import sys
readline=sys.stdin.readline
def SCC(N,edges):
start = [0] * (N + 1)
elist = [0] * len(edges)
for e in edges:
start[e[0] + 1] += 1
for i in range(1, N + 1):
start[i] += start[i - 1]
counter = start[:]
for e in edges:
elist[counter[e[0]]] = e[1]
counter[e[0]] += 1
N = N
now_ord = group_num = 0
visited = []
low = [0] * N
order = [-1] * N
ids = [0] * N
parent = [-1] * N
stack = []
for i in range(N):
if order[i] == -1:
stack.append(i)
stack.append(i)
while stack:
v = stack.pop()
if order[v] == -1:
low[v] = order[v] = now_ord
now_ord += 1
visited.append(v)
for i in range(start[v], start[v + 1]):
to = elist[i]
if order[to] == -1:
stack.append(to)
stack.append(to)
parent[to] = v
else:
low[v] = min(low[v], order[to])
else:
if low[v] == order[v]:
while True:
u = visited.pop()
order[u] = N
ids[u] = group_num
if u == v:
break
group_num += 1
if parent[v] != -1:
low[parent[v]] = min(low[parent[v]], low[v])
for i, x in enumerate(ids):
ids[i] = group_num - 1 - x
groups = [[] for _ in range(group_num)]
for i, x in enumerate(ids):
groups[x].append(i)
return groups
class TwoSAT:
def __init__(self,N):
self.N=N
self.edges=[]
def Add_Clause(self,i,f,j,g):
assert 0<=i<self.N
assert 0<=j<self.N
self.edges.append((2*i+(0 if f else 1),2*j+(1 if g else 0)))
self.edges.append((2*j+(0 if g else 1),2*i+(1 if f else 0)))
def Satisfiable(self):
scc=SCC(2*self.N,self.edges)
idx=[None]*2*self.N
for i,lst in enumerate(scc):
for x in lst:
idx[x]=i
retu=[None]*self.N
for i in range(self.N):
if idx[2*i]==idx[2*i+1]:
return None
retu[i]=idx[2*i]<idx[2*i+1]
return retu
N=int(readline())
S=list(map(int,readline().split()))
T=list(map(int,readline().split()))
U=list(map(int,readline().split()))
TSAT=TwoSAT(N**2)
for s,t,u in zip(S,T,U):
s-=1;t-=1
for j in range(N):
TSAT.Add_Clause(s*N+j,u&1,j*N+t,u&2)
lst=TSAT.Satisfiable()
if lst:
ans_lst=[[int(lst[i*N+j])^1 for j in range(N)]for i in range(N)]
for ans in ans_lst:
print(*ans)
else:
print(-1)