def __init__(self, ev):
self.running = False
self.ev = ev
self._active_player = None
self.subphaseinfo = SubPhaseInfo(SP_PLAYERINPUT)
self.trash = Pile()
# when entering a new subphase, the game waits for
# an answer of the player. If entering a second (or more)
# subphase, this one is put on the stack (LIFO).
# When the subphase was finished, the game enters
# the subphase on top of the stack
self.subphase_cache = []
# all cards on board get added to this list, and then
# cleanup_step gets called on each of those cards
# on P_PRECLEANUP (e.g. Treasury/Walled Village)
self.precleanupstack = []
# a card can register a callback in this dictionary
# via the on_resolve() method. The callback is
# called when the card is resolved via the resolved
# method. This is used e.g. by Throne Room, which
# will play the second card when the first one
# is resolved. key: card.id value: callable
self.resolve_handler = {}
self.attack_cache = {}
self.reaction_cache = {}
self.misc_cache = {}
self.all_player_action_cache = {}
self.action_step_handler = []
self.buy_step_handler = []
# Instead of a callable or None, a card may return
# a so called LateCall in one of its handler methods.
# If so, this LateCall will be called when the subphase
# is restored, instead of immediately right after the
# handler method
self.late_calls = []
# some cards need to modify the costs of all other cards.
# Thus they can register a cost-modifying callable.
# This callable has to takes (coins, potions) and
# returns (modified_coins, modified_potions)
self.cost_mod = []
self.last_played_cards = defaultdict(list)
self.last_gained_cards = defaultdict(list)
self.last_bought_cards = defaultdict(list)
self.pending_trigger = defaultdict(list)
self.running_trigger = None
self.phase = PhaseManager(self, (ActionPhase(self), BuyPhase(self),
PreCleanupPhase(self), CleanupPhase(self)),
self.__phase_enter, self.__phase_entered,
self.__phase_leave)
class Game(GameInterface):
def __init__(self, ev):
self.running = False
self.ev = ev
self._active_player = None
self.subphaseinfo = SubPhaseInfo(SP_PLAYERINPUT)
# when entering a new subphase, the game waits for
# an answer of the player. If entering a second (or more)
# subphase, this one is put on the stack (LIFO).
# When the subphase was finished, the game enters
# the subphase on top of the stack
self.subphase_cache = []
# all cards on board get added to this list, and then
# cleanup_step gets called on each of those cards
# on P_PRECLEANUP (e.g. Treasury/Walled Village)
self.precleanupstack = []
# a card can register a callback in this dictionary
# via the on_resolve() method. The callback is
# called when the card is resolved via the resolved
# method. This is used e.g. by Throne Room, which
# will play the second card when the first one
# is resolved. key: card.id value: callable
self.resolve_handler = {}
self.attack_cache = {}
self.reaction_cache = {}
self.misc_cache = {}
self.all_player_action_cache = {}
self.action_step_handler = []
self.buy_step_handler = []
# Instead of a callable or None, a card may return
# a so called LateCall in one of its handler methods.
# If so, this LateCall will be called when the subphase
# is restored, instead of immediately right after the
# handler method
self.late_calls = []
# some cards need to modify the costs of all other cards.
# Thus they can register a cost-modifying callable.
# This callable has to takes (coins, potions) and
# returns (modified_coins, modified_potions)
self.cost_mod = []
self.last_played_cards = defaultdict(list)
self.last_gained_cards = defaultdict(list)
self.last_bought_cards = defaultdict(list)
self.pending_trigger = defaultdict(list)
self.running_trigger = None
self.phase = PhaseManager(self, (ActionPhase(self), BuyPhase(self),
PreCleanupPhase(self), CleanupPhase(self)),
self.__phase_enter, self.__phase_entered,
self.__phase_leave)
def __phase_enter(self, phase):
"""Called when entering a new game phase"""
assert phase, "phase is None"
assert self._active_player, "activeplayer is none"
if not self.running:
return
if phase.key == P_ACTION:
for d in (self.last_played_cards, self.last_gained_cards, self.last_bought_cards):
if self._active_player in d:
del d[self._active_player]
ChangePhaseEvent(self._active_player, phase.key).post(self.ev)
ChangeSubPhaseEvent(0, self._active_player, SP_WAIT).post(self.ev)
def __phase_entered(self, phase):
"""Called when entering a new game phase"""
assert phase, "phase is None"
assert self._active_player, "activeplayer is none"
if not self.running:
return
if phase.key == P_PRECLEANUP:
self.precleanupstack.extend(self._active_player.board)
else:
ChangeSubPhaseEvent(0, self._active_player, SP_PLAYERINPUT).post(self.ev)
def __phase_leave(self, phase):
"""Called when leaving a game phase"""
if phase.key == P_CLEANUP:
self.cost_mod = []
ChangePilesEvent().post(self.ev)
ChangeHandEvent(self.active_player).post(self.ev)
def play_card(self, player, card_id, free=False, is_duration=False):
"""Let the player play a card"""
if not player is self.active_player:
logging.error("won't play %i if player %s is not active", card_id, player.name)
return
if not card_id in [c.id for c in player.hand]:
logging.critical("card %i is not in hand of %s", card_id, player.name)
try:
card = player.deck.get_card(card_id)
logging.critical("card is %s", card.name)
except StopIteration:
logging.critical("could not find card in player deck")
logging.critical("hand is %s", ", ".join([str(c.id) for c in player.hand]))
raise RegnancyException()
card = next(c for c in player.hand if c.id == card_id)
if self.phase == P_ACTION and not card.cardtype & ACTION:
return
if self.phase == P_BUY and not card.cardtype & TREASURE:
return
player.play_card(card_id)
if is_duration:
card.begin_step(self, player)
else:
if card.cardtype & DURATION:
player.durations.add(card)
if self.phase == P_BUY:
card.buy_step(self, player)
(self.last_played_cards)[player].append(card)
for handler in self.buy_step_handler:
handler(self, player, card)
elif self.phase == P_ACTION:
card.action_step(self, player)
(self.last_played_cards)[player].append(card)
for handler in self.action_step_handler:
handler(self, player, card)
if card.cardtype & ACTION and not free:
player.actions -= 1
self.update_player(player)
def add_cost_mod(self, mod):
self.cost_mod.append(mod)
ChangePilesEvent().post(self.ev)
ChangeBoardEvent(self.active_player).post(self.ev)
def get_cost(self, pile_or_card):
(coins, potions) = pile_or_card.cost
for mod in self.cost_mod:
(coins, potions) = mod(coins, potions)
return (max(coins, 0), max(potions, 0))
def buy_card(self, player, pile_id):
"""Let the player buy a card"""
pile = self.get_pile(pile_id)
if not len(pile):
raise PileIsEmptyException("Player can't buy card from empty pile")
if self.get_cost(pile)[0] > player.money:
raise NotEnoughMoneyException("Player can't buy this card, no money")
if self.get_cost(pile)[1] > player.potion:
raise NotEnoughMoneyException("Player can't buy this card, no potion")
player.money -= self.get_cost(pile)[0]
player.potion -= self.get_cost(pile)[1]
player.buys -= 1
msg = "%s bought %s" % (player.name, pile.name)
card = self.take_card_from_pile(player, pile, message=msg)
(self.last_bought_cards)[player].append(card)
def take_card_from_pile(self, player, pile, safe=False, to_hand=False,
to_deck=False, message=None):
"""Let the player pick a card from a pile"""
if not len(pile):
if safe:
return
raise PileIsEmptyException("Player can't pick card from empty pile")
card = pile.take()
return self.take_card(player, card, message, to_hand, to_deck)
def take_card(self, player, card, message=None, to_hand=False, to_deck=False):
self.yell(message or "%s took %s" % (player.name, card.name))
player.take_card(card, to_hand, to_deck)
card.gain_step(self, player)
self.update_player(player)
ChangePilesEvent().post(self.ev)
if player == self.active_player:
(self.last_gained_cards)[player].append(card)
self.raise_trigger(T_GAIN, card, player)
return card
def raise_trigger(self, trigger, card, player):
for p in self.players:
handler = [t for t in [(c, c.handle_trigger(trigger)) for c in p.hand] if t[1] != None]
if handler:
self.pending_trigger[p].extend([TriggerInfo(c, player, card, callback) for c, callback in handler])
def trash_card(self, player, card, silent=False):
"""Let the player trash a card from his hand"""
player.trash_card(card)
if not (silent or card.virtual):
self.yell("%s trashed %s" % (player.name, card.name))
self.update_player(player)
def discard_cards(self, cards, player=None):
player = player or self.active_player
for c in cards:
card = c if isinstance(c, Card) else player.hand.get_card(c)
self.discard_card(player, card)
def discard_card(self, player, card):
player.discard_card(card)
self.yell("%s discarded %s" % (player.name, card.name))
self.update_player(player)
def discard_hand(self, player):
any_cards = len(player.hand) > 0
for _ in xrange(len(player.hand)):
self.discard_card(player, (player.hand)[0])
return any_cards
def whisper(self, message, player=None):
"""Send a message a player"""
assert message
MessageEvent(message, reciever=player or self.active_player).post(self.ev)
def yell(self, message):
"""Send a message to all players"""
MessageEvent(message).post(self.ev)
@property
def active_player(self):
"""Get the active player"""
return self._active_player
@property
def players(self):
"""Get all players"""
return self._players
@property
def other_players(self):
return [p for p in self._players if not p is self.active_player]
@property
def kingdompiles(self):
"""Get all kingdom card piles"""
return sorted(self._kingdompiles, key=lambda pile: pile.cost)
@property
def commonpiles(self):
"""Get all treasure piles, victory card piles etc."""
return self._commonpiles
@property
def allpiles(self):
"""Get all piles (kingdom cards and common cards)"""
return list(chain(self.commonpiles, self.kingdompiles))
def update_player(self, player=None):
"""Sending player info around"""
def up(p):
if p == self.active_player:
ChangeBoardEvent(p).post(self.ev)
ChangePilesEvent().post(self.ev)
ChangeHandEvent(p).post(self.ev)
PlayerInfoEvent([p.create_info() for p in self.players]).post(self.ev)
if player:
up(player)
else:
for p in self.players:
up(p)
def setup(self, setup, players):
"""Setup a a new game"""
self.__init__(self.ev) # This seems like a bad, bad hack?
self._players = players
self._kingdompiles = prepare_piles(get_setup(setup), len(self.players))
self._commonpiles = prepare_piles(commonpiles, len(self.players))
self.endcondition = game_end
self.running = True
for player in self.players:
player.actions = 1
player.buys = 1
[player.take_card(card) for card in standarddeck()]
[player.draw_card() for _ in xrange(5)]
self.update_player(player)
ChangePhaseEvent(player, SP_WAIT).post(self.ev)
self._active_player = (self._players)[0]
self.phase.next_phase()
def get_pile(self, cardtype):
"""Get the pile with the specific cardtype"""
a = lambda pile: pile.card == cardtype
b = lambda pile: pile.card.name == cardtype
c = lambda pile: pile.id == cardtype
for l in (a, b, c):
try:
return next(pile for pile in self.allpiles if l(pile))
except:
pass
return None
def draw_card(self, player=None, count=1):
"""Let the player draw a card"""
for _ in xrange(count):
(player or self.active_player).draw_card()
self.update_player(player or self.active_player)
def update(self):
"""The game's main-loop, called by the server's loop"""
if self.pending_trigger:
if self.running_trigger:
return
for p in self.pending_trigger.keys():
if not self.pending_trigger[p]:
del self.pending_trigger[p]
else:
triggerinfo = self.pending_trigger[p][0]
self.running_trigger = triggerinfo
def remove(*args):
self.pending_trigger[p].remove(triggerinfo)
self.running_trigger = None
self.on_resolve(triggerinfo.card, remove)
triggerinfo(self, p)
return
self.phase.update()
def check_endcondition(self):
return game_end(self)
def end_of_game(self):
logging.info("game over")
self.running = False
result = self.calculate_result()
GameEndEvent(result).post(self.ev)
def calculate_result(self):
for p in self.players:
for c in p.deck:
c.end_step(self, p)
return [(p.name, p.score) for p in self.players]
def _next_player(self):
"""Set the next player as active"""
print "- next player -----------------------"
self.action_step_handler = []
self.buy_step_handler = []
self._active_player = self.next_player()
#logging.debug("----- next player (%s)-------", self.active_player.name)
self.yell("It's now %ss turn" % self.active_player.name)
PlayerInfoEvent([p.create_info() for p in self.players]).post(self.ev)
def previous_player(self):
"""Return the previous player before the actual one"""
previous_player = (self.players)[self.players.index(self._active_player) - 1]
return previous_player if not previous_player is self.active_player else None
def next_player(self, current=None):
"""Return the next player after the actual one"""
if not current:
current = self._active_player
next_index = self.players.index(current) + 1
return (self.players)[0] if next_index == len(self.players) else (self.players)[next_index]
def endphase(self, player):
"""End the current phase"""
assert player == self.active_player, \
"Only active player may end his phase"
assert self.subphaseinfo.subphase == SP_PLAYERINPUT, \
"Player has to answer to %s first" % self.subphaseinfo.subphase
self.phase.next_phase()
def has_played(self, card_class):
return any(isinstance(c, card_class) for c in self.last_played_cards[self.active_player])
def let_all_players_pick(self, card, text, handler=None, player_filter=None):
self.all_player_action(card,
handler or card.handler,
SP_PICKCARDSFROMHAND,
InfoToken(text),
player_filter)
def ask_all_players(self, card, askplayerinfo, handler=None, player_filter=None):
self.all_player_action(card, handler or card.handler,
SP_ASKPLAYER, askplayerinfo, player_filter)
def all_player_action(self, card, handler, subphase, info,
player_filter=None):
if not player_filter:
player_filter = lambda p: True
players = [p for p in self.players if player_filter(p)]
for p in players:
(self.all_player_action_cache)[p] = handler
if p is self.active_player:
self.enter_subphase(SubPhaseInfo(subphase, card, info, handler))
else:
ChangeSubPhaseEvent(card.id, p, subphase, info).post(self.ev)
return players
def let_pick_pile(self, card, text, callback=None):
self.enter_subphase(SubPhaseInfo(SP_PICKCARD,
card,
InfoToken(text),
callback or card.handler))
def let_pick_from_hand(self, card, text, callback=None):
self.enter_subphase(SubPhaseInfo(SP_PICKCARDSFROMHAND,
card,
InfoToken(text),
callback or card.handler))
def attack_ask(self, card, info, attack_handler=None,
expect_answer=True, on_restore_callback=None):
self.attack(card, attack_handler or card.attack_handler, SP_ASKPLAYER,
info, expect_answer, on_restore_callback)
def attack_let_pick_from_hand(self, card, text, attack_handler=None,
expect_answer=True, on_restore_callback=None):
self.attack(card, attack_handler or card.attack_handler, SP_PICKCARDSFROMHAND,
InfoToken(text), expect_answer, on_restore_callback)
def attack(self, card, attack_handler=None, subphase=None, info=None,
expect_answer=True, on_restore_callback=None, keep_WAIT=False):
assert card, "card is none"
attack_handler = attack_handler or card.attack_handler
def orc_proxy(game, player):
if on_restore_callback:
on_restore_callback(game, player)
self.resolved(card)
self.enter_subphase(SubPhaseInfo(SP_WAIT,
card,
InfoToken('Waiting for other players'),
on_restore_callback=orc_proxy))
attacked_players = [p for p in self.players if p != self.active_player]
if not attacked_players:
return
attack_phase = subphase or SP_WAIT
def add_to_attack_cache_or_resolve():
if expect_answer:
(self.attack_cache)[p] = attack_handler
ChangeSubPhaseEvent(card.id, p, attack_phase, info).post(self.ev)
return True
# if we don't expect an answer (e.g. the attack cards just says: take a curse)
# we can just call the 'attack_handler' stored in 'attack_cache', so
# the attack takes place immediately.
return attack_handler(self, p, None) != CANCEL_ATTACK
cancel = True
for p in attacked_players:
triggerable_cards ={ t[0]: t[1] for t in [(c, c.handle_trigger(T_ATTACK)) for c in p.hand] if t[1] != None}
reaction_cards = list(set([c.name for c in triggerable_cards.keys()]))
if reaction_cards:
def handle_answer(game, player, result):
if result == "play no reaction":
return add_to_attack_cache_or_resolve
else:
card = (c for c in player.hand if c.name == result).next()
self.yell("%s reveals %s" % (player.name, card.name))
result = triggerable_cards[card]
if callable(result):
def wrapper():
result(self, player, add_to_attack_cache_or_resolve)
return wrapper
else:
ChangeSubPhaseEvent(None, p, SP_WAIT).post(self.ev)
return True
reaction_cards.append("play no reaction")
q_info = AskPlayerInfo('Attacked by %s' % card.name,
"Play reaction card?", reaction_cards, card)
ChangeSubPhaseEvent(uuid4(), p, SP_ASKPLAYER, q_info).post(self.ev)
(self.reaction_cache)[p] = handle_answer
else:
if add_to_attack_cache_or_resolve():
cancel = False
if (not expect_answer and not self.reaction_cache and not keep_WAIT) or cancel:
self._restore_subphase()
def ask(self, card, text, answers, callback=None, on_restore_callback=None):
self.enter_subphase(AskSubPhase(card,
text,
answers,
callback or card.handler,
on_restore_callback))
def ask_yes_no(self, card, text, callback=None, on_restore_callback=None, card_to_show=None):
self.enter_subphase(YesNoSubPhase(card,
text,
callback or card.handler,
on_restore_callback,
card_to_show))
def let_order_cards(self, card, text, cards, callback):
for c in cards:
c.calc_cost = self.get_cost(c)
self.enter_subphase(SubPhaseInfo(SP_ORDERCARDS,
card,
InfoToken(text, cards=cards),
callback=callback))
def enter_subphase(self, subphaseinfo):
"""
Enter a subphase and keep it on a stack, so multiple calls gets resolved in right order
callback: is called when the game receives an answer from a player which is not
in the attack or reaction cache, e.g. after choosing the cards to trash
with chapel etc.
on_restore_callback: is called when the sub phase is restored."""
assert subphaseinfo, "subphaseinfo is None"
if not self.subphase_cache:
self.subphase_cache.append(self.subphaseinfo)
self.subphaseinfo = subphaseinfo
ChangeSubPhaseEvent(subphaseinfo.card.id, self.active_player,
self.subphaseinfo.subphase, self.subphaseinfo.info).post(self.ev)
else:
self.subphase_cache.append(subphaseinfo)
def _restore_subphase(self):
"""Get back to the last subphase
The on_restore_callback-handlers are important for attack cards that do something after changing the sub-phase
to resolve an effect. For example, the Swindler forces each player to reveal the top card of the deck. After
each player revealed the card, the sub-phase changes back from the attack sub-phase to the previous sub-phase,
and this is the point in time where the Swindler wants to decide which cards are replaced.
"""
cb = self.subphaseinfo.on_restore_callback
self.subphaseinfo = self.subphase_cache.pop()
ChangeSubPhaseEvent(self.subphaseinfo.card, self.active_player,
self.subphaseinfo.subphase, info=self.subphaseinfo.info).post(self.ev)
if cb:
cb(self, self.active_player)
for lc in self.late_calls:
lc()
self.late_calls = []
def answered(self, player, result, subid):
"""Handle the given answer"""
caches = (self.attack_cache,
self.reaction_cache,
self.all_player_action_cache,
self.misc_cache)
handled = False
for cache in caches:
if not handled and player in cache.keys():
handled = True
handler_result = cache[player](self, player, result)
if handler_result:
del cache[player]
ChangeSubPhaseEvent(None, player, SP_WAIT).post(self.ev)
if isinstance(handler_result, LateCall):
self.late_calls.append(handler_result)
elif callable(handler_result):
handler_result()
if not [item for sublist in caches for item in sublist]:
self._restore_subphase()
if not handled and self.subphaseinfo.callback:
cbresult = self.subphaseinfo.callback(self, player, result)
if cbresult:
self._restore_subphase()
if callable(cbresult):
cbresult()
def resolved(self, card):
"""Called by cards to tell the game they are resolved"""
if card.id in self.resolve_handler:
(self.resolve_handler)[card.id](self, self.active_player)
del (self.resolve_handler)[card.id]
self.update_player(self.active_player)
def on_resolve(self, card, f):
"""Register a function that is called when a card tells it is resolved"""
(self.resolve_handler)[card.id] = f
def reveal_player_hand(self, player=None):
player = player or self.active_player
for c in player.hand:
self.yell("%s reveals %s" % (player.name, c.name))
def reveal_top_card(self, player=None):
player = player or self.active_player
card = player.draw_card(just_reveal=True)
if card:
self.yell("%s reveals %s" % (player.name, card.name))
else:
self.yell("%s has no cards left" % player.name)
return card
def get_player_by_id(self, player_id):
return (p for p in self.players if p.id == player_id).next()
def add_action_step_handler(self, card_class, callback):
self.action_step_handler.append(StepHandler(card_class, callback))
def add_buy_step_handler(self, card_class, callback):
self.buy_step_handler.append(StepHandler(card_class, callback))
def notify(self, event):
pass
