def get_seed_for(p):
if Game.SERVER_SIDE:
seed = long(Game.getgame().random.randint(1, 10**20))
else:
seed = 0L
return sync_primitive(seed, p)
def get_seed_for(p):
if Game.SERVER_SIDE:
seed = long(Game.getgame().random.randint(1, 10 ** 20))
else:
seed = 0L
return sync_primitive(seed, p)
def handle(self, evt_type, act):
if evt_type == 'action_after' and isinstance(act, Damage):
g = Game.getgame()
src, tgt = act.source, act.target
if not (src and src.has_skill(Disarm)): return act
if tgt.dead: return act
pact = g.action_stack[-1]
pcard = getattr(pact, 'associated_card', None)
if not pcard: return act
if not pcard.is_card(AttackCard) and not (pcard.is_card(DuelCard) and pact.source is src):
return act
if not user_input([src], ChooseOptionInputlet(self, (False, True))):
return act
cl = list(tgt.cards) + list(tgt.showncards)
g.process_action(ShowCards(tgt, cl, [src]))
if g.SERVER_SIDE:
l = [bool(c.is_card(AttackCard) or 'spellcard' in c.category) for c in cl]
else:
l = [False for c in cl]
l = sync_primitive(l, g.players)
cl = list(itertools.compress(cl, l))
g.process_action(DisarmHideAction(src, tgt, cl))
elif evt_type == 'action_after' and isinstance(act, FinalizeStage):
tgt = act.target
g = Game.getgame()
g.process_action(DisarmReturningAction(tgt, tgt))
return act
def handle(self, evt_type, act):
if evt_type == 'action_after' and isinstance(act, Damage):
g = Game.getgame()
src, tgt = act.source, act.target
if not (src and src.has_skill(Disarm)): return act
if tgt.dead: return act
pact = g.action_stack[-1]
pcard = getattr(pact, 'associated_card', None)
if not pcard: return act
if not pcard.is_card(AttackCard) and not (pcard.is_card(DuelCard) and pact.source is src):
return act
if not user_input([src], ChooseOptionInputlet(self, (False, True))):
return act
cl = list(tgt.cards) + list(tgt.showncards)
g.process_action(ShowCards(tgt, cl, [src]))
if g.SERVER_SIDE:
l = [c.is_card(AttackCard) or 'spellcard' in c.category for c in cl]
else:
l = [False for c in cl]
l = sync_primitive(l, g.players)
cl = list(itertools.compress(cl, l))
g.process_action(DisarmHideAction(src, tgt, cl))
elif evt_type == 'action_after' and isinstance(act, FinalizeStage):
tgt = act.target
g = Game.getgame()
g.process_action(DisarmReturningAction(tgt, tgt))
return act
def random_choose_card(cardlists):
from itertools import chain
allcards = list(chain.from_iterable(cardlists))
if not allcards:
return None
g = Game.getgame()
c = g.random.choice(allcards)
v = sync_primitive(c.sync_id, g.players)
cl = g.deck.lookupcards([v])
assert len(cl) == 1
c = cl[0]
c.detach()
return c
def random_choose_card(cardlists):
from itertools import chain
allcards = list(chain.from_iterable(cardlists))
if not allcards:
return None
g = Game.getgame()
c = g.random.choice(allcards)
v = sync_primitive(c.sync_id, g.players)
cl = g.deck.lookupcards([v])
assert len(cl) == 1
c = cl[0]
c.detach()
return c
def random_choose_card(categories):
from itertools import chain
allcards = list(chain.from_iterable(categories))
if not allcards:
return None
g = Game.getgame()
c = g.random.choice(allcards)
v = sync_primitive(c.syncid, g.players)
cl = g.deck.lookupcards([v])
if len(cl)!=1:
print cl
assert len(cl) == 1
return cl[0]
def roll(g, items):
from thb.item import European
roll = range(len(g.players))
g.random.shuffle(roll)
pl = g.players
for i, p in enumerate(pl):
if European.is_european(g, items, p):
g.emit_event('european', p)
roll.remove(i)
roll.insert(0, i)
break
roll = sync_primitive(roll, pl)
roll = [pl[i] for i in roll]
g.emit_event('game_roll', roll)
return roll
def roll(g, items):
from thb.item import European
roll = range(len(g.players))
g.random.shuffle(roll)
pl = g.players
for i, p in enumerate(pl):
if European.is_european(g, items, p):
g.emit_event('european', p)
roll.remove(i)
roll.insert(0, i)
break
roll = sync_primitive(roll, pl)
roll = [pl[i] for i in roll]
g.emit_event('game_roll', roll)
return roll
def handle(self, evt_type, act):
if evt_type == 'action_before' and isinstance(act, SpellCardAction):
if act.cancelled: return act # some other thing have done the job
if act.non_responsive:
return act
g = Game.getgame()
has_reject = False
while g.SERVER_SIDE:
# from thb.characters.baseclasses import Character
# from thb.characters.reimu import SpiritualAttack
# for p in g.players:
# if isinstance(p, Character) and p.has_skill(SpiritualAttack):
# has_reject = True
# break
# if has_reject: break
from thb.cards.definition import RejectCard
for c in flatten([[p.cards, p.showncards] for p in g.players]):
if isinstance(c, RejectCard):
has_reject = True
break
break
has_reject = sync_primitive(has_reject, g.players)
if not has_reject: return act
self.target_act = act
pl = BatchList(p for p in g.players if not p.dead)
with InputTransaction('AskForRejectAction', pl) as trans:
p, rst = ask_for_action(self,
pl, ('cards', 'showncards'), [],
trans=trans)
if not p: return act
cards, _ = rst
assert cards and self.cond(cards)
g.process_action(
LaunchCard(p, [act.target], cards[0], Reject(p, act)))
return act
def handle(self, evt_type, act):
if evt_type == 'action_before' and isinstance(act, SpellCardAction):
if act.cancelled: return act # some other thing have done the job
if act.non_responsive:
return act
g = Game.getgame()
has_reject = False
while g.SERVER_SIDE:
# from thb.characters.baseclasses import Character
# from thb.characters.reimu import SpiritualAttack
# for p in g.players:
# if isinstance(p, Character) and p.has_skill(SpiritualAttack):
# has_reject = True
# break
# if has_reject: break
from thb.cards.definition import RejectCard
for c in flatten([[p.cards, p.showncards] for p in g.players]):
if isinstance(c, RejectCard):
has_reject = True
break
break
has_reject = sync_primitive(has_reject, g.players)
if not has_reject: return act
self.target_act = act
pl = BatchList(p for p in g.players if not p.dead)
with InputTransaction('AskForRejectAction', pl) as trans:
p, rst = ask_for_action(self, pl, ('cards', 'showncards'), [], trans=trans)
if not p: return act
cards, _ = rst
assert cards and self.cond(cards)
g.process_action(LaunchCard(p, [act.target], cards[0], Reject(p, act)))
return act
def shuffle(self, cl):
if Game.SERVER_SIDE:
seed = long(Game.getgame().random.randint(1, 27814431486575L))
else:
seed = 0L
owner = cl.owner
seed = sync_primitive(seed, owner)
if seed: # cardlist owner & server
shuffler = random.Random(seed)
shuffler.shuffle(cl)
else: # others
for c in cl:
c.__class__ = HiddenCard
c.suit = c.number = 0
for c in cl:
c.syncid = 0
self.register_card(c)
def shuffle(self, cl):
if Game.SERVER_SIDE:
seed = long(Game.getgame().random.randint(1, 27814431486575L))
else:
seed = 0L
owner = cl.owner
seed = sync_primitive(seed, owner)
if seed: # cardlist owner & server
shuffler = random.Random(seed)
shuffler.shuffle(cl)
else: # others
for c in cl:
c.__class__ = HiddenCard
c.suit = c.number = 0
for c in cl:
c.syncid = 0
self.register_card(c)
def is_type(self, t):
g = Game.getgame()
pl = g.players
return sync_primitive(self.type == t, pl)
def apply_action(self):
g = Game.getgame()
from cards import Deck
g.deck = Deck()
g.ehclasses = list(action_eventhandlers) + g.game_ehs.values()
H, M, A = Identity.TYPE.HAKUREI, Identity.TYPE.MORIYA, Identity.TYPE.ADMIN
idlist = [A, H, H, M, M]
del H, M, A
pl = g.players[1:]
seed = sync_primitive(g.random.getrandbits(32), g.players)
random.Random(seed).shuffle(pl)
g.players[1:] = pl
g.emit_event('reseat', None)
for p, identity in zip(g.players, idlist):
p.identity = Identity()
p.identity.type = identity
g.process_action(RevealIdentity(p, g.players))
force_hakurei = BatchList(g.players[1:3])
force_moriya = BatchList(g.players[3:5])
g.forces = BatchList([force_hakurei, force_moriya])
from . import characters
g.switch_character(g.players[0], CharChoice(characters.koakuma.Koakuma))
g.koakuma = koakuma = g.players[0]
koakuma.tags['books'] = g.total_books
koakuma.maxlife += 4
koakuma.life += 4
# choose girls -->
chars = characters.get_characters('book')
try:
chars.remove(characters.koakuma.Koakuma)
except:
pass
g.random.shuffle(chars)
testing = list(settings.TESTING_CHARACTERS)
testing = filter_out(chars, lambda c: c.__name__ in testing)
chars = g.random.sample(chars, 24)
if Game.SERVER_SIDE:
choices = [CharChoice(cls) for cls in chars[-20:]]
else:
choices = [CharChoice(None) for _ in xrange(20)]
del chars[-20:]
for p in g.players[1:]:
c = choices[-4:]
del choices[-4:]
akari = CharChoice(characters.akari.Akari)
akari.real_cls = chars.pop()
c.append(akari)
c.extend([CharChoice(cls) for cls in testing])
p.choices = c
p.reveal(c)
pl = g.players[1:]
mapping = {p: p.choices for p in pl}
with InputTransaction('ChooseGirl', pl, mapping=mapping) as trans:
ilet = ChooseGirlInputlet(g, mapping)
ilet.with_post_process(lambda p, rst: trans.notify('girl_chosen', (p, rst)) or rst)
rst = user_input(pl, ilet, timeout=30, type='all', trans=trans)
for p in pl:
c = rst[p] or p.choices[0]
g.switch_character(p, c)
g.emit_event('game_begin', g)
for p in g.players:
g.process_action(DistributeCards(p, amount=4))
pl = g.players
for i, idx in enumerate(cycle(range(len(pl)))):
if i >= 6000: break
p = pl[idx]
if p.dead:
g.process_action(PlayerRevive(p, p, 2))
g.process_action(DrawCards(p, 2))
continue
g.emit_event('player_turn', p)
try:
g.process_action(PlayerTurn(p))
except InterruptActionFlow:
pass
def is_type(self, t):
g = Game.getgame()
pl = g.players
return sync_primitive(self.type == t, pl)
