def construct_turn_manager(self, avatars, locations):
self.avatar_manager = DummyAvatarManager(avatars)
self.game_state = GameState(InfiniteMap(), self.avatar_manager)
self.turn_manager = ConcurrentTurnManager(
game_state=self.game_state, end_turn_callback=lambda: None)
for index, location in enumerate(locations):
self.game_state.add_avatar(index, "", location)
return self.turn_manager
def run_game(port):
global worker_manager
print("Running game...")
settings = pickle.loads(os.environ['settings'])
api_url = os.environ.get('GAME_API_URL', 'http://localhost:8000/players/api/games/')
generator = getattr(map_generator, settings['GENERATOR'])(settings)
player_manager = AvatarManager()
game_state = generator.get_game_state(player_manager)
turn_manager = ConcurrentTurnManager(game_state=game_state, end_turn_callback=send_world_update, completion_url=api_url+'complete/')
WorkerManagerClass = WORKER_MANAGERS[os.environ.get('WORKER_MANAGER', 'local')]
worker_manager = WorkerManagerClass(game_state=game_state, users_url=api_url, port=port)
worker_manager.start()
turn_manager.start()
def run_game():
global worker_manager
print("Running game...")
my_map = map_generator.generate_map(10, 10, 0.1)
player_manager = AvatarManager()
game_state = GameState(my_map, player_manager)
turn_manager = ConcurrentTurnManager(game_state=game_state, end_turn_callback=send_world_update)
WorkerManagerClass = WORKER_MANAGERS[os.environ.get('WORKER_MANAGER', 'local')]
worker_manager = WorkerManagerClass(
game_state=game_state,
users_url=os.environ.get('GAME_API_URL', 'http://localhost:8000/players/api/games/')
)
worker_manager.start()
turn_manager.start()
def run_game(port):
global worker_manager
print("Running game...")
settings = pickle.loads(os.environ['settings'])
api_url = os.environ.get('GAME_API_URL', 'http://localhost:8000/players/api/games/')
generator = getattr(map_generator, settings['GENERATOR'])(settings)
player_manager = AvatarManager()
game_state = generator.get_game_state(player_manager)
turn_manager = ConcurrentTurnManager(game_state=game_state, end_turn_callback=send_world_update, completion_url=api_url+'complete/')
WorkerManagerClass = WORKER_MANAGERS[os.environ.get('WORKER_MANAGER', 'local')]
worker_manager = WorkerManagerClass(game_state=game_state, users_url=api_url, port=port)
worker_manager.start()
turn_manager.start()
def run_game():
global worker_manager
print("Running game...")
my_map = map_generator.generate_map(10, 10, 0.1)
player_manager = AvatarManager()
game_state = GameState(my_map, player_manager)
turn_manager = ConcurrentTurnManager(game_state=game_state,
end_turn_callback=send_world_update)
WorkerManagerClass = WORKER_MANAGERS[os.environ.get(
'WORKER_MANAGER', 'local')]
worker_manager = WorkerManagerClass(
game_state=game_state,
users_url=os.environ.get('GAME_API_URL',
'http://localhost:8000/players/api/games/'))
worker_manager.start()
turn_manager.start()
def construct_turn_manager(self, avatars, locations):
self.avatar_manager = DummyAvatarManager(avatars)
self.game_state = MockGameState(InfiniteMap(), self.avatar_manager)
self.turn_manager = ConcurrentTurnManager(game_state=self.game_state,
end_turn_callback=lambda: None)
for index, location in enumerate(locations):
self.game_state.add_avatar(index, "", location)
return self.turn_manager
class TestTurnManager(unittest.TestCase):
def construct_default_avatar_appearance(self):
return AvatarAppearance("#000", "#ddd", "#777", "#fff")
def construct_turn_manager(self, avatars, locations):
self.avatar_manager = DummyAvatarManager(avatars)
self.game_state = GameState(InfiniteMap(), self.avatar_manager)
self.turn_manager = ConcurrentTurnManager(
game_state=self.game_state, end_turn_callback=lambda: None)
for index, location in enumerate(locations):
self.game_state.add_avatar(index, "", location)
return self.turn_manager
def assert_at(self, avatar, location):
self.assertEqual(avatar.location, location)
cell = self.game_state.world_map.get_cell(location)
self.assertEqual(cell.avatar, avatar)
def get_avatar(self, player_id):
return self.avatar_manager.get_avatar(player_id)
def run_turn(self):
self.turn_manager.run_turn()
def test_run_turn(self):
'''
Given: > _
(1)
Expect: _ o
'''
self.construct_turn_manager([MoveEastDummy], [ORIGIN])
avatar = self.get_avatar(0)
self.assert_at(avatar, ORIGIN)
self.run_turn()
self.assert_at(avatar, RIGHT_OF_ORIGIN)
def test_run_several_turns(self):
'''
Given: > _ _ _ _ _
(5)
Expect: _ _ _ _ _ o
'''
self.construct_turn_manager([MoveEastDummy], [ORIGIN])
avatar = self.get_avatar(0)
self.assertEqual(avatar.location, ORIGIN)
[self.run_turn() for _ in range(5)]
self.assertEqual(avatar.location, FIVE_RIGHT_OF_ORIGIN)
def test_run_several_turns_and_avatars(self):
'''
Given: > _ _ _ _ _
> _ _ _ _ _
(5)
Expect: _ _ _ _ _ o
_ _ _ _ _ o
'''
self.construct_turn_manager([MoveEastDummy, MoveEastDummy],
[ORIGIN, ABOVE_ORIGIN])
avatar0 = self.get_avatar(0)
avatar1 = self.get_avatar(1)
self.assert_at(avatar0, ORIGIN)
self.assert_at(avatar1, ABOVE_ORIGIN)
[self.run_turn() for _ in range(5)]
self.assert_at(avatar0, FIVE_RIGHT_OF_ORIGIN)
self.assert_at(avatar1, FIVE_RIGHT_OF_ORIGIN_AND_ONE_ABOVE)
def test_move_chain_succeeds(self):
'''
Given: > > > > > _
Expect: _ o o o o o
'''
self.construct_turn_manager([MoveEastDummy for _ in range(5)],
[Location(x, 0) for x in range(5)])
avatars = [self.get_avatar(i) for i in range(5)]
[self.assert_at(avatars[x], Location(x, 0)) for x in range(5)]
self.run_turn()
[self.assert_at(avatars[x], Location(x + 1, 0)) for x in range(5)]
def test_move_chain_fails_occupied(self):
'''
Given: > > x _
Expect: x x x _
'''
self.construct_turn_manager([MoveEastDummy, MoveEastDummy, WaitDummy],
[Location(x, 0) for x in range(3)])
avatars = [self.get_avatar(i) for i in range(3)]
[self.assert_at(avatars[x], Location(x, 0)) for x in range(3)]
self.run_turn()
[self.assert_at(avatars[x], Location(x, 0)) for x in range(3)]
def test_move_chain_fails_collision(self):
'''
Given: > > > _ <
(1)
Expect: x x x _ x
'''
locations = [
Location(0, 0),
Location(1, 0),
Location(2, 0),
Location(4, 0)
]
self.construct_turn_manager(
[MoveEastDummy, MoveEastDummy, MoveEastDummy, MoveWestDummy],
locations)
avatars = [self.get_avatar(i) for i in range(4)]
[self.assert_at(avatars[i], locations[i]) for i in range(4)]
self.run_turn()
[self.assert_at(avatars[i], locations[i]) for i in range(4)]
def test_move_chain_fails_cycle(self):
'''
Given: > v
^ <
(1)
Expect: x x
x x
'''
locations = [
Location(0, 1),
Location(1, 1),
Location(1, 0),
Location(0, 0)
]
self.construct_turn_manager(
[MoveEastDummy, MoveSouthDummy, MoveWestDummy, MoveNorthDummy],
locations)
avatars = [self.get_avatar(i) for i in range(4)]
[self.assert_at(avatars[i], locations[i]) for i in range(4)]
self.run_turn()
[self.assert_at(avatars[i], locations[i]) for i in range(4)]
def test_move_chain_fails_spiral(self):
'''
Given: > > v
^ <
(1)
Expect: x x x
x x
'''
locations = [
Location(0, 1),
Location(1, 1),
Location(2, 1),
Location(2, 0),
Location(1, 0)
]
self.construct_turn_manager([
MoveEastDummy, MoveEastDummy, MoveSouthDummy, MoveWestDummy,
MoveNorthDummy
], locations)
avatars = [self.get_avatar(i) for i in range(5)]
[self.assert_at(avatars[i], locations[i]) for i in range(5)]
self.run_turn()
[self.assert_at(avatars[i], locations[i]) for i in range(5)]
class TestTurnManager(unittest.TestCase):
def construct_default_avatar_appearance(self):
return AvatarAppearance("#000", "#ddd", "#777", "#fff")
def construct_turn_manager(self, avatars, locations):
self.avatar_manager = DummyAvatarManager(avatars)
self.game_state = MockGameState(InfiniteMap(), self.avatar_manager)
self.turn_manager = ConcurrentTurnManager(game_state=self.game_state,
end_turn_callback=lambda: None)
for index, location in enumerate(locations):
self.game_state.add_avatar(index, "", location)
return self.turn_manager
def assert_at(self, avatar, location):
self.assertEqual(avatar.location, location)
cell = self.game_state.world_map.get_cell(location)
self.assertEqual(cell.avatar, avatar)
def get_avatar(self, player_id):
return self.avatar_manager.get_avatar(player_id)
def run_turn(self):
self.turn_manager.run_turn()
def test_run_turn(self):
'''
Given: > _
(1)
Expect: _ o
'''
self.construct_turn_manager([MoveEastDummy], [ORIGIN])
avatar = self.get_avatar(0)
self.assert_at(avatar, ORIGIN)
self.run_turn()
self.assert_at(avatar, RIGHT_OF_ORIGIN)
def test_run_several_turns(self):
'''
Given: > _ _ _ _ _
(5)
Expect: _ _ _ _ _ o
'''
self.construct_turn_manager([MoveEastDummy], [ORIGIN])
avatar = self.get_avatar(0)
self.assertEqual(avatar.location, ORIGIN)
[self.run_turn() for _ in range(5)]
self.assertEqual(avatar.location, FIVE_RIGHT_OF_ORIGIN)
def test_run_several_turns_and_avatars(self):
'''
Given: > _ _ _ _ _
> _ _ _ _ _
(5)
Expect: _ _ _ _ _ o
_ _ _ _ _ o
'''
self.construct_turn_manager([MoveEastDummy, MoveEastDummy],
[ORIGIN, ABOVE_ORIGIN])
avatar0 = self.get_avatar(0)
avatar1 = self.get_avatar(1)
self.assert_at(avatar0, ORIGIN)
self.assert_at(avatar1, ABOVE_ORIGIN)
[self.run_turn() for _ in range(5)]
self.assert_at(avatar0, FIVE_RIGHT_OF_ORIGIN)
self.assert_at(avatar1, FIVE_RIGHT_OF_ORIGIN_AND_ONE_ABOVE)
def test_move_chain_succeeds(self):
'''
Given: > > > > > _
Expect: _ o o o o o
'''
self.construct_turn_manager([MoveEastDummy for _ in range(5)],
[Location(x, 0) for x in range(5)])
avatars = [self.get_avatar(i) for i in range(5)]
[self.assert_at(avatars[x], Location(x, 0)) for x in range(5)]
self.run_turn()
[self.assert_at(avatars[x], Location(x + 1, 0)) for x in range(5)]
def test_move_chain_fails_occupied(self):
'''
Given: > > x _
Expect: x x x _
'''
self.construct_turn_manager([MoveEastDummy, MoveEastDummy, WaitDummy],
[Location(x, 0) for x in range(3)])
avatars = [self.get_avatar(i) for i in range(3)]
[self.assert_at(avatars[x], Location(x, 0)) for x in range(3)]
self.run_turn()
[self.assert_at(avatars[x], Location(x, 0)) for x in range(3)]
def test_move_chain_fails_collision(self):
'''
Given: > > > _ <
(1)
Expect: x x x _ x
'''
locations = [Location(0, 0), Location(1, 0), Location(2, 0), Location(4, 0)]
self.construct_turn_manager(
[MoveEastDummy, MoveEastDummy, MoveEastDummy, MoveWestDummy],
locations)
avatars = [self.get_avatar(i) for i in range(4)]
[self.assert_at(avatars[i], locations[i]) for i in range(4)]
self.run_turn()
[self.assert_at(avatars[i], locations[i]) for i in range(4)]
def test_move_chain_fails_cycle(self):
'''
Given: > v
^ <
(1)
Expect: x x
x x
'''
locations = [Location(0, 1), Location(1, 1), Location(1, 0), Location(0, 0)]
self.construct_turn_manager(
[MoveEastDummy, MoveSouthDummy, MoveWestDummy, MoveNorthDummy],
locations)
avatars = [self.get_avatar(i) for i in range(4)]
[self.assert_at(avatars[i], locations[i]) for i in range(4)]
self.run_turn()
[self.assert_at(avatars[i], locations[i]) for i in range(4)]
def test_move_chain_fails_spiral(self):
'''
Given: > > v
^ <
(1)
Expect: x x x
x x
'''
locations = [Location(0, 1),
Location(1, 1),
Location(2, 1),
Location(2, 0),
Location(1, 0)]
self.construct_turn_manager(
[MoveEastDummy, MoveEastDummy, MoveSouthDummy, MoveWestDummy, MoveNorthDummy],
locations)
avatars = [self.get_avatar(i) for i in range(5)]
[self.assert_at(avatars[i], locations[i]) for i in range(5)]
self.run_turn()
[self.assert_at(avatars[i], locations[i]) for i in range(5)]
