## vim:ts=4:et:nowrap
##
##---------------------------------------------------------------------------##
##
## PySol -- a Python Solitaire game
##
## Copyright (C) 2000 Markus Franz Xaver Johannes Oberhumer
## Copyright (C) 1999 Markus Franz Xaver Johannes Oberhumer
## Copyright (C) 1998 Markus Franz Xaver Johannes Oberhumer
##
## 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 2 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; see the file COPYING.
## If not, write to the Free Software Foundation, Inc.,
## 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
##
## Markus F.X.J. Oberhumer
## <markus@oberhumer.com>
## http://www.oberhumer.com/pysol
##
##---------------------------------------------------------------------------##
__all__ = []
# imports
import sys
# PySol imports
from pysollib.gamedb import registerGame, GameInfo, GI
from pysollib.util import *
from pysollib.mfxutil import kwdefault
from pysollib.stack import *
from pysollib.game import Game
from pysollib.layout import Layout
from pysollib.hint import AbstractHint, DefaultHint, CautiousDefaultHint
from pysollib.hint import FreeCellSolverWrapper
# /***********************************************************************
# // Castles in Spain
# ************************************************************************/
class CastlesInSpain(Game):
Layout_Method = Layout.bakersDozenLayout
Talon_Class = InitialDealTalonStack
Foundation_Class = SS_FoundationStack
RowStack_Class = SuperMoveAC_RowStack
Hint_Class = CautiousDefaultHint
Solver_Class = FreeCellSolverWrapper()
#
# game layout
#
def createGame(self, **layout):
# create layout
l, s = Layout(self), self.s
kwdefault(layout, rows=13, playcards=9)
self.Layout_Method(l, **layout)
self.setSize(l.size[0], l.size[1])
# create stacks
s.talon = self.Talon_Class(l.s.talon.x, l.s.talon.y, self)
for r in l.s.foundations:
s.foundations.append(self.Foundation_Class(r.x, r.y, self, suit=r.suit))
for r in l.s.rows:
s.rows.append(self.RowStack_Class(r.x, r.y, self))
# default
l.defaultAll()
def startGame(self, flip=(0, 0, 0)):
for f in flip:
self.s.talon.dealRow(flip=f, frames=0)
self.startDealSample()
self.s.talon.dealRow()
shallHighlightMatch = Game._shallHighlightMatch_AC
# /***********************************************************************
# // Martha
# ************************************************************************/
class Martha_RowStack(AC_RowStack):
def acceptsCards(self, from_stack, cards):
if not AC_RowStack.acceptsCards(self, from_stack, cards):
return 0
# when empty, only accept a single card
return self.cards or len(cards) == 1
class Martha(CastlesInSpain):
Solver_Class = None
RowStack_Class = Martha_RowStack
def createGame(self):
CastlesInSpain.createGame(self, rows=12, playcards=13)
def _shuffleHook(self, cards):
# move Aces to bottom of the Talon (i.e. last cards to be dealt)
return self._shuffleHookMoveToBottom(cards, lambda c: (c.rank == 0, c.suit))
def startGame(self):
CastlesInSpain.startGame(self, flip=(0, 1, 0))
self.s.talon.dealRow(rows=self.s.foundations)
# /***********************************************************************
# // Baker's Dozen
# ************************************************************************/
class BakersDozen(CastlesInSpain):
RowStack_Class = StackWrapper(RK_RowStack, max_move=1, max_accept=1,
base_rank=NO_RANK)
Solver_Class = FreeCellSolverWrapper(preset='bakers_dozen')
def _shuffleHook(self, cards):
# move Kings to bottom of each stack
i, n = 0, len(self.s.rows)
kings = []
for c in cards:
if c.rank == KING:
kings.append(i)
i = i + 1
for i in kings:
j = i % n
while j < i:
if cards[j].rank != KING:
cards[i], cards[j] = cards[j], cards[i]
break
j = j + n
cards.reverse()
return cards
def startGame(self):
CastlesInSpain.startGame(self, flip=(1, 1, 1))
shallHighlightMatch = Game._shallHighlightMatch_RK
# /***********************************************************************
# // Spanish Patience
# // Portuguese Solitaire
# ************************************************************************/
class SpanishPatience(BakersDozen):
Foundation_Class = AC_FoundationStack
Solver_Class = None
class PortugueseSolitaire(BakersDozen):
RowStack_Class = StackWrapper(RK_RowStack, base_rank=KING)
Solver_Class = FreeCellSolverWrapper(sbb='rank', esf='kings')
def _shuffleHook(self, cards):
return cards
class SpanishPatienceII(PortugueseSolitaire):
RowStack_Class = RK_RowStack
Solver_Class = FreeCellSolverWrapper(sbb='rank', sm='unlimited')
# /***********************************************************************
# // Good Measure
# ************************************************************************/
class GoodMeasure(BakersDozen):
Solver_Class = FreeCellSolverWrapper(preset='good_measure')
def createGame(self):
CastlesInSpain.createGame(self, rows=10)
def _shuffleHook(self, cards):
cards = BakersDozen._shuffleHook(self, cards)
# move 2 Aces to bottom of the Talon (i.e. last cards to be dealt)
return self._shuffleHookMoveToBottom(cards, lambda c: (c.rank == 0, c.suit), 2)
def startGame(self):
CastlesInSpain.startGame(self, flip=(1, 1, 1, 1))
for i in range(2):
c = self.s.talon.cards[-1]
assert c.rank == ACE
self.flipMove(self.s.talon)
self.moveMove(1, self.s.talon, self.s.foundations[c.suit])
# /***********************************************************************
# // Cruel
# ************************************************************************/
class Cruel_Talon(TalonStack):
def canDealCards(self):
## FIXME: this is to avoid loops in the demo
#if self.game.demo and self.game.moves.index >= 100:
# return False
if self.round == self.max_rounds:
return False
return not self.game.isGameWon()
def dealCards(self, sound=0):
lr = len(self.game.s.rows)
# move all cards to the Talon and redeal (no shuffling)
num_cards = 0
assert len(self.cards) == 0
rows = list(self.game.s.rows)[:]
rows.reverse()
for r in rows:
for i in range(len(r.cards)):
num_cards = num_cards + 1
self.game.moveMove(1, r, self, frames=0)
assert len(self.cards) == num_cards
if num_cards == 0: # game already finished
return 0
# redeal in packs of 4 cards
self.game.nextRoundMove(self)
n, i = num_cards, 0
deal = [4] * lr
extra_cards = n - 4 * lr
while extra_cards > 0:
# note: this can only happen in Tarock games like Nasty
deal[i] = deal[i] + 1
i = (i + 1) % lr
extra_cards = extra_cards - 1
##print n, deal
self.game.startDealSample()
for i in range(lr):
k = min(deal[i], n)
frames = (0, 4)[n <= 3*4]
for j in range(k):
self.game.moveMove(1, self, self.game.s.rows[i], frames=frames)
n = n - k
if n == 0:
break
# done
self.game.stopSamples()
assert n == len(self.cards) == 0
return num_cards
class Cruel(CastlesInSpain):
Talon_Class = StackWrapper(Cruel_Talon, max_rounds=-1)
RowStack_Class = StackWrapper(SS_RowStack, base_rank=NO_RANK)
##Solver_Class = FreeCellSolverWrapper(preset='cruel')
Solver_Class = None
def createGame(self):
CastlesInSpain.createGame(self, rows=12)
def _shuffleHook(self, cards):
# move Aces to bottom of the Talon (i.e. last cards to be dealt)
return self._shuffleHookMoveToBottom(cards, lambda c: (c.rank == 0, c.suit))
def startGame(self):
CastlesInSpain.startGame(self, flip=(1, 1, 1))
self.s.talon.dealRow(rows=self.s.foundations)
shallHighlightMatch = Game._shallHighlightMatch_SS
# /***********************************************************************
# // Royal Family
# // Indefatigable
# ************************************************************************/
class RoyalFamily(Cruel):
Foundation_Class = StackWrapper(SS_FoundationStack, base_rank=KING, dir=-1)
Talon_Class = StackWrapper(Cruel_Talon, max_rounds=2)
RowStack_Class = UD_AC_RowStack
def _shuffleHook(self, cards):
# move Kings to bottom of the Talon (i.e. last cards to be dealt)
return self._shuffleHookMoveToBottom(cards, lambda c: (c.rank == KING, c.suit))
shallHighlightMatch = Game._shallHighlightMatch_AC
class Indefatigable(Cruel):
Foundation_Class = StackWrapper(SS_FoundationStack, max_move=0)
Talon_Class = StackWrapper(Cruel_Talon, max_rounds=3)
RowStack_Class = UD_SS_RowStack
def _shuffleHook(self, cards):
# move Aces to bottom of the Talon (i.e. last cards to be dealt)
return self._shuffleHookMoveToBottom(cards, lambda c: (c.rank == ACE, c.suit))
shallHighlightMatch = Game._shallHighlightMatch_SS
# /***********************************************************************
# // Perseverance
# ************************************************************************/
class Perseverance(Cruel, BakersDozen):
Talon_Class = StackWrapper(Cruel_Talon, max_rounds=3)
RowStack_Class = StackWrapper(SS_RowStack, base_rank=NO_RANK, dir=-1, max_move=UNLIMITED_MOVES, max_accept=UNLIMITED_ACCEPTS)
Solver_Class = None
def _shuffleHook(self, cards):
# move Kings to bottom of each stack (???)
#cards = BakersDozen._shuffleHook(self, cards)
# move Aces to bottom of the Talon (i.e. last cards to be dealt)
cards = Cruel._shuffleHook(self, cards)
return cards
## def dealCards(self, sound=1):
## Cruel.dealCards(self, sound)
# /***********************************************************************
# // Ripple Fan
# ************************************************************************/
class RippleFan(CastlesInSpain):
Solver_Class = None
def createGame(self):
# create layout
l, s = Layout(self), self.s
Layout.bakersDozenLayout(l, rows=13)
self.setSize(l.size[0], l.size[1])
# create stacks
s.talon = Cruel_Talon(l.s.talon.x, l.s.talon.y, self, max_rounds=-1)
for r in l.s.foundations:
s.foundations.append(SS_FoundationStack(r.x, r.y, self, suit=r.suit))
for r in l.s.rows:
s.rows.append(SS_RowStack(r.x, r.y, self, base_rank=NO_RANK))
# default
l.defaultAll()
def startGame(self):
CastlesInSpain.startGame(self, flip=(1, 1, 1))
shallHighlightMatch = Game._shallHighlightMatch_SS
# register the game
registerGame(GameInfo(83, CastlesInSpain, "Castles in Spain",
GI.GT_BAKERS_DOZEN, 1, 0, GI.SL_BALANCED))
registerGame(GameInfo(84, Martha, "Martha",
GI.GT_BAKERS_DOZEN, 1, 0, GI.SL_BALANCED))
registerGame(GameInfo(31, BakersDozen, "Baker's Dozen",
GI.GT_BAKERS_DOZEN | GI.GT_OPEN, 1, 0, GI.SL_MOSTLY_SKILL))
registerGame(GameInfo(85, SpanishPatience, "Spanish Patience",
GI.GT_BAKERS_DOZEN | GI.GT_OPEN, 1, 0, GI.SL_MOSTLY_SKILL))
registerGame(GameInfo(86, GoodMeasure, "Good Measure",
GI.GT_BAKERS_DOZEN | GI.GT_OPEN, 1, 0, GI.SL_MOSTLY_SKILL))
registerGame(GameInfo(104, Cruel, "Cruel",
GI.GT_BAKERS_DOZEN | GI.GT_OPEN, 1, -1, GI.SL_BALANCED))
registerGame(GameInfo(291, RoyalFamily, "Royal Family",
GI.GT_BAKERS_DOZEN | GI.GT_OPEN, 1, 1, GI.SL_MOSTLY_SKILL))
registerGame(GameInfo(308, PortugueseSolitaire, "Portuguese Solitaire",
GI.GT_BAKERS_DOZEN | GI.GT_OPEN, 1, 0, GI.SL_MOSTLY_SKILL))
registerGame(GameInfo(404, Perseverance, "Perseverance",
GI.GT_BAKERS_DOZEN | GI.GT_OPEN, 1, 2, GI.SL_BALANCED))
registerGame(GameInfo(369, RippleFan, "Ripple Fan",
GI.GT_BAKERS_DOZEN, 1, -1, GI.SL_MOSTLY_SKILL))
registerGame(GameInfo(515, Indefatigable, "Indefatigable",
GI.GT_BAKERS_DOZEN | GI.GT_OPEN, 1, 2, GI.SL_MOSTLY_SKILL))
registerGame(GameInfo(664, SpanishPatienceII, "Spanish Patience II",
GI.GT_BAKERS_DOZEN | GI.GT_OPEN, 1, 0, GI.SL_MOSTLY_SKILL))