def test_that_it_rolls_backward_when_it_receives_b_commmand_and_is_oriented_est( self): # given rover = Rover(5, 5, Direction.EST) command_list = [Command.BACKWARD] # when rover.move(command_list) # then assert rover.getPosition() == (4, 5)
def test_that_it_rolls_backward_when_it_receives_b_commmand_and_is_oriented_south( self): # given rover = Rover(5, 5, Direction.SOUTH) command_list = [] command_list.append(Command.BACKWARD) # when rover.move(command_list) # then assert rover.getPosition() == (5, 6)
def test_that_it_rolls_forward_when_it_receives_f_commmand_and_is_oriented_est( self): # given rover = Rover(5, 5, Direction.EST) command_list = [] command_list.append(Command.FORWARD) # when rover.move(command_list) # then assert rover.getPosition() == (6, 5)
def test_that_dont_move_backward_oriented_est_when_there_is_an_obstacle( self): # given rover = Rover(0, 9, Direction.EST) command_list = [] command_list.append(Command.BACKWARD) # when rover.move(command_list) # then assert rover.getPosition() == (0, 9)
def test_that_dont_move_forward_oriented_south_when_there_is_an_obstacle( self): # given rover = Rover(9, 0, Direction.SOUTH) command_list = [] command_list.append(Command.FORWARD) # when rover.move(command_list) # then assert rover.getPosition() == (9, 0)
def test_that_it_can_roll_over_backward_from_one_edge_of_the_grid_to_another_and_is_oriented_est( self): # given rover = Rover(0, 5, Direction.EST) command_list = [] command_list.append(Command.BACKWARD) # when rover.move(command_list) # then assert rover.getPosition() == (9, 5)
def test_that_it_can_roll_over_forward_from_one_edge_of_the_grid_to_another_and_is_oriented_sud( self): # given rover = Rover(5, 0, Direction.SOUTH) command_list = [] command_list.append(Command.FORWARD) # when rover.move(command_list) # then assert rover.getPosition() == (5, 9)
def test_that_it_returns_coordinates(self): # given rover = Rover(0, 0, Direction.NORTH) # that assert rover.getPosition() == (0, 0)