Exemplo n.º 1
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 def test_start_move():
     self.assertEqual(
         test_pawn.possible_moves(),
         [Coordinate(0, 2), Coordinate(0, 3)])
     test_move(test_pawn, Coordinate(0, 3))
     self.assertEqual(Coordinate(test_pawn.x, test_pawn.y),
                      Coordinate(0, 3))
Exemplo n.º 2
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 def test_possible_moves():
     self.desk.add_piece(Coordinate(0, 1), 'R', Colour.BLACK)
     self.desk.add_piece(Coordinate(3, 0), 'N', Colour.BLACK)
     self.assertEqual(len(test_white_king.possible_moves()), 2)
     self.desk.add_piece(Coordinate(5, 2), 'R', Colour.BLACK)
     test_white_king.was_moving = False
     self.assertEqual(len(test_white_king.possible_moves()), 1)
Exemplo n.º 3
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 def test_black_start_move_and_last_move():
     self.assertEqual(
         test_enemy_pawn_to_take_on_the_aisle.possible_moves(),
         [Coordinate(0, 5), Coordinate(0, 4)])
     self.desk.set_last_move(
         Move(test_enemy_pawn_to_take_on_the_aisle, Coordinate(0, 4)))
     test_move(test_enemy_pawn_to_take_on_the_aisle, Coordinate(0, 4))
Exemplo n.º 4
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    def do(self, message):
        try:
            if('playerId' not in message):
                raise Exception("No player ID in message")
            self.canonicalize(message)
            if(message['name'] == 'move'):
                unit = message['unit']
                move_to = Coordinate(message['to']['x'], message['to']['y'])
                self.move(unit, move_to)
            elif(message['name'] == 'attack'):
                attacker = message['attacker']
                defender = message['defender']
                self.attack(attacker, defender)
            elif(message['name'] == 'build'):
                army = self._find_army(message['army'])
                location = Coordinate(message['at']['x'], message['at']['y'])
                self.build(army, message['unit_name'], location)
            elif(message['name'] == 'end_turn'):
                army = self._find_army(message['army'])
                if(army.is_turn()):
                    army.end_turn()
                self.scenario.next_army()

        except Exception as e:
            # need to do a better job of error reporting here
            print(e)
            return self.flat()

        return self.flat()
Exemplo n.º 5
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 def test_bishop(self):
     self.desk.clear_desk()
     start_coordinate = Coordinate(3, 4)
     test_bishop = self.desk.add_piece(start_coordinate, 'B', Colour.WHITE)
     for coordinate in test_bishop.possible_moves():
         self.assertEqual(abs(coordinate.x - start_coordinate.x),
                          abs(coordinate.y - start_coordinate.y))
     self.assertEqual(len(test_bishop.possible_moves()), 13)
     self.desk.add_piece(Coordinate(4, 5), '', Colour.BLACK)
     self.desk.add_piece(Coordinate(2, 3), '', Colour.WHITE)
     self.assertEqual(len(test_bishop.possible_moves()), 8)
Exemplo n.º 6
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 def test_check_on_mate(self):
     self.desk.add_piece(Coordinate(1, 0), 'K', Colour.WHITE)
     self.desk.add_piece(Coordinate(2, 2), 'Q', Colour.BLACK)
     self.desk.add_piece(Coordinate(0, 2), 'K', Colour.BLACK)
     self.assertEqual(self.desk.check_on_mate(Colour.WHITE),
                      StatesOfGame.STALEMATE)
     self.desk.add_piece(Coordinate(1, 1), 'Q', Colour.BLACK)
     self.assertEqual(self.desk.check_on_mate(Colour.WHITE),
                      StatesOfGame.CHECKMATE)
     self.assertEqual(self.desk.check_on_mate(Colour.BLACK),
                      StatesOfGame.RUN)
Exemplo n.º 7
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    def get_neighbors(self, coordinate):
        neighbors = []
        if (coordinate.x < len(self.board[0]) - 1):
            neighbors.append(Coordinate(coordinate.x + 1, coordinate.y))
        if (coordinate.x > 0):
            neighbors.append(Coordinate(coordinate.x - 1, coordinate.y))
        if (coordinate.y < len(self.board) - 1):
            neighbors.append(Coordinate(coordinate.x, coordinate.y + 1))
        if (coordinate.y > 0):
            neighbors.append(Coordinate(coordinate.x, coordinate.y - 1))

        return neighbors
Exemplo n.º 8
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def get_path_test():
    board = MockBoard()
    cost_table = {
        'plain': 1,
    }
    finder = PathFinder(board)
    path = finder.get_path(cost_table, Coordinate(0, 0), Coordinate(1, 2))

    json_path = [tile.as_json() for tile in path]
    assert json_path == [
        '{"x": 1, "y": 0}', '{"x": 2, "y": 0}', '{"x": 3, "y": 0}',
        '{"x": 4, "y": 0}', '{"x": 5, "y": 0}', '{"x": 5, "y": 1}',
        '{"x": 5, "y": 2}', '{"x": 5, "y": 3}', '{"x": 5, "y": 4}',
        '{"x": 5, "y": 5}', '{"x": 4, "y": 5}', '{"x": 3, "y": 5}',
        '{"x": 3, "y": 4}', '{"x": 2, "y": 4}', '{"x": 1, "y": 4}',
        '{"x": 0, "y": 4}', '{"x": 0, "y": 3}', '{"x": 0, "y": 2}',
        '{"x": 1, "y": 2}'
    ]

    assert_raises(NoPathFound, finder.get_path, cost_table, Coordinate(0, 0),
                  Coordinate(3, 2))

    path = finder.get_path(cost_table, Coordinate(0, 0), Coordinate(2, 0))
    json_path = [tile.as_json() for tile in path]
    assert json_path == ['{"x": 1, "y": 0}', '{"x": 2, "y": 0}']

    path = finder.get_path(cost_table, Coordinate(0, 0), Coordinate(0, 0))
    assert path == []
Exemplo n.º 9
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    def tiles_in_range(self, cost_table, from_position, max_cost):
        can_move_to = []

        # add 1 to max cost so we're working on a closed interval
        for x in range(-max_cost, max_cost + 1):
            for y in range(-max_cost, max_cost + 1):
                if y == 0 and x == 0 or abs(y) + abs(x) > max_cost:
                    continue
                try:
                    to_position = Coordinate(from_position.x + x,
                                             from_position.y + y)
                except BadCoordinateCreation:
                    continue

                if self.board.is_on_board(to_position):
                    try:
                        path = self.get_path(cost_table, from_position,
                                             to_position)

                        if from_position in path:
                            path.remove(from_position)
                        if self.path_cost(path, cost_table) <= max_cost:
                            can_move_to.append(to_position)
                    except NoPathFound:
                        continue

        return can_move_to
Exemplo n.º 10
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 def test_rook(self):
     self.desk.clear_desk()
     start_coordinate = Coordinate(3, 4)
     test_rook = self.desk.add_piece(start_coordinate, 'R', Colour.WHITE)
     for coordinate in test_rook.possible_moves():
         self.assertTrue(start_coordinate.x == coordinate.x
                         or start_coordinate.y == coordinate.y)
Exemplo n.º 11
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 def _add_object(self, army_name, data, object_type):
     location = Coordinate(data['x'], data['y'])
     if (self.space_occupied(location)):
         msg = "Attempt to occupy a location that is already taken"
         raise BadScenarioData(msg)
     army = self._find_army(army_name)
     self._build_type(army, data, location, object_type)
     self.object_coordinates.append(location)
Exemplo n.º 12
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 def _get_target(self, msg):
     targets = []
     for msg_target in msg.targets:
         coordinate = Coordinate(msg_target.x, msg_target.y, msg_target.z)
         targets.append(Target(coordinate))
     target = self.find_closest.find(targets)
     rospy.loginfo("Closest target is at [{0}, {1}, {2}]".format(
         target.x, target.y, target.z))  # debugging
     return target
Exemplo n.º 13
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def get_tile_test():
    tiles = []
    for row in range(0, 30):
        tiles.append([])
        for col in range(0, 5):
            tiles[row].append(MockTile("{0} {1}".format(col, row)))

    board = Board(tiles, {})
    tile = board.get_tile_at_coordinate(Coordinate(1, 4))
    assert tile.tile_type == "1 4"
    tile = board.get_tile_at_coordinate(Coordinate(3, 10))
    assert tile.tile_type == "3 10"
    tile = board.get_tile_at_coordinate(Coordinate(0, 0))
    assert tile.tile_type == "0 0"
    tile = board.get_tile_at_coordinate(Coordinate(4, 29))
    assert tile.tile_type == "4 29"
    assert_raises(IndexError, board.get_tile_at_coordinate,
                  Coordinate(100, 100))
Exemplo n.º 14
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 def test_queen(self):
     self.desk.clear_desk()
     start_coordinate = Coordinate(3, 4)
     test_queen = self.desk.add_piece(start_coordinate, 'Q', Colour.WHITE)
     for coordinate in test_queen.possible_moves():
         self.assertTrue(start_coordinate.x == coordinate.x
                         or start_coordinate.y == coordinate.y
                         or abs(coordinate.x - start_coordinate.x)
                         == abs(coordinate.y - start_coordinate.y))
Exemplo n.º 15
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def move_test():
    unit = test_unit()
    assert unit.movement_range() == 5
    unit.move(Coordinate(5, 5), 3)
    assert unit.movement_range() == 2
    coordinate = unit.get_coordinate()
    assert coordinate.x == 5
    assert coordinate.y == 5
    assert not unit.can_move(5)
    assert not unit.can_move(2)
Exemplo n.º 16
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    def test_king(self):
        def set_rooks():
            self.desk.add_piece(Coordinate(0, 0), 'R', Colour.WHITE)
            self.desk.add_piece(Coordinate(7, 0), 'R', Colour.WHITE)
            self.desk.add_piece(Coordinate(0, 7), 'R', Colour.BLACK)
            self.desk.add_piece(Coordinate(7, 7), 'R', Colour.BLACK)

        def test_castling():
            self.assertEqual(len(test_white_king.possible_moves()), 5)
            set_rooks()
            self.assertEqual(len(test_white_king.possible_moves()), 7)
            test_white_king.was_moving = True
            self.assertEqual(len(test_white_king.possible_moves()), 5)
            self.assertEqual(len(test_black_king.possible_moves()), 7)
            self.desk.desk[0][7].piece.was_moving = True
            self.assertEqual(len(test_black_king.possible_moves()), 6)
            self.desk.desk[7][7].piece.was_moving = True
            self.assertEqual(len(test_black_king.possible_moves()), 5)

        def test_defence():
            self.assertEqual(len(test_white_king.possible_moves(defend=True)),
                             5)

        def test_possible_moves():
            self.desk.add_piece(Coordinate(0, 1), 'R', Colour.BLACK)
            self.desk.add_piece(Coordinate(3, 0), 'N', Colour.BLACK)
            self.assertEqual(len(test_white_king.possible_moves()), 2)
            self.desk.add_piece(Coordinate(5, 2), 'R', Colour.BLACK)
            test_white_king.was_moving = False
            self.assertEqual(len(test_white_king.possible_moves()), 1)

        self.desk.clear_desk()
        start_coordinate_white = Coordinate(4, 0)
        start_coordinate_black = Coordinate(4, 7)
        test_white_king = self.desk.add_piece(start_coordinate_white, 'K',
                                              Colour.WHITE)
        test_black_king = self.desk.add_piece(start_coordinate_black, 'K',
                                              Colour.BLACK)
        test_castling()
        test_defence()
        test_possible_moves()
Exemplo n.º 17
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def zero_health_test():
    unit = test_unit()
    assert not unit.is_dead()
    unit.do_damage(10)
    assert not unit.is_dead()
    unit.do_damage(10)
    assert not unit.is_dead()
    unit.do_damage(10)
    assert unit.is_dead()
    unit = Unit('tank', 'tred', 'cannon', MockArmor('plate', 0),
                Coordinate(1, 4), 'dragon')
    assert unit.is_dead()
Exemplo n.º 18
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 def test_knight(self):
     self.desk.clear_desk()
     start_coordinate = Coordinate(0, 0)
     test_knight = self.desk.add_piece(start_coordinate, 'N', Colour.WHITE)
     self.assertListEqual(
         test_knight.possible_moves(),
         [Coordinate(1, 2), Coordinate(2, 1)])
     self.desk.add_piece(Coordinate(1, 2), '', Colour.WHITE)
     self.desk.add_piece(Coordinate(2, 1), '', Colour.BLACK)
     self.assertListEqual(test_knight.possible_moves(), [Coordinate(2, 1)])
     self.assertListEqual(
         test_knight.possible_moves(defend=True),
         [Coordinate(1, 2), Coordinate(2, 1)])
     self.assertEqual(str(test_knight), 'N_w')
Exemplo n.º 19
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def get_neighbors_test():
    board = get_test_board()
    neighbors = board.get_neighbors(Coordinate(0, 0))
    coordinate_sort = lambda c: c['x'] + c['y']
    assert sorted([tile.flat() for tile in neighbors],
                  key=coordinate_sort) == ([{
                      'y': 0,
                      'x': 1
                  }, {
                      'y': 1,
                      'x': 0
                  }])
    neighbors = board.get_neighbors(Coordinate(2, 2))
    assert sorted([tile.flat() for tile in neighbors],
                  key=coordinate_sort) == ([{
                      'y': 2,
                      'x': 1
                  }, {
                      'y': 1,
                      'x': 2
                  }, {
                      'y': 2,
                      'x': 3
                  }, {
                      'y': 3,
                      'x': 2
                  }])
    neighbors = board.get_neighbors(Coordinate(9, 99))
    assert sorted([tile.flat() for tile in neighbors],
                  key=coordinate_sort) == ([{
                      'y': 99,
                      'x': 8
                  }, {
                      'y': 98,
                      'x': 9
                  }])
    neighbors = board.get_neighbors(Coordinate(1000, 1000))
    assert neighbors == []
Exemplo n.º 20
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def get_range_test():
    board = MockBoard()
    cost_table = {
        'plain': 1,
    }
    finder = PathFinder(board)
    path = finder.tiles_in_range(cost_table, Coordinate(0, 0), 3)

    json_path = [tile.as_json() for tile in path]
    assert json_path == [
        '{"x": 1, "y": 0}', '{"x": 2, "y": 0}', '{"x": 3, "y": 0}'
    ]

    cost_table = {
        'plain': 2,
    }
    path = finder.tiles_in_range(cost_table, Coordinate(0, 0), 4)

    json_path = [tile.as_json() for tile in path]
    assert json_path == ['{"x": 1, "y": 0}', '{"x": 2, "y": 0}']

    path = finder.tiles_in_range(cost_table, Coordinate(0, 6), 2)

    json_path = [tile.as_json() for tile in path]
    assert json_path == ['{"x": 0, "y": 5}', '{"x": 1, "y": 6}']

    path = finder.tiles_in_range(cost_table, Coordinate(0, 6), 4)

    json_path = [tile.as_json() for tile in path]
    assert json_path == [
        '{"x": 0, "y": 4}', '{"x": 0, "y": 5}', '{"x": 1, "y": 5}',
        '{"x": 1, "y": 6}', '{"x": 2, "y": 6}'
    ]

    path = finder.tiles_in_range(cost_table, Coordinate(0, 0), 0)
    assert path == []
Exemplo n.º 21
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 def canonicalize(self, message):
     if('type' in message and 'name' not in message):
         message['name'] = message['type']
         del message['type']
     for unit_key in ['unit', 'attacker', 'defender']:
         if unit_key in message:
             if isinstance(message[unit_key], dict):
                 if('x' in message[unit_key] and 'y' in message[unit_key]):
                     location = Coordinate(message[unit_key]['x'],
                                           message[unit_key]['y'])
                     message[unit_key] = self.unit_at(location)
                 elif('id' in message[unit_key]):
                     message[unit_key] = self._find_unit(message[unit_key]['id'])
             if unit_key in ['attacker', 'unit']:
                 if(message[unit_key].army != self.scenario.armies[self.playerNumber(message['playerId'])].name):
                     raise Exception("Player not in control of army")
Exemplo n.º 22
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def comparison_test():
    coord1 = Coordinate(5, 5)
    coord2 = Coordinate(5, 2)
    coord3 = Coordinate(2, 5)
    coord4 = Coordinate(5, 5)
    assert coord1 == coord4
    assert coord1 != coord2
    assert coord2 != coord3
    assert coord3 != coord1

    coords = [coord1, coord4, coord2, coord3]
    assert Coordinate(5, 5) in coords
    assert Coordinate(1, 5) not in coords
Exemplo n.º 23
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    def get_neighbors(self, coordinate):
        neighbors = []
        x = coordinate.x
        y = coordinate.y
        potential_neighbors = [
            (x + 1, y),
            (x, y + 1),
        ]
        if(x > 0):
            potential_neighbors.append((x - 1, y))
        if(y > 0):
            potential_neighbors.append((x, y - 1))

        for neighbor in potential_neighbors:
            try:
                checkOnBoard = Coordinate(neighbor[0], neighbor[1])
                if(self.is_on_board(checkOnBoard)):
                    neighbors.append(checkOnBoard)
            except BadCoordinateCreation:
                pass

        return neighbors
Exemplo n.º 24
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 def test_possible():
     self.assertEqual(
         test_pawn.possible_moves(),
         [Coordinate(0, 4), Coordinate(1, 4)])
     test_move(test_pawn, Coordinate(1, 4))
     self.assertEqual(self.desk.desk[1][4].piece, test_pawn)
Exemplo n.º 25
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    def test_pawn(self):
        self.desk.clear_desk()

        def test_move(piece, coordinate):
            self.desk.move_piece(None, piece, coordinate)
            self.assertEqual(Coordinate(piece.x, piece.y), coordinate)

        def test_start_move():
            self.assertEqual(
                test_pawn.possible_moves(),
                [Coordinate(0, 2), Coordinate(0, 3)])
            test_move(test_pawn, Coordinate(0, 3))
            self.assertEqual(Coordinate(test_pawn.x, test_pawn.y),
                             Coordinate(0, 3))

        def test_possible():
            self.assertEqual(
                test_pawn.possible_moves(),
                [Coordinate(0, 4), Coordinate(1, 4)])
            test_move(test_pawn, Coordinate(1, 4))
            self.assertEqual(self.desk.desk[1][4].piece, test_pawn)

        def test_defend():
            self.assertEqual(
                test_pawn.possible_moves(defend=True),
                [Coordinate(1, 5),
                 Coordinate(2, 5),
                 Coordinate(0, 5)])

        def test_black_start_move_and_last_move():
            self.assertEqual(
                test_enemy_pawn_to_take_on_the_aisle.possible_moves(),
                [Coordinate(0, 5), Coordinate(0, 4)])
            self.desk.set_last_move(
                Move(test_enemy_pawn_to_take_on_the_aisle, Coordinate(0, 4)))
            test_move(test_enemy_pawn_to_take_on_the_aisle, Coordinate(0, 4))

        def test_take_on_the_aisle():
            self.assertEqual(
                test_pawn.possible_moves(),
                [Coordinate(1, 5), Coordinate(0, 5)])
            test_move(test_pawn, Coordinate(0, 5))
            self.assertIsNone(self.desk.desk[0][4].piece)

        def test_transformation():
            self.desk.move_piece(None, test_pawn, Coordinate(0, 7), 'Q')
            self.assertEqual(self.desk.desk[0][7].piece.reduction, 'Q')
            self.assertEqual(self.desk.desk[0][7].piece.colour, Colour.WHITE)

        test_pawn = self.desk.add_piece(Coordinate(0, 1), '', Colour.WHITE)
        test_enemy_pawn_to_take_on_the_aisle = \
            self.desk.add_piece(Coordinate(0, 6), '', Colour.BLACK)
        self.desk.add_piece(Coordinate(1, 4), '', Colour.BLACK)
        self.desk.add_piece(Coordinate(2, 4), '', Colour.BLACK)
        test_start_move()
        test_possible()
        test_defend()
        test_black_start_move_and_last_move()
        test_take_on_the_aisle()
        test_move(test_pawn, Coordinate(0, 6))
        test_transformation()
Exemplo n.º 26
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 def create(self, name, coordinate=Coordinate(0, 0)):
     data = self.get_data(name)
     return self.creation_class(name, data['revenue'],
                                data['buildable_units'], coordinate)
Exemplo n.º 27
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 def test_take_on_the_aisle():
     self.assertEqual(
         test_pawn.possible_moves(),
         [Coordinate(1, 5), Coordinate(0, 5)])
     test_move(test_pawn, Coordinate(0, 5))
     self.assertIsNone(self.desk.desk[0][4].piece)
Exemplo n.º 28
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def serializable_test():
    coordinate = Coordinate(5, 5)
    assert coordinate.as_json() == '{"x": 5, "y": 5}'
Exemplo n.º 29
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 def test_move(piece, coordinate):
     self.desk.move_piece(None, piece, coordinate)
     self.assertEqual(Coordinate(piece.x, piece.y), coordinate)
Exemplo n.º 30
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 def test_defend():
     self.assertEqual(
         test_pawn.possible_moves(defend=True),
         [Coordinate(1, 5),
          Coordinate(2, 5),
          Coordinate(0, 5)])
Exemplo n.º 31
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 def test_history_of_moves():
     self.game.desk.move_piece(self.game,
                               self.game.desk.desk[0][1].piece,
                               Coordinate(0, 2))
     self.assertEqual(len(self.game.history_of_moves), 1)