Ejemplo n.º 1
0
def pickup(state):
    """
    Recommends players to pick up to win the match of the week

    :param state: current state of variables
    :return: prints the best pick up for the week
    """

    # Initialize variables
    if state.opponent is None:
        while 1:
            state.opponent = raw_input("Who are you playing this week?: ")
            if state.opponent not in state.teams:
                print "Please enter a valid opponent name\n"
            else:
                break
    taken_players = []
    for users in state.teams:
        state.teams[users] = Helper.lowercase(state.teams[users])
        taken_players += state.teams[users]
    players_on_team = Helper.lowercase(state.teams[state.current_user])
    swap_dictionary = defaultdict(lambda: defaultdict(int))

    # Constructs a list of players from best to worst
    ranked_players = Helper.sort_dictionary(state.cumulative_player_statistics[state.iteration])
    ranked_players = [ranked_players[x][0] for x in range(len(ranked_players))]

    for n in range(len(ranked_players)):

        # Removes players already on the team
        if ranked_players[n] in players_on_team:
            players_on_team.pop(players_on_team.index(ranked_players[n]))

        # Prints other players
        if ranked_players[n] not in taken_players and len(players_on_team) != 0:

            # Determines the best player to drop and add
            for player in players_on_team:
                new_change = sum(Helper.evaluate_player_swap(copy.deepcopy(state.teams),
                                                             player, ranked_players[n],
                                                             state.normalized_player_statistics[state.iteration],
                                                             state, state.opponent)[0].values())
                swap_dictionary[player][ranked_players[n]] = new_change

    return swap_dictionary
Ejemplo n.º 2
0
def waiver(state):
    """
    Recommends players to pick up off the waiver

    :param state: current state of variables
    :return:
    """

    # Initialize variables
    swap_dictionary = defaultdict(lambda: defaultdict(int))
    players = state.cumulative_player_statistics[state.iteration].keys()
    team_stat = Helper.evaluate_teams(copy.deepcopy(state.teams), state.normalized_player_statistics[state.iteration], state)
    print team_stat

    """
    for player in players:

        # Only iterates through players on waiver wire
        # TODO: Replace with SQL query
        if player not in state.taken_players and player not in state.players_on_team:

            # Loops over all players on team
            for other_player in state.players_on_team:
                change_stat = copy.deepcopy(team_stat)
    """

#     """
    for player in players:

        # Prints other players
        if player not in state.taken_players and player not in state.players_on_team:

            # Determines the best player to drop and add
            for other_player in state.players_on_team:
                new_change = sum(Helper.evaluate_player_swap(copy.deepcopy(state.teams), other_player, player,
                                                             state.normalized_player_statistics[state.iteration],
                                                             state)[0].values())
                swap_dictionary[other_player][player] = new_change
#     """

    return swap_dictionary
Ejemplo n.º 3
0
def swap(state):
    """
    Shows the change in statistics if a player is swapped from your team

    :param state: current state of variables
    :return: prints statistic changes
    """

    # Initialize variables
    for user in state.teams:
        state.teams[user] = Helper.lowercase(state.teams[user])
    state.teams_storage = copy.deepcopy(state.teams)

    if state.player_to_obtain is None and state.player_to_trade is None:
        state.update_player_to_trade(raw_input("Enter the player you want to remove from your team: ").lower())
        state.update_player_to_obtain(raw_input("Enter the player you want to add to your team: ").lower())
        print ""

    # If the input is valid, analyze statistic changes
    if state.player_to_trade in state.cumulative_player_statistics[state.iteration] \
            and state.player_to_trade in state.teams[state.current_user] \
            and state.player_to_obtain in state.cumulative_player_statistics[state.iteration] \
            and state.player_to_obtain not in state.teams[state.current_user]:
        state.teams = copy.deepcopy(state.teams_storage)
        return Helper.evaluate_player_swap(state.teams, state.player_to_trade, state.player_to_obtain,
                                           state.normalized_player_statistics[state.iteration], state)

    # Notifies user if player is not in their team
    elif state.player_to_trade not in state.teams[state.current_user]:
        print state.player_to_trade.title(), "is not on your team"
    elif state.player_to_obtain in state.teams["Chris S"]:
        print state.player_to_obtain.title(), "is already on your team"

    # Suggests player names if input is incorrect
    elif state.player_to_trade not in state.cumulative_player_statistics[state.iteration]:
        Helper.check_incorrect_input(state.player_to_trade, state.normalized_player_statistics[state.iteration].keys())
    else:
        Helper.check_incorrect_input(state.player_to_obtain, state.normalized_player_statistics[state.iteration].keys())