def check(n,x,y,M):
    block = [M[x//3*3][y//3*3],M[x//3*3][y//3*3+1],M[x//3*3][y//3*3+2],
             M[x//3*3+1][y//3*3],M[x//3*3+1][y//3*3+1],M[x//3*3+1][y//3*3+2],
             M[x//3*3+2][y//3*3],M[x//3*3+2][y//3*3+1],M[x//3*3+2][y//3*3+2]]
    if n in M[x]:
        return False
    elif n in [M[_][y] for _ in range(9)]:
        return False
    elif n in block:
        return False
    else:
        return True

def solu(M):
    global maze
    for i in range(9):
        for j in range(9):
            if M[i][j] == 0:
                for k in range(1,10):
                    if check(k,i,j,M):
                        M[i][j] = k
                        if solu(M.copy()):
                            maze = M
                            return True
                    M[i][j] = 0
                return False
    return True

while True:
    try:
        maze = []
        for i in range(9):
            maze.append(list(map(int,input().split())))
        result = solu(maze.copy())
        for _ in range(9):
            print(*maze[_])
    except:
        break