class fenwick_tree:
    n = 1
    data = [0 for i in range(n)]

    def __init__(self, N):
        self.n = N
        self.data = [0 for i in range(N)]

    def add(self, p, x):
        assert 0 <= p < self.n, "0<=p<n,p={0},n={1}".format(p, self.n)
        p += 1
        while p <= self.n:
            self.data[p - 1] += x
            p += p & -p

    def sum(self, l, r):
        assert 0 <= l and l <= r and r <= self.n, "0<=l<=r<=n,l={0},r={1},n={2}".format(
            l, r, self.n
        )
        return self.sum0(r) - self.sum0(l)

    def sum0(self, r):
        s = 0
        while r > 0:
            s += self.data[r - 1]
            r -= r & -r
        return s


import collections

N = int(input())
A = list(map(int, input().split()))
B = list(map(int, input().split()))

if A[0] != B[0] or A[-1] != B[-1]:
    print(-1)
    exit()

A = [A[i]^A[i+1] for i in range(N-1)]
B = [B[i]^B[i+1] for i in range(N-1)]
if sorted(A) != sorted(B):
    print(-1)
    exit()

C = collections.defaultdict(collections.deque)
for i, b in enumerate(B):
    C[b].append(i)

X = []
for a in A:
    X.append(C[a].popleft())


ans = 0
G = fenwick_tree(N-1)
for x in X:
    ans += G.sum(x+1, N-1)
    G.add(x, 1)

print(ans)