コード例 #1
0
ファイル: test_base.py プロジェクト: ameshkovskiy/FishBowl
 def test_check_if_occupied(self):
     '''
     Test the modified function
     '''
     client = SimulationClient('sqlite:///:memory:')
     grid = SimulationGrid(persistence=client,
                           simulation_parameters=sim_config_empty)
     a_list = [(Animal.Fish, SquareGridCoordinate(x=1, y=1)),
               (Animal.Shark, SquareGridCoordinate(x=2, y=2))]
     # adding some food and a shark
     for t, c in a_list:
         client.init_animal(sim_id=grid._sid,
                            current_turn=0,
                            animal_type=t,
                            coordinate=c)
     grid.animals = grid.get_simulation_grid_data()
     grid.occupied_coord = set(
         zip(grid.animals.coord_x, grid.animals.coord_y))
     assert grid.check_if_occupied(SquareGridCoordinate(
         x=1, y=1)) == True, 'should be occupied'
     assert grid.check_if_occupied(SquareGridCoordinate(
         x=2, y=2)) == True, 'should be occupied'
     assert grid.check_if_occupied(SquareGridCoordinate(
         x=1, y=2)) == False, 'should be spare'
     # repeat the same for 1x1 case with initialization of 1 Fish
     del client, grid, a_list
     sim_config_empty_local = copy.deepcopy(sim_config_empty)
     sim_config_empty_local['init_nb_fish'] = 1
     sim_config_empty_local['grid_size'] = 1
     client = SimulationClient('sqlite:///:memory:')
     grid = SimulationGrid(persistence=client,
                           simulation_parameters=sim_config_empty_local)
     assert grid.check_if_occupied(SquareGridCoordinate(
         x=0, y=0)) == True, 'should be occupied'
コード例 #2
0
ファイル: test_base.py プロジェクト: ameshkovskiy/FishBowl
 def test_breed(self):
     client = SimulationClient('sqlite:///:memory:')
     grid = SimulationGrid(persistence=client,
                           simulation_parameters=sim_config_empty)
     a_list = [(Animal.Fish, SquareGridCoordinate(x=1, y=1)),
               (Animal.Fish, SquareGridCoordinate(x=2, y=1)),
               (Animal.Fish, SquareGridCoordinate(x=3, y=1)),
               (Animal.Fish, SquareGridCoordinate(x=1, y=3)),
               (Animal.Fish, SquareGridCoordinate(x=3, y=2)),
               (Animal.Shark, SquareGridCoordinate(x=2, y=2))]
     # adding some food and a shark
     for t, c in a_list:
         client.init_animal(sim_id=grid._sid,
                            current_turn=0,
                            animal_type=t,
                            coordinate=c)
     # updating grid turn
     grid._sim_turn = 4
     # AM: the next two rows are to allow optimized 'occupied coordinates' check
     grid.animals = grid.get_simulation_grid_data()
     grid.occupied_coord = set(
         zip(grid.animals.coord_x, grid.animals.coord_y))
     shark_update = grid._eat()
     assert len(shark_update) == 1, 'Shark should have fed'
     breed_moved = grid._breed_and_move(fed_sharks=shark_update)
     assert len(
         breed_moved
     ) == 5, '4 fishes and one shark should have moved due to breeding'
     assert len(breed_moved) == (len(a_list) - 1)
     grid_df = grid.get_simulation_grid_data()
     assert len(grid_df[grid_df['animal_type'] ==
                        Animal.Shark]) == 2, 'Should be 2 Sharks'
     assert len(grid_df[grid_df['animal_type'] ==
                        Animal.Fish]) == 8, 'Should be 8 fishes'
コード例 #3
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ファイル: test_base.py プロジェクト: ameshkovskiy/FishBowl
 def test_topology_agnostic_eating(self):
     '''
     Check the topology-agnostic behavior, i.e. that the shark from one corner
     will eat the fish from the opposite corner
     '''
     # set fish breeding probability to 0
     sim_config_empty_local = copy.deepcopy(sim_config_empty)
     sim_config_empty_local['fish_breed_probability'] = 0
     client = SimulationClient('sqlite:///:memory:')
     grid = SimulationGrid(persistence=client,
                           simulation_parameters=sim_config_empty_local)
     a_list = [(Animal.Fish, SquareGridCoordinate(x=0, y=0)),
               (Animal.Shark, SquareGridCoordinate(x=9, y=9))]
     # adding some food and a shark
     for t, c in a_list:
         client.init_animal(sim_id=grid._sid,
                            current_turn=0,
                            animal_type=t,
                            coordinate=c)
     # updating grid turn
     grid._sim_turn = 6
     # AM: the latest two rows to allow optimized 'occupied coordinates' check
     grid.animals = grid.get_simulation_grid_data()
     grid.occupied_coord = set(
         zip(grid.animals.coord_x, grid.animals.coord_y))
     shark_update = grid._eat()
     # shark has eaten
     shark = grid._persistence.get_animals_by_type(
         sim_id=grid._sid, animal_type=Animal.Shark).iloc[0]
     # the shark is in update list
     assert len(
         shark_update) == 1, 'There should be one shark in update list'
     assert shark.last_fed == 6, 'Shark last fed value should have updated'
     assert shark_update[shark.oid] == SquareGridCoordinate(
         x=9, y=9), 'Shark previous coordinate in shark update'
     # Fish is dead
     animal_in_square = client.get_animal_in_position(
         sim_id=grid._sid,
         coordinate=SquareGridCoordinate(int(shark.coord_x),
                                         int(shark.coord_y)),
         live_only=False)
     assert len(
         animal_in_square) == 2, 'there shoud be two animals in that square'
     # check that there is no fish
     fish = grid._persistence.get_animals_by_type(sim_id=grid._sid,
                                                  animal_type=Animal.Fish)
     assert len(
         fish
     ) == 0, 'there should be no fish alive'  # there is no fish (since we put 0 breeding probability)
コード例 #4
0
ファイル: test_base.py プロジェクト: ameshkovskiy/FishBowl
 def test_eating(self):
     client = SimulationClient('sqlite:///:memory:')
     grid = SimulationGrid(persistence=client,
                           simulation_parameters=sim_config_empty)
     a_list = [(Animal.Fish, SquareGridCoordinate(x=1, y=1)),
               (Animal.Fish, SquareGridCoordinate(x=2, y=1)),
               (Animal.Fish, SquareGridCoordinate(x=3, y=1)),
               (Animal.Fish, SquareGridCoordinate(x=1, y=3)),
               (Animal.Fish, SquareGridCoordinate(x=3, y=2)),
               (Animal.Shark, SquareGridCoordinate(x=2, y=2))]
     # adding some food and a shark
     for t, c in a_list:
         client.init_animal(sim_id=grid._sid,
                            current_turn=0,
                            animal_type=t,
                            coordinate=c)
     # updating grid turn
     grid._sim_turn = 4
     # AM: the next two rows are to allow optimized 'occupied coordinates' check
     grid.animals = grid.get_simulation_grid_data()
     grid.occupied_coord = set(
         zip(grid.animals.coord_x, grid.animals.coord_y))
     shark_update = grid._eat()
     # shark has eaten
     shark = grid._persistence.get_animals_by_type(
         sim_id=grid._sid, animal_type=Animal.Shark).iloc[0]
     # the shark is in update list
     assert len(
         shark_update) == 1, 'There should be one shark in update list'
     assert shark.last_fed == 4, 'Shark last fed value should have updated'
     assert shark_update[shark.oid] == SquareGridCoordinate(
         x=2, y=2), 'Shark previous coordinate in shark update'
     # Fish is dead
     animal_in_square = client.get_animal_in_position(
         sim_id=grid._sid,
         coordinate=SquareGridCoordinate(int(shark.coord_x),
                                         int(shark.coord_y)),
         live_only=False)
     assert len(
         animal_in_square) == 2, 'there shoud be two animals in that square'
コード例 #5
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            ' repository has not been implemented yet')
    # Load simulation configuration
    sim_config = read_simulation_config(args.config_name)
    # Instantiate client
    # client = SimulationClient(get_database_string())
    client = SimulationClient(
        'sqlite:///:memory:'
    )  # use RAM, grids so far do not seem to be large; for extremely large need to change architecture as well
    # display initial grid
    grid = SimulationGrid(persistence=client, simulation_parameters=sim_config)
    print(
        display_simple_grid(client.get_animals_df(grid._sid),
                            grid_size=sim_config['grid_size']))
    for turn in range(args.max_turn):
        timer = time.time()
        # get occupied coord-s for quicker occupation-checks
        grid.animals = grid.get_simulation_grid_data()
        grid.occupied_coord = set(
            zip(grid.animals.coord_x, grid.animals.coord_y))
        grid.play_turn()
        print(''.join(['*'] * sim_config['grid_size'] * 2))
        print('Turn: {turn: ^{size}}'.format(turn=grid._sim_turn,
                                             size=sim_config['grid_size']))
        print()
        print(
            display_simple_grid(grid.get_simulation_grid_data(),
                                sim_config['grid_size']))
        print()
        print('Turn duration: {:<3}s'.format(int(time.time() - timer)))
        print()