Ejemplos de do_right_turn en Python

Ejemplo n.º 1

def path_finder_s(robot_name):
    global final_dest
    x_pos, y_pos = robot.world.get_position()
    edge_found = False
    flag, output = robot.do_right_turn(robot_name)
    print(output)
    flag, output = robot.do_right_turn(robot_name)
    print(output)
    while edge_found is False:
        s_wall_x, s_wall_y = find_s_wall()
        #print(f"{s_wall_x}, {s_wall_y} somewhere 1")
        move_to_wall_s(s_wall_x, s_wall_y, robot_name)
       # print("somewhere 2")
        x_pos, y_pos = robot.world.get_position()
        if y_pos == -200:
            print("edgeZN")
            edge_found = True
            break
        # print(f"s_wall_y{s_wall_y}")
        door_x = find_door_s(s_wall_y)

        move_to_door_s(door_x, robot_name)
      #
        x_pos, y_pos = robot.world.get_position()

    #print("end of loop")
    return "Zen"

Ejemplo n.º 2

def move_to_door_e(y_door, robot_name):
    x_pos, y_pos = robot.world.get_position()

    if y_pos < y_door:
        # move up
        flag, output = robot.do_left_turn(robot_name)
        print(output)
        steps = y_door - y_pos + 2
        flag, output = robot.do_forward(robot_name, steps)
        print(output)

        print(robot.world.show_position(robot_name))
        flag, output = robot.do_right_turn(robot_name)
        print(output)

    elif y_pos > y_door:
        # move down
        flag, output = robot.do_right_turn(robot_name)

        print(output)
        steps = y_pos - y_door
        flag, output = robot.do_forward(robot_name, steps)
        print(output)

        print(robot.world.show_position(robot_name))
        flag, output = robot.do_left_turn(robot_name)

        print(output)

    elif y_pos == y_door:
        if robot.obstacles.is_position_blocked(x_pos + 1, y_pos+1) is False:
            # move right 1 unit.
            flag, output = robot.do_right_turn(robot_name)

            print(output)
            flag, output = robot.do_forward(robot_name, 1)
            print(output)
            print(robot.world.show_position(robot_name))

            flag, output = robot.do_left_turn(robot_name)

            print(output)

        elif robot.obstacles.is_position_blocked(x_pos - 1, y_pos + 1) is False:
            # move left
            flag, output = robot.do_left_turn(robot_name)

            print(output)
            flag, output = robot.do_forward(robot_name, 1)
            print(output)
            print(robot.world.show_position(robot_name))

            flag, output = robot.do_right_turn(robot_name)
            print(output)

    return True

Ejemplo n.º 3

def move_to_door_s(x_door, robot_name):
    x_pos, y_pos = robot.world.get_position()

    if x_pos < x_door:
        # move right ++
        flag, output = robot.do_left_turn(robot_name)
        print(output)
        steps = x_door - x_pos + 2
        flag, output = robot.do_forward(robot_name, steps)
        print(output)
        print(robot.world.show_position(robot_name))
        flag, output = robot.do_right_turn(robot_name)
        print(output)

    elif x_pos > x_door:
        # move left --
        flag, output = robot.do_right_turn(robot_name)

        print(output)
        steps = x_pos - x_door + 2
        flag, output = robot.do_forward(robot_name, steps)
        print(output)
        print(robot.world.show_position(robot_name))
        flag, output = robot.do_left_turn(robot_name)
        print(output)

    elif x_pos == x_door:
        if robot.obstacles.is_position_blocked(x_pos + 1, y_pos+1) is False:
            # move right 1 unit.
            flag, output = robot.do_right_turn(robot_name)

            print(output)
            flag, output = robot.do_forward(robot_name, 1)
            print(output)
            print(robot.world.show_position(robot_name))

            flag, output = robot.do_left_turn(robot_name)

            print(output)

        elif robot.obstacles.is_position_blocked(x_pos - 1, y_pos + 1) is False:
            # move left
            flag, output = robot.do_left_turn(robot_name)

            print(output)
            flag, output = robot.do_forward(robot_name, 1)
            print(output)
            print(robot.world.show_position(robot_name))

            flag, output = robot.do_right_turn(robot_name)
            print(output)

    return True

Ejemplo n.º 4

def path_finder_e(robot_name):
    global final_dest
    x_pos, y_pos = robot.world.get_position()
    flag, output = robot.do_right_turn(robot_name)
    print(output)
    edge_found = False
    while edge_found is False:
        e_wall_x, e_wall_y = find_e_wall()
       # print("somewhere 1")
        move_to_wall_e(e_wall_x, e_wall_y, robot_name)
       # print("somewhere 2")
        x_pos, y_pos = robot.world.get_position()
        if x_pos == 100:
            # print("edgeZN")
            edge_found = True
            break
        print(f"e-wally{e_wall_x}")
        door_y = find_door_e(e_wall_x)
        print(f"{door_y}door-x")
      #  print("somewhere 3")
        move_to_door_e(door_y, robot_name)
      #  print("somewhere 4")
        x_pos, y_pos = robot.world.get_position()

    #print("end of loop")
    return "Zen"

Ejemplo n.º 5

Archivo: test_robot.py Proyecto: fapatelJHB/Toy-robot-4

 def test_do_right_turn(self):
     with captured_io(StringIO("right\n")):
         self.assertEqual(robot.do_right_turn("HAL"),
                          (True, " > HAL turned right."))

Ejemplo n.º 6

Archivo: test_robot.py Proyecto: kylefortuin/my_projects

 def test_do_right_turn(self):
     output5 = True, ' > RON turned right.'
     self.assertEqual(do_right_turn("RON"), output5)