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pyFloatingBridge
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master
En Yi 2019-05-05 21:57:39 +01:00
parent 278ddc4075
commit 4dfe52bc62
1 changed files with 90 additions and 24 deletions
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110
players.py
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@ -68,15 +68,18 @@ class Table:
self.width = width self.width = width
self.height = height self.height = height
# For gameplay
self.game_state = GameState.DEALING self.game_state = GameState.DEALING
self.current_round = 0
self.players = [] self.players = []
self.players_playzone = [] self.players_playzone = []
# Table status will be made known to the player by reference
self.table_status = {'played cards': [0, 0, 0, 0], 'leading player': 0, 'trump suit': 1, self.table_status = {'played cards': [0, 0, 0, 0], 'leading player': 0, 'trump suit': 1,
'trump broken': False, 'round history': [], 'bid': 0, 'partner': 0, 'trump broken': False, 'round history': [], 'bid': 0, 'partner': 0,
'partner reveal': False, 'defender': {'target': 0, 'wins': 0}, 'partner reveal': False, 'defender': {'target': 0, 'wins': 0},
'attacker': {'target': 0, 'wins': 0}} 'attacker': {'target': 0, 'wins': 0}}
self.current_round = 0
# Prepare the surfaces for displaying
self.background = pygame.Surface((self.width, self.height)) self.background = pygame.Surface((self.width, self.height))
self.background.fill(clear_colour) self.background.fill(clear_colour)
self.background = self.background.convert() self.background = self.background.convert()
@ -140,6 +143,11 @@ class Table:
self.write_message("Testing....") self.write_message("Testing....")
def write_message(self, text): def write_message(self, text):
"""
Write a message into the center board surface (announcer)
:param text: String to be displayed on the center board
:return: None
"""
rendered_text = self.table_font.render(text, True, (255,0,0)).convert_alpha() rendered_text = self.table_font.render(text, True, (255,0,0)).convert_alpha()
self.announcer.blit(rendered_text, (50, 50)) self.announcer.blit(rendered_text, (50, 50))
@ -147,6 +155,11 @@ class Table:
return self.x, self.y return self.x, self.y
def start_game(self): def start_game(self):
"""
This is where the FSM is. State transition should occur here.
What takes place in the state should be in a function.
:return: None
"""
#while(True): #while(True):
if self.game_state == GameState.DEALING: if self.game_state == GameState.DEALING:
self.shuffle_and_deal() self.shuffle_and_deal()
@ -170,11 +183,16 @@ class Table:
while self.current_round < 14: while self.current_round < 14:
self.play_a_round() self.play_a_round()
self.current_round += 1 self.current_round += 1
self.game_state = GameState.ENDING
else: else:
self.reset_game() self.reset_game()
self.game_state = GameState.DEALING self.game_state = GameState.DEALING
def shuffle_and_deal(self): def shuffle_and_deal(self):
"""
Shuffle and deal the discard deck to the players, which should have 52 cards.
:return: None
"""
if self.discard_deck: if self.discard_deck:
for i in range(10): for i in range(10):
random.shuffle(self.discard_deck) random.shuffle(self.discard_deck)
@ -184,6 +202,10 @@ class Table:
self.update_table.emit() self.update_table.emit()
def check_reshuffle(self): def check_reshuffle(self):
"""
Detect any possible reshuffle request within the players
:return: True if reshuffle requested, else False
"""
for player in self.players: for player in self.players:
print(player.get_card_points()) print(player.get_card_points())
if player.get_card_points() < 4: if player.get_card_points() < 4:
@ -191,28 +213,43 @@ class Table:
return True return True
def start_bidding(self): def start_bidding(self):
"""
The bidding procedure.
:return:
"""
# Randomly pick a starting player, whom also is the current bid winner
current_player = random.randint(1, NUM_OF_PLAYERS) - 1 current_player = random.randint(1, NUM_OF_PLAYERS) - 1
print("Starting Player: {0:d}".format(current_player)) print("Starting Player: {0:d}".format(current_player))
passes = 0 passes = 0
self.table_status["bid"] = 11 # Lowest Bid: 1 Club self.table_status["bid"] = 11 # Lowest Bid: 1 Club by default
current_player += 1
current_player %= 4 first_player = True # Starting bidder "privilege" to raise the starting bid
while passes < NUM_OF_PLAYERS - 1: while passes < NUM_OF_PLAYERS - 1:
print("Player {0:d}".format(current_player)) print("Player {0:d}\n-----".format(current_player))
print("Current Bid: {0:d}".format(self.table_status["bid"])) print("Current Bid: {0:d}".format(self.table_status["bid"]))
print('Bid Leader: Player {0:d}'.format((current_player-passes-1*(not first_player))% 4))
print("Passes: {0:d}".format(passes)) print("Passes: {0:d}".format(passes))
player_bid = self.players[current_player].make_decision(self.game_state, 0) player_bid = self.players[current_player].make_decision(self.game_state, 0)
if not player_bid: # think about the format of output if not player_bid:
if not first_player: # Starting bidder pass do not count at the start
passes += 1 passes += 1
else: else:
self.table_status["bid"] = player_bid self.table_status["bid"] = player_bid
passes = 0 passes = 0
if player_bid == 75: # Highest bid: 7 NoTrump if player_bid == 75: # Highest bid: 7 NoTrump. No further check required
break break
if first_player:
first_player = False
current_player += 1 current_player += 1
current_player %= 4 current_player %= 4
print("Player {0:d}".format(current_player))
print("Player {0:d} is the bid winner!".format(current_player))
print("Player {0:d}\n-----".format(current_player))
# Ask for the partner card
self.table_status["partner"] = self.players[current_player].make_decision(self.game_state, 1) self.table_status["partner"] = self.players[current_player].make_decision(self.game_state, 1)
# Setup the table status before the play starts
self.table_status['partner reveal'] = False self.table_status['partner reveal'] = False
self.table_status["trump suit"] = self.table_status["bid"] % 10 self.table_status["trump suit"] = self.table_status["bid"] % 10
self.table_status["trump broken"] = False self.table_status["trump broken"] = False
@ -221,11 +258,10 @@ class Table:
self.table_status["leading player"] = current_player self.table_status["leading player"] = current_player
else: else:
self.table_status["leading player"] = current_player + 1 self.table_status["leading player"] = current_player + 1
print('Bidding Complete')
print(self.table_status)
self.table_status['defender']['target'] = self.table_status["bid"] // 10 + 6 self.table_status['defender']['target'] = self.table_status["bid"] // 10 + 6
self.table_status['attacker']['target'] = 14 - self.table_status['defender']['target'] self.table_status['attacker']['target'] = 14 - self.table_status['defender']['target']
# Set the roles of the players
self.players[current_player].role = PlayerRole.DEFENDER self.players[current_player].role = PlayerRole.DEFENDER
for _ in range(3): for _ in range(3):
current_player += 1 current_player += 1
@ -236,16 +272,21 @@ class Table:
else: else:
self.players[current_player].role = PlayerRole.ATTACKER self.players[current_player].role = PlayerRole.ATTACKER
print('Bidding Complete')
print(self.table_status)
def play_a_round(self): def play_a_round(self):
# Starting from the leading player, make a play following the rules """
# Subsequent player make their plays Ask each player to play a valid card and determine the winner of the round
# Once all player played, determine the winner :return: None
# Clean up the cards, set the leading player, update score, repeat """
# Leading player starts with the leading card, which determines the leading suit
current_player = self.table_status['leading player'] current_player = self.table_status['leading player']
leading_card = self.players[current_player].make_decision(self.game_state, 0) leading_card = self.players[current_player].make_decision(self.game_state, 0)
self.table_status["played cards"][current_player] = leading_card.value self.table_status["played cards"][current_player] = leading_card.value
self.players_playzone[current_player].add_card(leading_card) self.players_playzone[current_player].add_card(leading_card)
# Subsequent player make their plays, following suit if possible
for _ in range(3): for _ in range(3):
current_player += 1 current_player += 1
current_player %= 4 current_player %= 4
@ -253,22 +294,26 @@ class Table:
self.players_playzone[current_player].add_card(card) self.players_playzone[current_player].add_card(card)
self.table_status["played cards"][current_player] = card.value self.table_status["played cards"][current_player] = card.value
# Reveal the roles once the partner card is played
if not self.table_status['partner reveal']: if not self.table_status['partner reveal']:
if card.value == self.table_status['partner'] if card.value == self.table_status['partner']:
self.table_status['partner reveal'] = True self.table_status['partner reveal'] = True
# Once all player played, find out who wins
card_suits = [card.suit() for card in self.table_status["played cards"]] card_suits = [card.suit() for card in self.table_status["played cards"]]
card_nums = [card.number() for card in self.table_status["played cards"]] card_nums = [card.number() for card in self.table_status["played cards"]]
follow_suits = [suit == leading_card.suit() for suit in card_suits]
trumps = [suit == self.table_status['trump suit'] for suit in card_suits] trumps = [suit == self.table_status['trump suit'] for suit in card_suits]
trump_played = any(trumps) trump_played = any(trumps)
follow_suits = [suit==leading_card.suit() for suit in card_suits] # Break trump if the trump suit is played
valid_nums = [card_nums[i] * (( follow_suits[i] and not trump_played) or trumps[i]) for i in range(4)]
if not self.table_status['trump broken']: if not self.table_status['trump broken']:
if trump_played: if trump_played:
self.table_status['trump broken'] = True self.table_status['trump broken'] = True
# Determine which players to check for winner, and determine winner
valid_nums = [card_nums[i] * ((follow_suits[i] and not trump_played) or trumps[i]) for i in range(4)]
winning_player = valid_nums.index(max(valid_nums)) winning_player = valid_nums.index(max(valid_nums))
# Clean up the cards, update score, set the next leading player, update round history
for deck in self.players_playzone: for deck in self.players_playzone:
self.discard_deck.append(deck.remove_card()) self.discard_deck.append(deck.remove_card())
@ -281,6 +326,7 @@ class Table:
self.table_status['round history'].append(copy.copy(self.table_status["played cards"])) self.table_status['round history'].append(copy.copy(self.table_status["played cards"]))
def reset_game(self): def reset_game(self):
# TODO: Reset the game
for player in self.players: for player in self.players:
print(len(player.cards)) print(len(player.cards))
while not player.is_empty(): while not player.is_empty():
@ -288,6 +334,7 @@ class Table:
print(len(self.discard_deck)) print(len(self.discard_deck))
self.update_table.emit() self.update_table.emit()
class Player(cards.Deck): class Player(cards.Deck):
""" """
A player is essentially a Deck with decision making function or AI component if it is a bot A player is essentially a Deck with decision making function or AI component if it is a bot
@ -308,12 +355,19 @@ class Player(cards.Deck):
self.role = PlayerRole.UNKNOWN self.role = PlayerRole.UNKNOWN
self.AI = ai_component self.AI = ai_component
self.table_status = None # This is found in Table and updated through Table self._table_status = None # This is found in Table and updated through Table
def connect_to_table(self, table): def connect_to_table(self, table):
self.table_status = table self._table_status = table
def make_decision(self, game_state, sub_state): def make_decision(self, game_state, sub_state):
"""
The player will need to make a decision depending on the game state and sub-state
:param game_state: Current game state
:param sub_state: Sub-state which affects the output for the current game state
:return: For Bidding: Either a bid or a partner call
For Playing: A Card
"""
if game_state == GameState.BIDDING: if game_state == GameState.BIDDING:
if sub_state == 0: if sub_state == 0:
return self.make_a_bid() return self.make_a_bid()
@ -321,6 +375,10 @@ class Player(cards.Deck):
return self.call_partner() return self.call_partner()
def make_a_bid(self): def make_a_bid(self):
"""
The procedure to make a bid
:return: A valid bid number
"""
while True: while True:
bid = input("Please input a bid in the format 'number' + 'suit' \n" bid = input("Please input a bid in the format 'number' + 'suit' \n"
"To pass, enter nothing. \n" "To pass, enter nothing. \n"
@ -333,7 +391,7 @@ class Player(cards.Deck):
bid = int(bid) bid = int(bid)
except ValueError: except ValueError:
print("Please enter integer only") print("Please enter integer only")
if self.table_status["bid"] < bid and self.bid_check(bid): if self._table_status["bid"] < bid and self.bid_check(bid):
return bid return bid
else: else:
if bid > 75: if bid > 75:
@ -348,6 +406,10 @@ class Player(cards.Deck):
return rounds <= 5 and 1 <= suit <= 5 return rounds <= 5 and 1 <= suit <= 5
def call_partner(self): def call_partner(self):
"""
The procedure to call a partner
:return: A valid card value
"""
current_card_values = self.get_deck_values() current_card_values = self.get_deck_values()
while True: while True:
partner = input("Please call your partner card. Enter suit number + card number\n" partner = input("Please call your partner card. Enter suit number + card number\n"
@ -364,6 +426,10 @@ class Player(cards.Deck):
print("Please enter integer only") print("Please enter integer only")
def make_a_play(self): def make_a_play(self):
"""
The procedure to make a play in a round
:return: A valid Card
"""
# TODO: Write the procedure of selecting a card # TODO: Write the procedure of selecting a card
return 1 return 1