Go Fish/Python
< Go Fish
Go Fish/Python is part of Go Fish. You may find other members of Go Fish at Category:Go Fish.
OOP
<lang Python>import random import sys from collections import defaultdict
class HumanPlayer(object):
def __init__(self,deck):
self.hand = defaultdict(int)
self.book = []
self.deck = deck #making a copy of deck, all changes within
#this class should affect the global deck
self.score = 0
self.name = raw_input('Name yourself: ')
def Draw(self): #assuming that deck is a global
cardDrawn = self.deck.pop() #removes the last card from deck
self.hand[cardDrawn] += 1 #adds card to hand
print '%s drew %s.' % (self.name,cardDrawn)
self.checkForBooks()
def checkForBooks(self):
- Removes all items of which are 4.
for key,val in self.hand.items(): #can't use iteritems() because we are modifying hand in loop
if val == 4: #completed a book
self.book.append(key)
print '%s completed the book of %s\'s.' % (self.name,key)
self.score += 1
del self.hand[key]
self.emptyCheck()
def emptyCheck(self):
if len(self.deck)!=0 and len(self.hand)==0: #checks if deck/hand is empty
self.Draw()
def displayHand(self): #Displays current hand, cards separated by spaces
return ' '.join(key for key,val in self.hand.iteritems()
for i in range(val)) #meh, make it prettier
def makeTurn(self):
print '%s\'s hand: %s' % (self.name,self.displayHand())
chooseCard = raw_input('What card do you ask for? ').strip()
if chooseCard == 'quit':
sys.exit(0)
if chooseCard not in self.hand:
print 'You don\'t have that card. Try again! (or enter quit to exit)'
chooseCard = self.makeTurn()
return chooseCard
def fishFor(self,card):
if card in self.hand: # if card in hand, returns count and removes the card from hand
val = self.hand.pop(card)
self.emptyCheck()
return val
else:
return False
def gotCard(self,card,amount):
self.hand[card] += amount
self.checkForBooks()
class Computer(HumanPlayer):
def __init__(self,deck):
self.name = 'Computer'
self.hand = defaultdict(int)
self.book = []
self.deck = deck
self.opponentHas = set()
self.score = 0
def Draw(self): #assuming that deck is a global
cardDrawn = self.deck.pop() #removes the last card from deck
self.hand[cardDrawn] += 1 #adds card to hand
print '%s drew a card.' % (self.name)
self.checkForBooks()
##AI: guesses cards that knows you have, then tries cards he has at random. ##Improvements: remember if the card was rejected before, guess probabilities def makeTurn(self):
- print self.displayHand(),self.opponentHas
candidates = list(self.opponentHas & set(self.hand.keys())) #checks for cards in hand that computer knows you have
if not candidates:
candidates = self.hand.keys() #if no intersection between those two, random guess
move = random.choice(candidates)
print '%s fishes for %s.' % (self.name,move)
return move
def fishFor(self,card): #Same as for humans players, but adds the card fished for to opponentHas list.
self.opponentHas.add(card)
if card in self.hand: # if card in hand, returns count and removes the card from hand
val = self.hand.pop(card)
self.emptyCheck()
return val
else:
return False
def gotCard(self,card,amount):
self.hand[card] += amount
self.opponentHas.discard(card)
self.checkForBooks()
class PlayGoFish(object):
def __init__(self):
self.deck = ('2 3 4 5 6 7 8 9 10 J Q K A '*4).split(' ')
self.deck.remove()
self.player = [HumanPlayer(self.deck),Computer(self.deck)] #makes counting turns easier
def endOfPlayCheck(self):#checks if hands/decks are empty using the any method
return self.deck or self.player[0].hand or self.player[1].hand
def play(self):
random.shuffle(self.deck)
for i in xrange(9): # Deal the first cards
self.player[0].Draw()
self.player[1].Draw()
turn = 0
while self.endOfPlayCheck():
print '\nTurn %d (%s:%d %s:%d) %d cards remaining.' % (turn,self.player[0].name,
self.player[0].score,self.player[1].name,self.player[1].score,len(self.deck))
whoseTurn = turn%2
otherPlayer = (turn+1)%2
while True: #loop until player finishes turn
cardFished = self.player[whoseTurn].makeTurn()
result = self.player[otherPlayer].fishFor(cardFished)
if not result: #Draws and ends turn
self.player[whoseTurn].Draw()
break
print '%s got %d more %s.' % (self.player[whoseTurn].name,result, cardFished)
self.player[whoseTurn].gotCard(cardFished,result)
if not self.endOfPlayCheck(): break
turn+=1
print '\nScores: \n%s: %d\n%s: %d\n' % (self.player[0].name,self.player[0].score,
self.player[1].name,self.player[1].score)
if self.player[0].score>self.player[1].score:
print self.player[0].name,'won!'
elif self.player[0].score==self.player[1].score:
print 'Draw!'
else:
print self.player[1].name,'won!'
if __name__=="__main__":
game = PlayGoFish() game.play()</lang>
Procedural
<lang Python>""" Plays a Go Fish game between a user and computer following the rules specified at http://www.rosettacode.org/wiki/Go_Fish """ import itertools import random from copy import deepcopy from operator import attrgetter from typing import (Counter,
Iterable,
Iterator,
List,
NamedTuple,
NewType,
Sequence,
Set,
Tuple,
TypeVar)
Card = NewType('Card', str) Hand = Counter[Card] Deck = Tuple[Card, ...] Watchlist = Set[Card] T = TypeVar('T')
SUITS_COUNT = 4 RANKS = ('2', '3', '4', '5', '6', '7', '8', '9', '10', 'J', 'Q', 'K', 'A') DECK = RANKS * SUITS_COUNT
EMPTY_HAND_MESSAGE = "{} is without cards. They go fishing." CARD_REQUEST_MESSAGE = "{player_name} asks for {card}" NO_CARD_MESSAGE = "{player_name} doesn't have {card}" BOOK_COMPLETED_MESSAGE = "{player_name} completed the book of {card}'s." FISHING_RESULT_MESSAGE = "{player_name} fished a {card}"
class Player(NamedTuple):
name: str hand: Hand is_human: bool score: int = 0 is_lucky: bool = True # if False, turn goes to another player watchlist: Watchlist = set() # used by AI to track enemy's cards
def play(deck: Deck = DECK,
*,
first_hand_count: int = 9,
lucky_fishing: bool = False) -> None:
"""
Plays the Go Fish game according to
http://www.rosettacode.org/wiki/Go_Fish
:param deck: deck from where the cards are drawn
:param first_hand_count: starting amount of cards for a player
:param lucky_fishing: if True, continue playing
after fishing the card from the deck
that was asked from an opponent
"""
deck = shuffle(deck)
deck, (hand, other_hand) = deal_first_hands(deck, count=first_hand_count)
human = Player(name=input('Name yourself: '),
hand=hand,
is_human=True)
ai = Player(name='Computer',
hand=other_hand,
is_human=False)
human = check_hand_for_books(human)
ai = check_hand_for_books(ai)
player, opponent = ai, human
for turn in itertools.count(1):
player, opponent = opponent, player
print_turn_stats(turn=turn,
players=(player, opponent),
cards_left=len(deck))
while cards_in_game(deck, hands=(player.hand, opponent.hand)):
player, opponent, deck = play_turn(player,
opponent,
deck,
lucky_fishing=lucky_fishing)
if not player.is_lucky:
break
else:
print_final_stats((player, opponent))
return
def shuffle(deck: Deck) -> Deck:
"""Returns a shuffled deck""" deck = list(deck) random.shuffle(deck) return tuple(deck)
def deal_first_hands(deck: Deck,
count: int) -> Tuple[Deck, Tuple[Hand, Hand]]:
"""Gives count cards to each player"""
hands = (Hand(), Hand()) # type: Tuple[Hand, Hand]
for hand in ncycles(hands, count):
card, deck = fish(deck)
hand[card] += 1
return deck, hands
def fish(deck: Deck) -> Tuple[Card, Deck]:
"""Returns a fished card from a deck, and a new deck""" return deck[-1], deck[:-1]
def ncycles(iterable: Iterable[T], n: int) -> Iterator[T]:
"""Returns the sequence elements n times""" repeat = itertools.repeat(tuple(iterable), n) return itertools.chain.from_iterable(repeat)
def check_hand_for_books(player: Player) -> Player:
""" Walks through cards in the hand, removes books and adds corresponding score """
def is_book(card_and_count: Tuple[Card, int]) -> bool:
"""
For a pair of card-count
checks if count equals the number of suits
"""
return card_and_count[1] == SUITS_COUNT
player = deepcopy(player)
cards_counts = player.hand.items()
books = list(filter(is_book, cards_counts)) # type: List[Tuple[Card, int]]
for card, _ in books:
player.hand.pop(card)
return player._replace(score=player.score + len(books))
def print_turn_stats(*,
turn: int,
players: Sequence[Player],
cards_left: int) -> None:
"""Prints stats of the current turn"""
name_score = name_score_pairs(players, sep=' ')
print(f'\nTurn {turn} ({name_score}) {cards_left} cards remaining.')
def name_score_pairs(players: Sequence[Player],
*,
sep: str) -> str:
"""Returns a string of pairs of 'name: score'; human goes first"""
players = sorted(players,
key=attrgetter('is_human'),
reverse=True)
name_score_generator = map('{0.name}: {0.score}'.format, players)
return sep.join(name_score_generator)
def cards_in_game(deck: Deck,
hands: Iterable[Hand]) -> bool: """Checks if hands or the deck have any cards""" return deck or any(hands)
def play_turn(player: Player,
opponent: Player,
deck: Deck,
*,
lucky_fishing: bool) -> Tuple[Player, Player, Deck]:
"""Plays one turn"""
player, deck = replenish_card(player, deck=deck)
opponent, deck = replenish_card(opponent, deck=deck)
if player.is_human:
requested_card, watchlist = human_asks_card(
hand=player.hand,
watchlist=opponent.watchlist)
opponent = opponent._replace(watchlist=watchlist)
else:
requested_card = ai_asks_card(player)
if requested_card in opponent.hand:
player, opponent = correct_guess_actions(player=player,
opponent=opponent,
card=requested_card)
else:
player, deck = wrong_guess_actions(
player=player,
opponent=opponent,
requested_card=requested_card,
deck=deck,
lucky_fishing=lucky_fishing)
return player, opponent, deck
def print_final_stats(players: Sequence[Player]) -> None:
"""Prints final stats"""
name_score = name_score_pairs(players, sep='\n')
print(f'\nScores: \n{name_score}\n')
scores = list(map(attrgetter('score'), players))
if all(score == scores[0] for score in scores):
print('Draw!')
else:
winning_player = max(players, key=attrgetter('score'))
print(winning_player.name, 'won!')
def replenish_card(player: Player,
*,
deck: Deck) -> Tuple[Player, Deck]:
"""Returns a player with a card drawn from a deck"""
player = deepcopy(player)
if not player.hand:
print(EMPTY_HAND_MESSAGE.format(player.name))
card, deck = fish(deck)
player.hand[card] += 1
print_fishing_result(player=player,
card=card)
return player, deck
def human_asks_card(*,
hand: Hand,
watchlist: Watchlist) -> Tuple[Card, Watchlist]:
"""Set of actions for when human asks a card from computer"""
watchlist = watchlist.copy()
print_hand(hand)
requested_card = ask_for_card(hand=hand)
watchlist.add(requested_card)
return requested_card, watchlist
def ai_asks_card(player: Player) -> Card:
"""Set of actions for when computer asks a card from human"""
requested_card = request_card(player.hand,
watchlist=player.watchlist)
print_message(CARD_REQUEST_MESSAGE,
player_name=player.name,
card=requested_card)
return requested_card
def correct_guess_actions(player: Player,
opponent: Player,
card: Card):
"""
Set of actions for when player guesses correctly card
in a hand of an opponent
"""
player = deepcopy(player)
opponent = deepcopy(opponent)
card_count = opponent.hand.pop(card)
print(f'{player.name} got {card_count} more {card} '
f'from {opponent.name}.')
player.hand[card] += card_count
player = check_book(player, card)
if not player.is_human:
player.watchlist.discard(card)
player = player._replace(is_lucky=True)
return player, opponent
def wrong_guess_actions(*,
player: Player,
opponent: Player,
requested_card: Card,
deck: Deck,
lucky_fishing: bool) -> Tuple[Player, Deck]:
"""
Set of actions for when player guesses incorrectly card
in a hand of an opponent.
`lucky_fishing` determines if player can continue playing
after fishing the wanted card
"""
player = deepcopy(player)
print_message(NO_CARD_MESSAGE,
player_name=opponent.name,
card=requested_card)
card, deck = fish(deck)
player.hand[card] += 1
print_fishing_result(player=player,
card=card)
player = check_book(player, card)
if lucky_fishing:
player = player._replace(is_lucky=card == requested_card)
else:
player = player._replace(is_lucky=False)
if player.is_lucky:
print("What a luck! "
"The fished card was the same as requested!")
return player, deck
def print_hand(hand: Hand) -> None:
"""Prints a hand in the following form: 'Q Q 7 7 7 3'""" ranks = itertools.starmap(itertools.repeat, hand.items()) print(*itertools.chain.from_iterable(ranks))
def ask_for_card(hand: Hand) -> Card:
"""Asks user for a card, and checks if it is in their hand"""
while True:
asked_card = Card(input('What card do you ask for? '))
if asked_card in hand:
return asked_card
print("You don't have that card. "
"Try again! (or enter quit to exit)")
def request_card(hand: Hand, watchlist: Watchlist) -> Card:
"""AI-like choice for a card that will be asked from a human"""
candidates = list(watchlist & set(hand.keys()))
if not candidates:
candidates = list(hand.keys())
return random.choice(candidates)
def print_message(message: str,
*,
player_name: str,
card: str) -> None:
"""Prints a template message"""
print(message.format(player_name=player_name,
card=card))
def check_book(player: Player,
card: Card) -> Player:
"""
Checks if player has all cards of specified type,
removes them if true, and adds +1 to score
"""
player = deepcopy(player)
if player.hand[card] == SUITS_COUNT:
print_message(BOOK_COMPLETED_MESSAGE,
player_name=player.name,
card=card)
player.hand.pop(card)
player = player._replace(score=player.score + 1)
return player
def print_fishing_result(*,
player: Player,
card: Card) -> None:
"""
Prints result of fishing.
Showing card or not depends on if a player is a human.
"""
card_stub = str(card) if player.is_human else 'card'
print_message(FISHING_RESULT_MESSAGE,
player_name=player.name,
card=card_stub)
if __name__ == "__main__":
play()
</lang>