Exemplo n.º 1
0
    def getHistoryResp(self, state, data):
        # On vérifie qu'il n'y a pas eu d'erreur technique
        if state == 1:
            if self.verifyResponse(data[:4]):
                data = data[4:]
                try:
                    from Manager.GameManager import GameManager

                    # On récupère les informations des games
                    while len(data) >= calcsize("=i50siii?"):
                        response = struct.unpack('=i50siii?', data)

                        game = Game()
                        game.id = response[0]
                        game.opponent = response[1]
                        game.created = response[2]
                        game.victory = response[7]

                        self.app.gameManager.user.games.append(game)

                        data = data[calcsize("=i50siii?"):]

                    self.app.gameManager.nbLoading -= 1
                except Exception as ex:
                    raise Exception("Impossible de lire les données : " + ex.message)
            else:
                raise Exception("La récupèration des informations a échoué")
        else:
            raise Exception("La récupèration des informations a échoué")
Exemplo n.º 2
0
 def __init__(self):
     self.game       = Game()
     self.snake_ctrl = ControlSnake()
     self.food_ctrl  = ControlFood()
     self.score      = self.game.score
     self.speed      = self.game.speed
     self.level      = self.game.level
Exemplo n.º 3
0
class Controller(object):
	def __init__(self):
		self.game = Game()

	def startGame(self):
		self.game.start()

	def getCurrentPlayersHand(self):
		return self.game.getCurrentPlayersHand()
    def __init__(self, io_controller=None, delay=None):
        self.handler = ErrorHandler(method="__init__",
                                    module="AbstractController")

        self.handler.log(message="Validating IO Controller")
        self.check_controller_defined(io_controller=io_controller)

        self.handler.log(message="Initializing variables")
        self.available_modes = None
        self.game_ready = False
        self.delay = delay or 0
        self.io_controller = io_controller

        self.handler.log(message="Instantiating Game object")
        self.game = Game(callback_notifier=self.io_controller.report_status)
Exemplo n.º 5
0
    def get_keyed_data(self, persist_data, key):
        ret = {}
        profile = None
        game = None
        try:
            profile = Profile.select().where(
                (Profile.id == persist_data["profileid"])).get()
            game = Game.select().where(
                (Game.id == persist_data["game_id"])).get()
        except (PersistKeyedData.DoesNotExist, Profile.DoesNotExist) as e:
            pass
        try:
            where = (PersistKeyedData.key_name == key) & (
                PersistKeyedData.data_index == persist_data["data_index"]) & (
                    PersistKeyedData.persist_type == persist_data["data_type"]
                ) & (PersistKeyedData.profileid
                     == profile.id) & (PersistKeyedData.gameid == game.id)
            if "modified_since" in persist_data:
                where = (where) & (PersistKeyedData.modified >
                                   persist_data["modified_since"])
            data_entry = PersistKeyedData.select().where(where).get()
            ret = model_to_dict(data_entry)
            ret["modified"] = calendar.timegm(ret["modified"].utctimetuple())
            del ret["profile"]
        except (PersistKeyedData.DoesNotExist) as e:
            pass

        return ret
Exemplo n.º 6
0
    def set_persist_raw_data(self, persist_data):
        profile = None
        game = None
        try:
            profile = Profile.select().where(
                (Profile.id == persist_data["profileid"])).get()
            game = Game.select().where(
                (Game.id == persist_data["game_id"])).get()
        except (PersistKeyedData.DoesNotExist, Profile.DoesNotExist) as e:
            pass
        try:

            data_entry = PersistData.select().where(
                (PersistData.data_index == persist_data["data_index"])
                & (PersistData.persist_type == persist_data["data_type"])
                & (PersistData.profileid == profile.id)
                & (PersistData.gameid == game.id)).get()
            data_entry.base64Data = persist_data["data"]
            data_entry.modified = datetime.utcnow()

            data_entry.save()
        except (PersistData.DoesNotExist) as e:
            data_entry = PersistData.create(
                base64Data=persist_data["data"],
                data_index=persist_data["data_index"],
                persist_type=persist_data["data_type"],
                modified=datetime.utcnow(),
                profileid=persist_data["profileid"],
                gameid=persist_data["game_id"])

        ret = model_to_dict(data_entry)
        del ret["profile"]

        ret["modified"] = calendar.timegm(ret["modified"].utctimetuple())
        return ret
Exemplo n.º 7
0
    def gog_id_exists(self, gog_id):
        db = sqlite3.connect(self.dataFile)
        c = db.cursor()
        c.execute(
            'SELECT title, description, run_platforms, genres, store, storepage, steam_appid, gog_id, game_internal_id, category_id from games where gog_id = ?',
            (gog_id, ))
        games_raw = c.fetchall()
        c.close()
        if (games_raw and len(games_raw) > 0):
            g = games_raw[0]
            game = Game(g[0], g[1], g[2], g[3], g[4], g[5], g[6], g[7], g[8])
            game.set_category(g[9])
            return game

        else:
            return None
Exemplo n.º 8
0
    def graficar():
        if input_n.get_value().isdigit() and input_N.get_value().isdigit() \
                and input_m.get_value().isdigit():
            n = int(input_n.get_value())
            N = int(input_N.get_value())
            m = int(input_m.get_value())
            if n > 1 and N < n * n and m > 1:
                if n <= 300:
                    num_gens = np.arange(1, m + 1)
                    num_vivos = np.zeros(m, dtype=int)
                    num_nacim = np.zeros(m, dtype=int)
                    num_muertes = np.zeros(m, dtype=int)

                    juego = Game(n, N)
                    iterador = iter(juego)
                    num_vivos[0] = len(juego.inicio.vivos())
                    num_nacim[0] = len(juego.inicio.nacimientos())
                    num_muertes[0] = len(juego.inicio.muertes())
                    k = 1
                    while k < m:
                        try:
                            generacion = next(iterador)
                            num_vivos[k] = len(generacion.vivos())
                            num_nacim[k] = len(generacion.nacimientos())
                            num_muertes[k] = len(generacion.muertes())
                        except StopIteration:
                            break
                        k += 1
                    plt.style.use('fivethirtyeight')
                    plt.plot(num_gens, num_vivos, color='g', label='Vivos')
                    plt.plot(num_gens,
                             num_nacim,
                             color='y',
                             label='Nacimientos')
                    plt.plot(num_gens, num_muertes, color='r', label='Muertes')
                    plt.xlabel('Número de generaciones')
                    plt.ylabel('Frecuencia')
                    plt.title('Análisis del Juego de la Vida por generación')
                    plt.legend()
                    plt.tight_layout()
                    plt.show()
                else:
                    thorpy.launch_blocking_alert(
                        title='Error',
                        text=
                        '¡Lo sentimos! El tamaño del tablero no puede ser mayor a 300.',
                        parent=None)
            else:
                thorpy.launch_blocking_alert(
                    title='Error',
                    text=
                    'Los valores intruducidos deben ser positivos mayores a 1. '
                    'Además, el número de células iniciales (N) debe ser menor a n^2.',
                    parent=None)
        else:
            thorpy.launch_blocking_alert(
                title='Error',
                text='Los valores introducidos deben ser numéricos.',
                parent=None)
Exemplo n.º 9
0
 def handle_delete_group(self, request):
     group_data = request["group"]
     game = Game.select().where(Game.id == group_data["gameid"]).get()
     count = GameGroup.delete().where(
         GameGroup.groupid == group_data["groupid"]).execute()
     self.redis_group_ctx.delete("{}:{}:".format(game.gamename,
                                                 group_data["groupid"]))
     self.redis_group_ctx.delete("{}:{}:custkeys".format(
         game.gamename, group_data["groupid"]))
     return {"success": True, "count": count}
Exemplo n.º 10
0
    def handle_update_game(self, request):
        game_data = request["game"]
        game = Game.select().where(Game.id == game_data["id"]).get()

        old_data = model_to_dict(game)
        for key in game_data:
            if key != "id":
                setattr(game, key, game_data[key])
        game.save()
        self.sync_game_to_redis(model_to_dict(game), old_data)
        return {"success": True}
Exemplo n.º 11
0
    def on_ok(self):
        #platforms = self.gameplatforms._contained_widget.get_selected_objects(self.gameplatforms);
        if not self.gametitle.value:
            npyscreen.notify_confirm("Title is required", "Error")
        else:

            platformString = ""
            #all_platforms = self.parentApp.gamedata.platforms;
            platform_selections = self.gameplatforms._contained_widget.get_selected_objects(
                self.gameplatforms)
            if (platform_selections and len(platform_selections) > 0):
                for pselection in platform_selections:
                    platformString += str(pselection.platform_id) + ","

            storesString = ""
            stores_selections = self.gamestores._contained_widget.get_selected_objects(
                self.gamestores)
            if (stores_selections and len(stores_selections) > 0):
                for sselection in stores_selections:
                    storesString += str(sselection.store_id) + ","

            description = '\n'.join(self.gamedescription.values)
            storepage = self.gamestorepage.value

            genres = self.unique(self.gamegenre.values)
            genres = '\n'.join(genres)
            category = self.gamecategory._contained_widget.get_selected_objects(
                self.gamecategory)[0].category_id

            if (not self.value):
                game = Game(self.gametitle.value, description, platformString,
                            genres, storesString, storepage, None, None, None)
                game.set_category(category - 1)
                self.parentApp.gamedata.add_game(game)

            else:
                game_old = self.value
                game_new = Game(self.gametitle.value, description,
                                platformString, genres, storesString,
                                storepage, game_old.steam_appid,
                                game_old.gog_id, game_old.record_id)
                game_new.set_category(category - 1)

                self.parentApp.gamedata.update_game(game_new)

            self.parentApp.gamedata.load_games()
            self.parentApp.switchFormPrevious()
Exemplo n.º 12
0
    def sync_group_to_redis(self, new_data, old_data):
        new_game = Game.select().where(Game.id == new_data["gameid"]).get()
        old_game = Game.select().where(Game.id == old_data["gameid"]).get()
        self.redis_group_ctx.delete("{}:{}:".format(old_game.gamename,
                                                    old_data["groupid"]))
        self.redis_group_ctx.delete("{}:{}:custkeys".format(
            old_game.gamename, old_data["groupid"]))

        redis_key = "{}:{}:".format(new_game.gamename, new_data["groupid"])
        self.redis_group_ctx.hset(redis_key, "gameid", new_data["gameid"])
        self.redis_group_ctx.hset(redis_key, "groupid", new_data["groupid"])
        self.redis_group_ctx.hset(redis_key, "maxwaiting",
                                  new_data["maxwaiting"])
        self.redis_group_ctx.hset(redis_key, "password", 0)
        self.redis_group_ctx.hset(redis_key, "numwaiting", 0)

        other_str = new_data["other"]
        other_data = other_str.split("\\")[1::]

        it = iter(other_data)
        for x in it:
            key = x
            val = next(it)
            self.redis_group_ctx.hset("{}custkeys".format(redis_key), key, val)
Exemplo n.º 13
0
def get_data_from_table_row(row):
    row_data = list(filter(lambda x: x != "\n", row.contents))
    if len(row_data) != 4:
        return None
    game = Game()
    game.name, game.link = get_name_link(row_data[0])
    game.dev, game.publisher = get_dev_pub(row_data[1])
    game.dates = get_dates(row_data[2])
    game.trailer_link = get_trailer_link(row_data[3])
    return game
Exemplo n.º 14
0
    def handle_get_games(self, request):
        ret = []
        where_statement = 1 == 1
        if "where" in request:
            where_req = request["where"]
            if "id" in where_req:
                where_statement = (where_statement) & (Game.id == int(
                    where_req["id"]))
            elif "gamename" in where_req:
                where_statement = where_statement & (Game.gamename
                                                     == where_req["gamename"])
        games = Game.select().where(where_statement)

        for game in games:
            ret.append(model_to_dict(game))
        return ret
Exemplo n.º 15
0
    def load_games(self, ):
        db = sqlite3.connect(self.dataFile)
        c = db.cursor()
        c.execute(
            'SELECT title, description, run_platforms, genres, store, storepage, steam_appid, gog_id, game_internal_id, category_id, created_at, updated_at from games ORDER BY title ASC'
        )
        games_raw = c.fetchall()
        c.close()
        games_new = []

        for g in games_raw:
            new_game = Game(g[0], g[1], g[2], g[3], g[4], g[5], g[6], g[7],
                            g[8])
            new_game.set_category(g[9])
            new_game.set_created(g[10])
            new_game.set_updated(g[11])
            games_new.append(new_game)

        self.games = games_new
Exemplo n.º 16
0
class ControlGame:
    def __init__(self):
        self.game       = Game()
        self.snake_ctrl = ControlSnake()
        self.food_ctrl  = ControlFood()
        self.score      = self.game.score
        self.speed      = self.game.speed
        self.level      = self.game.level

    def start(self):
        self.game.start()

    def quit(self):
        self.game.quit()

    def up_fps(self):
        self.game.set_fps(self.speed)

    def move(self, way):
        self.snake_ctrl.moviment(way)

    def chk_move(self, view):
        if self.snake_ctrl.chk_moviment(self.food_ctrl.check_food()):
            self.food_ctrl.set_devoured(view)
            self.score += 1

        if self.snake_ctrl.chk_level(self.speed, self.level):
            self.level += 1
            self.speed += 1
            self.up_fps()
            return True


    def chk_clash(self):
        return self.snake_ctrl.clash()

    def draw(self, view):
        self.snake_ctrl.draw(view)
        self.food_ctrl.draw(view)

    def lose(self):
        self.game.lose()
Exemplo n.º 17
0
    def validate_request(self, xml_tree):
        request_info = {"success": False}
        game_id = xml_tree.find("{http://gamespy.net/sake}gameid").text
        secretkey = xml_tree.find("{http://gamespy.net/sake}secretKey").text
        loginTicket = xml_tree.find(
            "{http://gamespy.net/sake}loginTicket").text
        #gameid = xml_tree.find()
        #print("GameID: {}\n".format(game_id))
        game = Game.select().where(Game.id == game_id).get()
        profile = Profile.select().where(Profile.id == 10000).get()
        #print("Profile: {}\nGame: {}\n{} - {}\n".format(profile,game, game.secretkey, secretkey))
        if game.secretkey != secretkey:
            return request_info

        request_info["success"] = True
        request_info["game"] = game
        request_info["profile"] = profile
        return request_info
Exemplo n.º 18
0
 def empezar_onclick():
     nonlocal n, N, LARGO, ALTO, DIMENSION_VENTANA, juego, \
         generacion, pantalla, is_paused, pause_play, iterator, list
     if input_n.get_value().isdigit() and input_N.get_value().isdigit():
         _n = int(input_n.get_value())
         _N = int(input_N.get_value())
         if _n > 1 and _N < _n * _n:
             if _n <= 300:
                 n = _n
                 N = _N
                 LARGO = ALTO = (601 - (n + 1)) // n
                 # Se actualiza la dimension de la ventana a la necesaria.
                 DIMENSION_VENTANA = [900, n * LARGO + (n + 1) * MARGEN]
                 juego = Game(n, N)
                 pantalla = pygame.display.set_mode(DIMENSION_VENTANA)
                 is_paused = True
                 pause_play = pygame.image.load(
                     '../img/play.png').convert_alpha()
                 iterator = iter(juego)
                 list = juego.inicio.vivos()
             else:
                 thorpy.launch_blocking_alert(
                     title='Error',
                     text=
                     '¡Lo sentimos! El tamaño del tablero no puede ser mayor a 300.',
                     parent=None)
         else:
             thorpy.launch_blocking_alert(
                 title='Error',
                 text=
                 'Los valores intruducidos deben ser positivos mayores a 1.'
                 ' Además, el número de células iniciales (N) debe ser menor a n^2.',
                 parent=None)
     else:
         thorpy.launch_blocking_alert(
             title='Error',
             text='Los valores introducidos deben ser numéricos.',
             parent=None)
Exemplo n.º 19
0
    def update_or_create_keyed_data(self, persist_data, key, value):
        profile = None
        game = None
        try:
            profile = Profile.select().where(
                (Profile.id == persist_data["profileid"])).get()
            game = Game.select().where(
                (Game.id == persist_data["game_id"])).get()
        except (Profile.DoesNotExist, Game.DoesNotExist) as e:
            pass
        try:

            data_entry = PersistKeyedData.select().where(
                (PersistKeyedData.key_name == key)
                & (PersistKeyedData.data_index == persist_data["data_index"])
                & (PersistKeyedData.persist_type == persist_data["data_type"])
                & (PersistKeyedData.profileid == profile.id)
                & (PersistKeyedData.gameid == game.id)).get()
            data_entry.key_value = value
            data_entry.modified = datetime.utcnow()

            data_entry.save()
        except (PersistKeyedData.DoesNotExist) as e:
            data_entry = PersistKeyedData.create(
                key_name=key,
                key_value=value,
                data_index=persist_data["data_index"],
                persist_type=persist_data["data_type"],
                modified=datetime.utcnow(),
                profileid=persist_data["profileid"],
                gameid=persist_data["game_id"])

        ret = model_to_dict(data_entry)
        del ret["profile"]

        ret["modified"] = calendar.timegm(ret["modified"].utctimetuple())
        return ret
Exemplo n.º 20
0
    def run(self):
        while self.thread_run:

            content = self.get_games()
            total_count = content["total_count"]
            games = content["games"]
            current_count = 0

            for meta_game in games:
                current_count = current_count + 1

                temp_game = self.get_game(meta_game["appid"])
                if(not temp_game):
                    continue

                title = temp_game['name']
                description = temp_game['short_description']

                src_platforms = temp_game['platforms']
                platforms = self.gamedata.platforms

                run_platforms = []
                for platform in platforms:
                    key = platform.name.lower()
                    if('linux' in key):
                        key = 'linux'
                    if('mac' in key):
                        key = 'mac'

                    if(key in src_platforms):
                        if src_platforms[key]:
                            run_platforms.append(str(platform.platform_id))

                run_platforms = ','.join(run_platforms)

                genres = []
                if('genres' in temp_game):
                    src_genres = temp_game['genres']
                    for genre in src_genres:
                        if ('description' in genre):
                            genres.append(genre['description'])

                    if('categories' in temp_game):
                        src_categories = temp_game['categories']
                        for category in src_categories:
                            genres.append(category['description'])

                genres = '\n'.join(genres)

                # Get steam
                store = ""
                for st in self.gamedata.stores:
                    if(st.name.lower() == 'steam'):
                        store = st.store_id

                # create steampage:
                storepage = 'https://store.steampowered.com/app/' + \
                    str(meta_game["appid"])

                steam_appid = str(meta_game["appid"])

                game = Game(title, description, run_platforms, genres,
                            store, storepage, steam_appid, None, None)
                game.set_category(0)

                record = self.gamedata.steam_appid_exists(steam_appid)
                if(record):
                    game.record_id = record.record_id
                    game.set_category(record.category);

                    self.gamedata.update_game(game)
                else:
                    self.gamedata.add_game(game)

                percentage = (current_count / total_count) * 100
                self.loader.set_value(percentage)
                self.loader.update()
                self.refresh()

            self.thread_run = False
Exemplo n.º 21
0
def start():
    def dibujar_tablero(elementos):
        for row in range(n):
            for col in range(n):
                pygame.draw.rect(pantalla, BLANCO, [
                    MARGEN + (MARGEN + LARGO) * col, MARGEN +
                    (MARGEN + ALTO) * row, LARGO, ALTO
                ])
        for tupla in elementos:
            fila, columna = tupla
            pygame.draw.rect(pantalla, ROJO, [
                MARGEN + (MARGEN + LARGO) * columna, MARGEN +
                (MARGEN + ALTO) * fila, LARGO, ALTO
            ])

    def empezar_onclick():
        nonlocal n, N, LARGO, ALTO, DIMENSION_VENTANA, juego, \
            generacion, pantalla, is_paused, pause_play, iterator, list
        if input_n.get_value().isdigit() and input_N.get_value().isdigit():
            _n = int(input_n.get_value())
            _N = int(input_N.get_value())
            if _n > 1 and _N < _n * _n:
                if _n <= 300:
                    n = _n
                    N = _N
                    LARGO = ALTO = (601 - (n + 1)) // n
                    # Se actualiza la dimension de la ventana a la necesaria.
                    DIMENSION_VENTANA = [900, n * LARGO + (n + 1) * MARGEN]
                    juego = Game(n, N)
                    pantalla = pygame.display.set_mode(DIMENSION_VENTANA)
                    is_paused = True
                    pause_play = pygame.image.load(
                        '../img/play.png').convert_alpha()
                    iterator = iter(juego)
                    list = juego.inicio.vivos()
                else:
                    thorpy.launch_blocking_alert(
                        title='Error',
                        text=
                        '¡Lo sentimos! El tamaño del tablero no puede ser mayor a 300.',
                        parent=None)
            else:
                thorpy.launch_blocking_alert(
                    title='Error',
                    text=
                    'Los valores intruducidos deben ser positivos mayores a 1.'
                    ' Además, el número de células iniciales (N) debe ser menor a n^2.',
                    parent=None)
        else:
            thorpy.launch_blocking_alert(
                title='Error',
                text='Los valores introducidos deben ser numéricos.',
                parent=None)

    # Definimos algunos colores
    NEGRO = (0, 0, 0)
    BLANCO = (255, 255, 255)
    VERDE = (0, 255, 0)
    ROJO = (255, 0, 0)

    # Establecemos un tamaño del tablero n*n (max = 300)
    n = 10
    # Establecemos un número de células iniciales
    N = 30

    # Establecemos el LARGO y ALTO de la pantalla
    DIMENSION_VENTANA = [900, 601]

    # Establecemos el margen entre las celdas.
    MARGEN = 1

    # Calculamos el LARGO y ALTO de cada celda de la retícula.
    LARGO = ALTO = (DIMENSION_VENTANA[1] - (n + 1)) // n

    # Se actualiza la dimension de la ventana a la necesaria.
    DIMENSION_VENTANA = [900, n * LARGO + (n + 1) * MARGEN]

    juego = Game(n, N)

    # Inicializamos pygame
    pygame.init()

    # Centramos la ventana
    os.environ['SDL_VIDEO_CENTERED'] = '1'

    pantalla = pygame.display.set_mode(DIMENSION_VENTANA)

    # Establecemos el título de la ventana.
    pygame.display.set_caption('Juego de la vida de Conway')

    # Iteramos hasta que el usuario pulse el botón de salir.
    done = False

    # Lo usamos para establecer cuán rápido se refresca la pantalla.
    reloj = pygame.time.Clock()

    # Establecemos el fondo de pantalla.
    pantalla.fill(NEGRO)

    # Creamos imagen (convert_alpha: fondo transparente)
    pause_play = pygame.image.load('../img/play.png').convert_alpha()
    rect_pause_play = pantalla.blit(pause_play, (700, 260))
    nextt = pygame.image.load('../img/next.png').convert_alpha()
    rect_next = pantalla.blit(nextt, (750, 260))

    is_paused = True

    # ThorPy elements
    text = thorpy.make_text('Digite los valores de entrada:')
    input_n = thorpy.Inserter(name='Tamaño de tablero (n):     ', value=str(n))
    input_N = thorpy.Inserter(name='Núm. células iniciales (N): ',
                              value=str(N))
    button = thorpy.make_button('Empezar', func=empezar_onclick)
    box = thorpy.Box(elements=[text, input_n, input_N, button])
    # we regroup all elements on a menu, even if we do not launch the menu
    menu = thorpy.Menu(box)
    # important : set the screen as surface for all elements
    for element in menu.get_population():
        element.surface = pantalla
    # use the elements normally...
    box.set_topleft((620, 40))
    box.blit()
    box.update()

    iterator = iter(juego)
    list = juego.inicio.vivos()

    pygame.display.flip()

    # -------- Ciclo Principal del Programa-----------
    while not done:
        for event in pygame.event.get():
            if event.type == pygame.QUIT:
                done = True
            elif event.type == pygame.MOUSEBUTTONDOWN:
                # El usuario presiona el ratón. Se obtiene su posición.
                pos = pygame.mouse.get_pos()
                if rect_pause_play.collidepoint(pos):
                    if is_paused:
                        pause_play = pygame.image.load(
                            '../img/pause.png').convert_alpha()
                    else:
                        pause_play = pygame.image.load(
                            '../img/play.png').convert_alpha()
                    is_paused = not is_paused
                elif rect_next.collidepoint(pos):
                    try:
                        generacion = next(iterator)
                        list = generacion.vivos()
                    except StopIteration:
                        pass

            menu.react(event)  # the menu automatically integrate your elements

        pantalla.fill(NEGRO)

        if not is_paused:
            try:
                generacion = next(iterator)
                list = generacion.vivos()
            except StopIteration:
                pass

        dibujar_tablero(list)

        rect_pause_play = pantalla.blit(pause_play, (700, 260))
        rect_next = pantalla.blit(nextt, (750, 260))

        box.blit()
        box.update()

        # Avanzamos y actualizamos la pantalla con lo que hemos dibujado.
        pygame.display.flip()

        # Limitamos a 5 fotogramas por segundo.
        reloj.tick(5)

    # Cerramos la ventana y salimos.
    pygame.quit()
    Menu.start()
Exemplo n.º 22
0
	def __init__(self):
		self.game = Game()
Exemplo n.º 23
0
    def gog_update(self, platforms, store_id):
        media_type = GOG_MEDIA_TYPE_GAME
        items = []
        i = 0

        self.load_cookies()

        api_url = GOG_ACCOUNT_URL
        api_url += "/getFilteredProducts"
        done = False
        while not done:
            i += 1
            url = api_url + "?" + urlencode({'mediaType': media_type,
                                             'sortBy': 'title',
                                             'page': str(i)})

            with self.request(url, delay=0) as data_request:
                reader = codecs.getreader("utf-8")

                try:
                    json_data = json.load(reader(data_request))
                except ValueError:
                    raise SystemExit(1)

                for item_json_data in json_data['products']:
                    if item_json_data.get('isHidden', False) is True:
                        continue

                    gog_id = str(item_json_data['id'])
                    title = item_json_data['title']
                    description = item_json_data['slug']
                    genre = item_json_data['category']
                    store_url = "https://www.gog.com" + item_json_data['url']

                    src_platforms = item_json_data['worksOn']

                    run_platforms = []
                    for platform in platforms:
                        key = platform.name.lower()
                        if('linux' in key):
                            key = 'linux'
                        if('mac' in key):
                            key = 'mac'

                        lower_src_platforms = dict(
                            (k.lower(), v) for k, v in src_platforms.items())

                        if(key in lower_src_platforms):
                            if lower_src_platforms[key]:
                                run_platforms.append(str(platform.platform_id))

                    run_platforms = ','.join(run_platforms)

                    game = Game(title, description, run_platforms,
                                genre, store_id, store_url, None, gog_id, None)
                    game.set_category(0)
                    items.append(game)

                    if i >= json_data['totalPages']:
                        done = True

        return items
class AbstractController(ABC):
    SIGNAL_ERROR = -2
    SIGNAL_BREAK = -1
    SIGNAL_SUCCESS = 0
    SIGNAL_FINISH = 1

    def __init__(self, io_controller=None, delay=None):
        self.handler = ErrorHandler(method="__init__",
                                    module="AbstractController")

        self.handler.log(message="Validating IO Controller")
        self.check_controller_defined(io_controller=io_controller)

        self.handler.log(message="Initializing variables")
        self.available_modes = None
        self.game_ready = False
        self.delay = delay or 0
        self.io_controller = io_controller

        self.handler.log(message="Instantiating Game object")
        self.game = Game(callback_notifier=self.io_controller.report_status)

    #
    # Abstract Methods
    #

    @abc.abstractmethod
    def play(self):
        self.handler.method = "play"

        self.handler.log(message="Playing game")
        self.handler.log(message="Validating IO Controller")

        self.check_controller_defined(io_controller=self.io_controller)

        self.handler.log(message="Show instructions")
        self.io_controller.instructions()

        self.handler.log(message="Construct any IO structures")
        self.io_controller.construct(callback=self)

        self.handler.log(message="Draw the screen")
        self.io_controller.update_screen()

        # Ask if the user wants to execute
        self.handler.log(message="Asking user if they want to play.")
        if not self.io_controller.want_to_play():
            # At this point, the user has said they don't want to execute. So
            # give a farewell and then return control to app.py.
            self.handler.log(message="User did not want to play.")
            self.io_controller.finish("Okay, come back soon!")
            return self.SIGNAL_BREAK

        self.io_controller.report_status("Connecting to the game server...")

        # The user has started a game, so ask the Game model to create a new
        # game object; note, no game is started yet, that only happens when
        # a call to game.get_game is made. Also, a callback notifier is
        # passed to enable the object to perform user AbstractView.
        # game = Game(callback_notifier=self.io_controller.report_status)
        # sleep(self.delay)

        # Get the Game model to check if the server is ready. It will take
        # configuration from os environment variables. See Game.py for more
        # information.
        if not self.game.check_game_server_ready():
            # The Game model couldn't reach the server or did not receive
            # a ready response, so report to the user and return control
            # to app.py.
            self.io_controller.report_error(
                "Sorry, the cowbull game isn't available right now; "
                "please come back later. The issue has been logged.")
            return
        self.io_controller.report_status(
            "Connected to game server. Fetching available game modes...")
        sleep(self.delay)

        # Ask the Game model to get a list of available modes. The Game
        # servers may have different modes, so the Game model always
        # checks.
        modes, error_detail = self.game.get_modes()
        sleep(self.delay)

        if not modes:
            # For some reason (contained in the error detail), the modes
            # weren't returned properly; therefore, the game cannot execute.
            self.io_controller.report_error(error_detail)
            return

        self.available_modes = [str(i['mode']) for i in modes]
        self.io_controller.report_status(
            "{} ready; modes available are: {}".format(
                self.game.game_server["host"],
                ', '.join(self.available_modes)))
        self.game_ready = True

    @abc.abstractmethod
    def make_guess(self, line_number=None):
        self.check_controller_defined(io_controller=self.io_controller)
        self.check_game_in_play()

        # Get the guesses from the user.
        input_list = self.io_controller.get_guess(
            game_digits=self.game.game_digits,
            default_answer=self.game.list_of_digits())

        # If a sentinel (-1) is returned, then the user typed quit
        # during entering the numbers.
        if input_list == self.SIGNAL_BREAK:  # Capture sentinel
            return self.SIGNAL_BREAK, None

        # Pass the numbers guessed by the user to the game model and
        # ask it to take a turn.
        status, turn_output = self.game.take_turn(input_list)
        finished = status in [self.game.WON, self.game.LOST]

        # Check the status of the turn and find out if there was an
        # error, e.g. the user type x, y, z when numbers were expected.
        # If there's an error, show the error details and then continue
        # looping.
        if status == self.game.ERROR:
            self.io_controller.report_error(turn_output)
            return self.SIGNAL_ERROR, turn_output

        served_by = None
        if 'served-by' in turn_output:
            served_by = turn_output["served-by"]

        self.io_controller.report_status(
            message="{}: Your guess analysis is above".format(served_by))

        self.io_controller.update_result(
            line_number=line_number,
            result=turn_output["outcome"]["analysis"],
            numbers_guessed=input_list,
            finished=finished)

        # Check if the user won or lost the game.
        if finished:
            self.io_controller.finish(
                finish_message="{}".format(turn_output["outcome"]["status"]))
            return self.SIGNAL_FINISH, turn_output

        return self.SIGNAL_SUCCESS, turn_output

    #
    # Static Methods
    #

    @staticmethod
    def check_controller_defined(io_controller=None):
        if not io_controller:
            raise ValueError(
                "IO Controller is not set. Game cannot be played.")
        if not isinstance(io_controller, AbstractView):
            raise TypeError("IO Controller is not an instance of AbstractView")

    def check_game_in_play(self):
        if not self.game:
            raise ValueError("Game has not been instantiated!")