M = 10**3 spf = [i for i in range(M+1)] for i in range(2,M+1): if spf[i]==i: for j in range(2*i,M+1,i): spf[j] = i prime = [i for i in range(2,M+1) if spf[i]==i] def factorization(n): assert 1<=n<=10**6 res = {} for p in prime: cnt = 0 while n%p==0: cnt += 1 n //= p if cnt: res[p] = cnt if n!=1: res[n] = 1 return res def divisors(M): d=[] i=1 while M>=i**2: if M%i==0: d.append(i) if i**2!=M: d.append(M//i) i=i+1 return d from collections import deque N = int(input()) A = list(map(int,input().split())) M = 10**6 pre = [0 for i in range(M+1)] all_divisors = set() for a in A: a_prime = factorization(a) for p in a_prime: pre[p] = max(pre[p],pow(p,a_prime[p])) div = divisors(a) for d in div: all_divisors.add(d) P = [val for val in pre if val!=0][::-1] n = len(P) p = [P[0]] prod = P[0] for i in range(1,n): p.append(P[i]) prod *= P[i] if M < prod: break else: exit(print(-1)) k = len(p) S = [[] for i in range(k)] for a in A: for i in range(k): if a%p[i]: S[i].append(a) break print(k) for i in range(k): S[i] = [len(S[i])] + S[i] print(*S[i])