import sys input = lambda: sys.stdin.readline().rstrip() ii = lambda: int(input()) mi = lambda: map(int, input().split()) li = lambda: list(mi()) INF = 2 ** 63 - 1 mod = 998244353 from math import gcd import random from collections import defaultdict def is_prime(n): if n == 1: return False if n < 100: for i in range(2, n): if n % i == 0: return False return True if n==1 or n&1==0: return False d=(n-1)>>1 while d&1==0: d>>=1 for a in [2, 325,9375,28178,450775,9780504,1795265022]: t=d y=pow(a, t, n) while t!=n-1 and y!=1 and y!=n-1: y=(y*y)%n t<<=1 if y!=n-1 and t&1==0: return False return True def prime_fact(N): res=defaultdict(int) if N==1: return res p=2 while(p<=10**4 and N>1): if N%p==0: while(N%p==0): res[p]+=1 N//=p p+=1 while(N>1): if is_prime(N): res[N]+=1 break x=random.randrange(N) y=(x*x+1)%N i=1 while(True): d=gcd(abs(x-y),N) if d==1: i+=1 elif d==N: res[N]+=1 return res else: res[d]+=1 N//=d break x=(x*x+1)%N y=(y*y+1)%N y=(y*y+1)%N return res for _ in range(ii()): n = ii() print(n, int(is_prime(n)))