import collections
import itertools
def f(c,m):
  C=len(c)
  c=[int(i) for i in c]
  dp=[[] for i in range(1<<C)]
  dp[0].append(0)
  for i in range(1<<C):
    j=bin(i).count('1')
    for k in range(C):
      if (i>>k)&1==0:
        for l in dp[i]:
          dp[i+2**k].append((l+q[m+k][c[j]])%p)
  cnt=1
  for i in collections.Counter(c).values():
    cnt*=fact[i]
  t=collections.Counter(dp[-1])
  return t,cnt

def f2(c,m):
  C=len(c)
  c=[int(i) for i in c]
  dp=[[] for i in range(1<<C)]
  dp[0].append(0)
  for i in range(1<<C):
    j=bin(i).count('1')
    for k in range(C):
      if (i>>k)&1==0:
        for l in dp[i]:
          dp[i+2**k].append((l+q[m+k][c[j]])%p)
  cnt=1
  for i in collections.Counter(c).values():
    cnt*=fact[i]
  return dp[-1],cnt
n,p=map(int,input().split())
c=list(map(int,input().split()))
a=[]
for i in range(9):
  for j in range(c[i]):
    a.append(str(i+1))
all=tuple(itertools.combinations(a,n//2))
ans=0
q=[[0]*10 for i in range(n+1)]
for i in range(n+1):
  for j in range(10):
    q[i][j]=pow(10,i,p)*j%p
fact=[1]*(n+1)
for i in range(1,n+1):
  fact[i]=fact[i-1]*i
s=set()
for x in all:
  y=''.join(x)
  if y in s:
    continue
  s.add(y)
  b=a.copy()
  for i in x:
    b.remove(i)
  d1,n1=f2(x,(n+1)//2)
  d2,n2=f(b,0)
  n3=n1*n2
  num=0
  for i in d1:
    if i==0:
      if 0 in d2:
        num+=d2[0]
    elif p-i in d2:
      num+=d2[p-i]
  ans+=num//n3
print(ans)