Ejemplo n.º 1
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 def test_unimplemented_methods(self):
     """Test if student implemented methods in RectangularRoom abstract class that should not be implemented"""
     room = ps3.RectangularRoom(2, 2, 1)
     self.assertRaises(NotImplementedError, room.get_num_tiles)
     pos = test.Position(1, 1)
     self.assertRaises(NotImplementedError, room.is_position_valid, pos)
     self.assertRaises(NotImplementedError, room.get_random_position)
Ejemplo n.º 2
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 def test_get_num_cleaned_tiles_OverClean(self):
     "Test cleaning already clean tiles does not increment counter"
     width, height, dirt_amount = (3, 4, 2)
     room = ps3.RectangularRoom(width, height, dirt_amount)
     # clean all of the tiles in the room
     for x, y in xyrange(width, height):
         room.clean_tile_at_position(
             test.Position(x + random.random(), y + random.random()),
             dirt_amount)
     for x, y in xyrange(width, height):
         room.clean_tile_at_position(
             test.Position(x + random.random(), y + random.random()), 1)
         num_cleaned = room.get_num_cleaned_tiles()
         self.assertEqual(
             num_cleaned, width * height,
             "Number of clean tiles is incorrect: re-cleaning cleaned tiles must not increase number of cleaned tiles"
         )
Ejemplo n.º 3
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 def test_get_num_cleaned_tiles_FullIn2(self):
     """Test get_num_cleaned_tiles for cleaning subset of room in two calls"""
     width, height, dirt_amount = (3, 4, 2)
     room = ps3.RectangularRoom(width, height, dirt_amount)
     cleaned_tiles = 0
     # Clean some tiles
     for x, y in xyrange(width - 1, height - 1):
         room.clean_tile_at_position(
             test.Position(x + random.random(), y + random.random()), 1)
         room.clean_tile_at_position(
             test.Position(x + random.random(), y + random.random()), 1)
         cleaned_tiles += 1
         num_cleaned = room.get_num_cleaned_tiles()
         self.assertEqual(
             num_cleaned, cleaned_tiles,
             "Number of clean tiles is incorrect: expected {}, got {}".
             format(cleaned_tiles, num_cleaned))
Ejemplo n.º 4
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    def test_update_position_and_cleanStandardRobot(self):
        "Test StandardRobot.update_position_and_clean"
        r = ps3.EmptyRoom(3, 5, 1)
        robot = ps3.StandardRobot(r, 1.0, 1)
        robot.set_robot_position(test.Position(1.5, 2.5))
        robot.set_robot_direction(90)
        robot.update_position_and_clean()
        self.assertEqual(
            robot.get_robot_direction(), 90,
            "Robot direction is updated incorrectly by update_position_and_clean: expected %r, got %r"
            % (90, robot.get_robot_direction()))
        # check if robot position is valid
        robotPos = robot.get_robot_position()
        correctPos = test.Position(2.5, 2.5)
        self.assertTrue(
            robotPos.get_x() == correctPos.get_x()
            and robotPos.get_y() == correctPos.get_y(),
            "Robot position is updated incorrectly by update_position_and_clean: expected %r, got %r"
            % (ps3.Position(2.5, 2.5), robot.get_robot_position()))
        self.assertTrue(
            2 >= r.get_num_cleaned_tiles() >= 1,
            "update_position_and_clean should have marked one or two tiles as clean"
        )
        self.assertTrue(
            r.is_tile_cleaned(1, 2) or r.is_tile_cleaned(2, 2),
            "update_position_and_clean should have marked either (1, 2) or (2, 2) as clean"
        )

        # Simulate a lot of time passing...
        for i in range(20):
            robot.update_position_and_clean()
            self.assertTrue(
                r.is_position_in_room(robot.get_robot_position()),
                "Robot position %r is not in room!" %
                (robot.get_robot_position(), ))
        self.assertNotEqual(
            robot.get_robot_direction(), 90,
            "Robot direction should have been changed in update_position_and_clean"
        )
        self.assertTrue(
            r.get_num_cleaned_tiles() >= 1,
            "update_position_and_clean should have marked another tile as clean"
        )
Ejemplo n.º 5
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 def test_clean_tile_at_position_PosToPos(self):
     """ Test if clean_tile_at_position removes all dirt"""
     width, height, dirt_amount = (3, 4, 2)
     room = ps3.RectangularRoom(width, height, dirt_amount)
     # Clean the tiles and confirm they are marked as clean
     for x, y in xyrange(width, height):
         room.clean_tile_at_position(
             test.Position(x + random.random(), y + random.random()),
             dirt_amount - 1)
         # using random.random in case there is any issue with specific parts of a tile
     for x, y in xyrange(width, height):
         self.assertFalse(room.is_tile_cleaned(x, y),
                          "Unclean tile {} was marked clean".format((x, y)))
Ejemplo n.º 6
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    def test_is_position_in_room(self):
        "Test is_position_in_room"
        width, height, dirt_amount = (3, 4, 2)
        room = ps3.RectangularRoom(width, height, dirt_amount)
        solution_room = test.RectangularRoom(width, height, dirt_amount)

        for x in [0.0, -0.1, width - 0.1, width, width + 0.1]:
            for y in [0.0, -0.1, height - 0.1, height, height + 0.1]:
                pos = test.Position(x, y)
                self.assertEqual(
                    solution_room.is_position_in_room(pos),
                    room.is_position_in_room(pos),
                    "position {},{} is incorrect: expected {}, got {}".format(
                        x, y, solution_room.is_position_in_room(pos),
                        room.is_position_in_room(pos)))
Ejemplo n.º 7
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    def test_is_position_valid(self):
        """ Test is_position_valid
            this should be refactored as it's mostly a copy of is_position_in_room code        
        """
        width, height, dirt_amount = (3, 4, 2)
        room = ps3.EmptyRoom(width, height, dirt_amount)
        solution_room = test.EmptyRoom(width, height, dirt_amount)

        for x in [0.0, -0.1, width - 0.1, width, width + 0.1]:
            for y in [0.0, -0.1, height - 0.1, height, height + 0.1]:
                pos = test.Position(x, y)
                self.assertEqual(
                    solution_room.is_position_valid(pos),
                    room.is_position_valid(pos),
                    "student code and solution code disagree on whether position is valid"
                )
Ejemplo n.º 8
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 def test_is_position_furnished(self):
     """ test_is_position_furnished """
     for trial in range(5):
         width, height, dirt_amount = (random.randint(2, 8),
                                       random.randint(2, 8), 1)
         # create room using student's class, set furniture tiles for solution class
         room = ps3.FurnishedRoom(width, height, dirt_amount)
         room.add_furniture_to_room()
         sol_room = test.FurnishedRoom(width, height, dirt_amount)
         # this relies on knowing the underlying details of the class
         sol_room.furniture_tiles = room.furniture_tiles
         for x, y in xyrange(width, height):
             pos = test.Position(x + random.random(), y + random.random())
             self.assertEqual(
                 room.is_position_furnished(pos),
                 sol_room.is_position_furnished(pos),
                 "student code and solution code disagree on whether position is furnished"
             )
Ejemplo n.º 9
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    def test_is_position_valid(self):
        """ Test is_position_valid
        """
        for trial in range(5):
            width, height, dirt_amount = (3, 4, 2)
            room = ps3.FurnishedRoom(width, height, dirt_amount)
            room.add_furniture_to_room()
            sol_room = test.FurnishedRoom(width, height, dirt_amount)
            sol_room.furniture_tiles = room.furniture_tiles

            for x in [
                    0.0, -0.1, width - 0.1, width, width + 0.1,
                    room.furniture_tiles[0][0] + 0.3
            ]:
                for y in [
                        0.0, -0.1, height - 0.1, height, height + 0.1,
                        room.furniture_tiles[0][1] + 0.3
                ]:
                    pos = test.Position(x, y)
                    self.assertEqual(
                        sol_room.is_position_valid(pos),
                        room.is_position_valid(pos),
                        "student code and solution code disagree on whether position is valid"
                    )