from math import gcd def is_prime(n): if n <= 2: return n == 2 if n % 2 == 0: return False s = 0 t = n - 1 while t % 2 == 0: s += 1 t //= 2 for a in [2, 3, 5, 7, 11, 13, 17, 19, 23, 31, 37]: if a >= n: break x = pow(a, t, n) if x == 1 or x == n - 1: continue for i in range(s): x = (x * x) % n if x == n - 1: break if x == n - 1: continue return False return True def pollad(N): if N % 2 == 0: return 2 if is_prime(N): return N def f(x): return (x * x + 1) % N step = 0 while True: step += 1 x = step y = f(x) while True: p = gcd(y - x + N, N) if p == 0 or p == N: break if p != 1: return p x = f(x) y = f(f(y)) def prime_fact(N): if N == 1: return [] q = [] q.append(N) ret = [] while q: now = q.pop() if now == 1: continue p = pollad(now) if p == now: ret.append(p) else: q.append(p) q.append(now // p) return ret q = int(input()) for _ in range(q): a = int(input()) print(a, int(is_prime(a)))