def matrix_mul(A,B,mod = None): nA = len(A) mA = len(A[0]) mB = len(B[0]) tmp = [[0]*mB for _ in range(nA)] if mod is None: for i in range(nA): for j in range(mB): tmp[i][j] = sum(A[i][k]*B[k][j] for k in range(mA)) return tmp for i in range(nA): for j in range(mB): tmp[i][j] = sum(A[i][k]*B[k][j]%mod for k in range(mA))%mod return tmp def matrix_pow(A,n,mod = None): nbit = list(str(bin(n))[2:]) nbit = [int(i) for i in nbit] N = len(A) C = [[0]*N for _ in range(N)] B = A for i in range(N): C[i][i] = 1 if mod is None: for i in range(len(nbit)): if nbit[-1-i] == 1: C = matrix_mul(C,B) B = matrix_mul(B,B) return C for i in range(len(nbit)): if nbit[-1-i] == 1: C = matrix_mul(C,B,mod) B = matrix_mul(B,B,mod) return C mod = 10**9 + 7 N = int(input()) A = [[0]*6 for _ in range(6)] for i in range(5): A[i][i+1] = 1 for i in range(6): A[5][i] = pow(6,-1,mod) INIT = [[166666668], [194444446], [893518525], [209104940], [577289099], [506837281]] print(*matrix_mul(matrix_pow(A,N-1,mod),INIT,mod)[0])