def mat_prod(m1, m2):
    m2t = tuple(zip(*m2))
    return [[max(m1ik + m2kj for m1ik, m2kj in zip(m1i, m2_j)) for m2_j in m2t] for m1i in m1]

def mat_pow(m, p):
    if p == 1:
        return m
    mp = mat_pow(m, p // 2)
    mp = mat_prod(mp, mp)
    if p % 2:
        mp = mat_prod(mp, m)
    return mp

def mat_pow_vec(m, p, v):
    if p == 0:
        return v
    mp = mat_pow(m, p)
    return [max(mpij + vj for mpij, vj in zip(mpi, v)) for mpi in mp]

n, m = map(lambda s_: int(s_), input().split())
t = tuple(map(lambda s_: int(s_), input().split()))
a = [tuple(map(lambda s_: int(s_), input().split())) for _ in range(n)]
at = list(zip(*a))
nv = mat_pow_vec(at, m - 1, t)
print(*[max(nv[j] + ati[j] for j in range(n) if i != j) for i, ati in enumerate(at)])