from typing import List


def supset_zeta(f: List[int]):
    n = len(f)
    b = 1
    while b < n:
        l = 0
        while l < n:
            for p in range(l, l + b):
                f[p] += f[p + b]
            l += 2 * b
        b *= 2

def subset_zeta(f: List[int]):
    n = len(f)
    b = 1
    while b < n:
        l = 0
        while l < n:
            for p in range(l, l + b):
                f[p + b] += f[p]
            l += 2 * b
        b *= 2

N_MAX = 24
popcnt = [0] * (1 << N_MAX)
for t in range(1, 1 << N_MAX):
    popcnt[t] = 1 + popcnt[t & (t - 1)]

def calc_f(n: int, m: int, k: int, s: List[int]):
    binom = [[0] * (n + 1) for _ in range(n + 1)]
    for i in range(n + 1):
        binom[i][0] = 1
        for j in range(1, i + 1):
            binom[i][j] = binom[i - 1][j - 1] + binom[i - 1][j]
    
    a = [0] * (n + 1)
    for l in range(k, n + 1):
        a[l] = 1
        for i in range(k, l):
            a[l] -= a[i] * binom[l][i]
    
    f = [0] * (1 << n)
    for u in s:
        f[u] += 1
    supset_zeta(f)

    for t in range(1 << n):
        if popcnt[t] < k:
            f[t] = 0
        else:
            f[t] *= a[popcnt[t]]
    subset_zeta(f)
    return f

def calc_g(n: int, m: int, f: List[int]):
    g = [n + 1] * (m + 1)
    for t in range(1 << n):
        g[f[t]] = min(g[f[t]], popcnt[t])
    for p in reversed(range(m)):
        g[p] = min(g[p], g[p + 1])
    return g

if __name__ == '__main__':
    n, m, k = map(int, input().split())
    s = [0] * m
    for i in range(m):
        si = input()
        for j in range(n):
            s[i] |= (ord(si[j]) - ord('0')) << j
    f = calc_f(n, m, k, s)
    g = calc_g(n, m, f)
    print(*g[1:], sep='\n')