import sys N_MAX = 24 HALF_N_MAX = 12 MASK_HALF_N_MAX = (1 << 12) - 1 binom = [[0] * (N_MAX + 1) for _ in range(N_MAX + 1)] for i in range(N_MAX + 1): binom[i][0] = 1 for j in range(1, i + 1): binom[i][j] = binom[i - 1][j - 1] + binom[i - 1][j] popcnt = [0] * (1 << MASK_HALF_N_MAX) for t in range(1, 1 << MASK_HALF_N_MAX): popcnt[t] = 1 + popcnt[t & (t - 1)] readline = sys.stdin.readline n, m, k = map(int, readline().split()) f = [0] * (1 << n) for i in range(m): # reversed, but it's ok s = int(readline(), 2) f[s] += 1 a = [0] * (n + 1) for l in range(k, n + 1): a[l] = (-1) ** (l - k) * binom[l - 1][l - k] # supset zeta def supset_zeta(): b = 1 while b < 1 << n: for l in range(0, 1 << n, 2 * b): for p in range(l, l + b): f[p] += f[p + b] b *= 2 supset_zeta() for t in range(1 << n): f[t] *= a[popcnt[t >> HALF_N_MAX] + popcnt[t & MASK_HALF_N_MAX]] # subset zeta f.reverse() supset_zeta() f.reverse() g = [n + 1] * (m + 1) for t in range(1 << n): g[f[t]] = min(g[f[t]], popcnt[t >> HALF_N_MAX] + popcnt[t & MASK_HALF_N_MAX]) for p in reversed(range(m)): g[p] = min(g[p], g[p + 1]) print('\n'.join(map(str, g[1:])))