mod=998244353;n=5*10**5
inv_t=[0]+[1]
for i in range(2,n):
  inv_t+=[inv_t[mod%i]*(mod-int(mod/i))%mod]

kai=[1,1]
rev_kai=[1,inv_t[1]]
for i in range(2,n):
  kai.append(kai[-1]*i%mod)
  rev_kai.append(rev_kai[-1]*inv_t[i]%mod)

def cmb(n,r):
  return kai[n]*rev_kai[r]*rev_kai[n-r]%mod


N=int(input())
ans=[]

if N%2==0:
  c=N//2
  for i in range(N+1):
    if i%2==1:
      ans.append(0)
      continue
    cc=cmb(N,c)
    if i!=0:
      cc=cc*2%mod
    ans.append(cc)
    c+=1
else:
  c=N//2+1
  for i in range(N+1):
    if i%2==0:
      ans.append(0)
      continue
    cc=cmb(N,c)*2
    ans.append(cc%mod)
    c+=1
print(*ans)