[i] = adj(int(best_allocation[i])) for i in range(N): if t < 5: target = adj(int(100 / 9 * 1.05 ** P[i] * (MA[i] * 0.0 + MI[i] * 1.0))) elif t < 20: target = adj(int(100 / 9 * 1.05 ** P[i] * (MA[i] * 0.0 + MI[i] * 1.0))) elif t < 40 and sorted(P)[-4] < 60: target = adj(int(100 / 4 * 1.05 ** P[i] * (MA[i] + MI[i]) / 2)) elif t < 45 and sorted(P)[-1] < 60: target = adj(int(100 / 1 * 1.05 ** P[i] * (MA[i] + MI[i]) / 2)) elif t < 50: target = best_allocation[i] elif t < 48: target = adj(int(100 / 0.3 * 1.05 ** P[i] * (MA[i] + MI[i]) / 2)) else: target = adj(int(100 / 0.05 * 1.05 ** P[i] * (MA[i] + MI[i]) / 2)) buy_count[i] = max(0, target - R[i]) while 1: r = sum(buy_count) * 500 / money if r <= 1: break for i in range(N): buy_count[i] = int(buy_count[i] / r) money -= sum(buy_count) * 500 if money < 0: while 1: pass assert money >= 0 for i in range(N): R[i] += buy_count[i] if not DEBUG: print(1, *buy_count) def Advertise(x): global money money -= 500000 << x - 1 if money < 0: while 1: pass assert money >= 0 for i in range(N): P[i] = min(P[i] + x, 60) if not DEBUG: print(2, x) total_total = 0 for loop in range(LOOP): if DEBUG: T, N, money = 52, 10, 2 * 10 ** 6 D = [random() + 0.5 for _ in range(N)] else: T, N, money = map(int, input().split()) D = [random() + 0.5 for _ in range(N)] total_sell_count = [0] * N sell_count = [0] * N MA = [1.5] * N MI = [0.5] * N P = [0] * N R = [0] * N for t in range(T): if (20 < t < 40 and money >= 2500000) and sorted(P)[-1] < 58: Advertise(3) elif (0 < t < 35 and money >= 1250000) and sorted(P)[-1] < 59: Advertise(2) elif t < 4 and money >= 6000000: Advertise(4) elif t < 4 and money >= 3000000: Advertise(3) else: Order() receive() if DEBUG: if LOOP == 1: print("-" * 20) print("t =", t) print("Money =", money) print("P =", P) print("R =", R) print("sell_count =", sell_count) print("MI =", ["{:.2f}".format(a) for a in MI]) print("MA =", ["{:.2f}".format(a) for a in MA]) print("D =", ["{:.2f}".format(a) for a in D]) print("Total =", sum(total_sell_count), total_sell_count) if LOCAL: total_total += sum(total_sell_count) if LOCAL and 20 >= LOOP > 1: print("loop =", loop, total_sell_count, sum(total_sell_count), round(total_total / (loop + 1))) if LOCAL: print("LOOP =", LOOP, round(total_total / LOOP))