#!/usr/bin/env python
# -*- mode: python; coding: utf-8; -*-
# ---------------------------------------------------------------------------
#
# Copyright (C) 1998-2003 Markus Franz Xaver Johannes Oberhumer
# Copyright (C) 2003 Mt. Hood Playing Card Co.
# Copyright (C) 2005-2009 Skomoroh
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
# ---------------------------------------------------------------------------
from pysollib.game import Game
from pysollib.gamedb import GI, GameInfo, registerGame
from pysollib.games.montecarlo import MonteCarlo_RowStack
from pysollib.layout import Layout
from pysollib.stack import \
AbstractFoundationStack, \
BasicRowStack, \
DealRowTalonStack, \
OpenStack, \
RK_RowStack, \
ReserveStack, \
Spider_RK_Foundation, \
Stack, \
StackWrapper, \
TalonStack, \
isRankSequence
from pysollib.util import ACE, ANY_RANK, ANY_SUIT, NO_RANK, \
UNLIMITED_ACCEPTS, \
UNLIMITED_MOVES
# ************************************************************************
# * Aces Up
# ************************************************************************
class AcesUp_Foundation(AbstractFoundationStack):
def acceptsCards(self, from_stack, cards):
if not AbstractFoundationStack.acceptsCards(self, from_stack, cards):
return False
c = cards[0]
for s in self.game.s.rows:
if s is not from_stack and s.cards and s.cards[-1].suit == c.suit:
if s.cards[-1].rank > c.rank or s.cards[-1].rank == ACE:
# found a higher rank or an Ace on the row stacks
return c.rank != ACE
return False
class AcesUp_RowStack(BasicRowStack):
def acceptsCards(self, from_stack, cards):
if not BasicRowStack.acceptsCards(self, from_stack, cards):
return False
return len(self.cards) == 0
clickHandler = BasicRowStack.doubleclickHandler
class AcesUp(Game):
Foundation_Class = AcesUp_Foundation
Talon_Class = DealRowTalonStack
RowStack_Class = StackWrapper(AcesUp_RowStack, max_accept=1)
#
# game layout
#
def createGame(self, rows=4, reserve=False, **layout):
# create layout
l, s = Layout(self), self.s
# set window
self.setSize(l.XM + (rows+3)*l.XS, l.YM + 4*l.YS)
# create stacks
x, y, = l.XM, l.YM
s.talon = self.Talon_Class(x, y, self)
if reserve:
l.createText(s.talon, "ne")
else:
l.createText(s.talon, "s")
x = x + 3*l.XS//2
for i in range(rows):
s.rows.append(self.RowStack_Class(x, y, self))
x = x + l.XS
x = x + l.XS//2
stack = self.Foundation_Class(x, y, self, suit=ANY_SUIT, max_move=0,
dir=0, base_rank=ANY_RANK, max_cards=48)
l.createText(stack, "s")
s.foundations.append(stack)
if reserve:
x, y = l.XM, l.YM+l.YS
s.reserves.append(self.ReserveStack_Class(x, y, self))
# define stack-groups
l.defaultStackGroups()
#
# game overrides
#
def startGame(self):
self._startAndDealRow()
def isGameWon(self):
if len(self.s.foundations[0].cards) != 48:
return False
for s in self.s.rows:
if len(s.cards) != 1 or s.cards[0].rank != ACE:
return False
return True
def getAutoStacks(self, event=None):
if event is None:
# disable auto drop - this would ruin the whole gameplay
return (self.sg.dropstacks, (), self.sg.dropstacks)
else:
# rightclickHandler
return (self.sg.dropstacks, self.sg.dropstacks, self.sg.dropstacks)
# ************************************************************************
# * Fortunes
# ************************************************************************
class Fortunes(AcesUp):
RowStack_Class = StackWrapper(
AcesUp_RowStack, max_move=UNLIMITED_MOVES,
max_accept=UNLIMITED_ACCEPTS)
# ************************************************************************
# * Russian Aces
# ************************************************************************
class RussianAces_Talon(DealRowTalonStack):
def dealCards(self, sound=False):
rows = [s for s in self.game.s.rows if not s.cards]
if not rows:
rows = self.game.s.rows
return self.dealRowAvail(rows=rows, sound=sound)
class RussianAces(AcesUp):
Talon_Class = RussianAces_Talon
# ************************************************************************
# * Perpetual Motion
# ************************************************************************
class PerpetualMotion_Talon(DealRowTalonStack):
def canDealCards(self):
# FIXME: this is to avoid loops in the demo
if self.game.demo and self.game.moves.index >= 500:
return False
return not self.game.isGameWon()
def dealCards(self, sound=False):
if self.cards:
return DealRowTalonStack.dealCards(self, sound=sound)
if sound:
self.game.startDealSample()
game, num_cards = self.game, len(self.cards)
rows = list(game.s.rows)[:]
rows.reverse()
for r in rows:
while r.cards:
num_cards = num_cards + 1
game.moveMove(1, r, self, frames=4)
if self.cards[-1].face_up:
game.flipMove(self)
assert len(self.cards) == num_cards
n = DealRowTalonStack.dealCards(self, sound=False)
if sound:
self.game.stopSamples()
return n
class PerpetualMotion_Foundation(AbstractFoundationStack):
def acceptsCards(self, from_stack, cards):
if not AbstractFoundationStack.acceptsCards(self, from_stack, cards):
return False
return isRankSequence(cards, dir=0)
class PerpetualMotion_RowStack(RK_RowStack):
def canDropCards(self, stacks):
pile = self.getPile()
if not pile or len(pile) != 4:
return (None, 0)
for s in stacks:
if s is not self and s.acceptsCards(self, pile):
return (s, 4)
return (None, 0)
class PerpetualMotion(Game):
#
# game layout
#
def createGame(self, **layout):
# create layout
l, s = Layout(self), self.s
# set window
self.setSize(l.XM + 7*l.XS, l.YM + 4*l.YS)
# create stacks
x, y, = l.XM, l.YM
s.talon = PerpetualMotion_Talon(x, y, self, max_rounds=-1)
l.createText(s.talon, "s")
x = x + 3*l.XS//2
for i in range(4):
s.rows.append(
PerpetualMotion_RowStack(x, y, self, dir=0, base_rank=NO_RANK))
x = x + l.XS
x = l.XM + 6*l.XS
stack = PerpetualMotion_Foundation(x, y, self, ANY_SUIT,
base_rank=ANY_RANK,
max_cards=52, max_move=0,
min_accept=4, max_accept=4)
l.createText(stack, "s")
s.foundations.append(stack)
# define stack-groups
l.defaultStackGroups()
#
# game overrides
#
def startGame(self):
self._startAndDealRow()
def shallHighlightMatch(self, stack1, card1, stack2, card2):
return card1.rank == card2.rank
# ************************************************************************
# *
# ************************************************************************
class AcesUp5(AcesUp):
def createGame(self):
AcesUp.createGame(self, rows=5)
def isGameWon(self):
return len(self.s.foundations[0].cards) == 48
# ************************************************************************
# * Cover
# * Deck
# ************************************************************************
class Cover_RowStack(MonteCarlo_RowStack):
def acceptsCards(self, from_stack, cards):
if not OpenStack.acceptsCards(self, from_stack, cards):
return False
if not self.cards:
return False
return self.cards[-1].suit == cards[0].suit
class Cover(AcesUp):
Foundation_Class = StackWrapper(AbstractFoundationStack, max_accept=0)
Talon_Class = TalonStack
RowStack_Class = StackWrapper(Cover_RowStack, max_accept=1)
FILL_STACKS_AFTER_DROP = 0 # for MonteCarlo_RowStack
def fillStack(self, stack):
if not self.s.talon.cards:
return
self.startDealSample()
for r in self.s.rows:
if not r.cards:
self.flipMove(self.s.talon)
self.moveMove(1, self.s.talon, r)
self.stopSamples()
def isGameWon(self):
if self.s.talon.cards:
return False
return len(self.s.foundations[0].cards) == 48
class Deck(Cover):
Talon_Class = DealRowTalonStack
def fillStack(self, stack):
pass
# ************************************************************************
# * Firing Squad
# ************************************************************************
class FiringSquad_Foundation(AcesUp_Foundation):
def acceptsCards(self, from_stack, cards):
if not AcesUp_Foundation.acceptsCards(self, from_stack, cards):
return False
return from_stack in self.game.s.rows
class FiringSquad(AcesUp):
Foundation_Class = FiringSquad_Foundation
ReserveStack_Class = ReserveStack
def createGame(self):
AcesUp.createGame(self, reserve=True)
# ************************************************************************
# * Tabby Cat
# * Manx
# * Maine Coon
# ************************************************************************
class TabbyCatStack(RK_RowStack):
def acceptsCards(self, from_stack, cards):
if not RK_RowStack.acceptsCards(self, from_stack, cards):
return False
# Only allow a sequence if pile is empty
if len(self.cards) > 0:
return False
return True
getBottomImage = Stack._getReserveBottomImage
class TabbyCat(Game):
Talon_Class = DealRowTalonStack
Foundation_Class = Spider_RK_Foundation
RowStack_Class = StackWrapper(RK_RowStack, mod=13)
ReserveStack_Class = StackWrapper(TabbyCatStack, mod=13)
#
# game layout
#
def createGame(self, rows=4, playcards=20):
# create layout
l, s = Layout(self), self.s
decks = self.gameinfo.decks
# set window
self.setSize(l.XM + (decks+rows+3.5)*l.XS,
l.YM + max(4*l.YS, l.YS+playcards*l.YOFFSET))
# create stacks
x = l.XM
for i in range(decks):
y = l.YM
for j in range(4):
s.foundations.append(self.Foundation_Class(x, y, self))
y += l.YS
x += l.XS
x, y, = l.XM + (decks+0.5)*l.XS, l.YM
for i in range(rows):
stack = self.RowStack_Class(x, y, self)
s.rows.append(stack)
stack.canDropCards = stack.spiderCanDropCards
x += l.XS
x += l.XS//2
s.reserves.append(self.ReserveStack_Class(x, y, self))
x += 1.5*l.XS
s.talon = self.Talon_Class(x, y, self)
l.createText(s.talon, "s")
self.setRegion(s.foundations, (-999, -999, l.YS*decks-l.CH//2, 999999))
# define stack-groups
l.defaultStackGroups()
def startGame(self):
self._startAndDealRow()
shallHighlightMatch = Game._shallHighlightMatch_RKW
class Manx(TabbyCat):
ReserveStack_Class = ReserveStack
class MaineCoon(TabbyCat):
def createGame(self):
TabbyCat.createGame(self, playcards=26)
# register the game
registerGame(GameInfo(903, AcesUp, "Aces Up", # was: 52
GI.GT_1DECK_TYPE, 1, 0, GI.SL_LUCK,
altnames=("Aces High", "Drivel")))
registerGame(GameInfo(206, Fortunes, "Fortunes",
GI.GT_1DECK_TYPE, 1, 0, GI.SL_LUCK))
registerGame(GameInfo(213, RussianAces, "Russian Aces",
GI.GT_1DECK_TYPE, 1, 0, GI.SL_LUCK))
registerGame(GameInfo(130, PerpetualMotion, "Perpetual Motion",
GI.GT_1DECK_TYPE, 1, -1, GI.SL_MOSTLY_LUCK,
altnames="First Law"))
registerGame(GameInfo(353, AcesUp5, "Aces Up 5",
GI.GT_1DECK_TYPE, 1, 0, GI.SL_LUCK))
registerGame(GameInfo(552, Cover, "Cover",
GI.GT_1DECK_TYPE, 1, 0, GI.SL_LUCK))
registerGame(GameInfo(583, FiringSquad, "Firing Squad",
GI.GT_1DECK_TYPE, 1, 0, GI.SL_BALANCED))
registerGame(GameInfo(684, Deck, "Deck",
GI.GT_1DECK_TYPE, 1, 0, GI.SL_LUCK))
registerGame(GameInfo(756, TabbyCat, "Tabby Cat",
GI.GT_1DECK_TYPE, 1, 0, GI.SL_MOSTLY_SKILL))
registerGame(GameInfo(757, Manx, "Manx",
GI.GT_1DECK_TYPE, 1, 0, GI.SL_MOSTLY_SKILL))
registerGame(GameInfo(758, MaineCoon, "Maine Coon",
GI.GT_2DECK_TYPE, 2, 0, GI.SL_MOSTLY_SKILL))