#!/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.spider import Spider_AC_Foundation
from pysollib.hint import DefaultHint
from pysollib.hint import FreeCellSolverWrapper, FreeCellType_Hint
from pysollib.layout import Layout
from pysollib.mfxutil import kwdefault
from pysollib.stack import \
AC_FoundationStack, \
AC_RowStack, \
BasicRowStack, \
FreeCell_AC_RowStack, \
FreeCell_SS_RowStack, \
InitialDealTalonStack, \
KingAC_RowStack, \
OpenStack, \
RK_FoundationStack, \
ReserveStack, \
SS_FoundationStack, \
Stack, \
StackWrapper, \
SuperMoveAC_RowStack, \
SuperMoveRK_RowStack, \
isAlternateColorSequence
from pysollib.util import ACE, ANY_SUIT, KING, NO_RANK, UNLIMITED_CARDS
# ************************************************************************
# * FreeCell
# ************************************************************************
class FreeCell(Game):
Layout_Method = staticmethod(Layout.freeCellLayout)
Talon_Class = InitialDealTalonStack
Foundation_Class = SS_FoundationStack
RowStack_Class = SuperMoveAC_RowStack
ReserveStack_Class = ReserveStack
Hint_Class = FreeCellType_Hint
Solver_Class = FreeCellSolverWrapper()
#
# game layout
#
def createGame(self, **layout):
# create layout
l, s = Layout(self), self.s
kwdefault(layout, rows=8, reserves=4, texts=0)
self.Layout_Method(l, **layout)
# self.__class__.__dict__['Layout_Method'](l, **layout)
# self.__class__.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))
for r in l.s.reserves:
s.reserves.append(self.ReserveStack_Class(r.x, r.y, self))
# default
l.defaultAll()
#
# game overrides
#
def startGame(self):
self._startDealNumRows(5)
self.s.talon.dealRow()
r = self.s.rows
# self.s.talon.dealRow(rows=(r[0], r[2], r[4], r[6]))
self.s.talon.dealRow(rows=r[:4])
shallHighlightMatch = Game._shallHighlightMatch_AC
# ************************************************************************
# * Relaxed FreeCell
# ************************************************************************
class RelaxedFreeCell(FreeCell):
RowStack_Class = AC_RowStack
Solver_Class = FreeCellSolverWrapper(sm='unlimited')
# ************************************************************************
# * ForeCell
# ************************************************************************
class ForeCell(FreeCell):
RowStack_Class = StackWrapper(FreeCell_AC_RowStack, base_rank=KING)
Solver_Class = FreeCellSolverWrapper(esf='kings')
def startGame(self):
self._startDealNumRows(5)
self.s.talon.dealRow()
self.s.talon.dealRow(rows=self.s.reserves)
# ************************************************************************
# * Obstruction
# ************************************************************************
class Obstruction_RowStack(SuperMoveAC_RowStack):
def acceptsCards(self, from_stack, cards):
if not self.basicAcceptsCards(from_stack, cards):
return 0
if cards[0].suit == 4:
return 0
stackcards = self.cards
if stackcards:
if stackcards[-1].suit == 4:
return 0
return AC_RowStack.acceptsCards(self, from_stack, cards)
class Obstruction_Foundation(SS_FoundationStack):
def acceptsCards(self, from_stack, cards):
if self.cap.suit == 4 and cards[0].suit == 4:
for s in self.game.s.foundations[:3]:
if len(s.cards) != 13:
return 0
return 1
return SS_FoundationStack.acceptsCards(self, from_stack, cards)
class Obstruction(FreeCell):
Foundation_Class = Obstruction_Foundation
RowStack_Class = Obstruction_RowStack
Solver_Class = None
def startGame(self):
self._startDealNumRows(5)
self.s.talon.dealRow()
r = self.s.rows
self.s.talon.dealRow(rows=r[:6])
# ************************************************************************
# * Petal
# ************************************************************************
class Petal(FreeCell):
Foundation_Class = StackWrapper(SS_FoundationStack, mod=13)
def _shuffleHook(self, cards):
# move base cards to top of the Talon (i.e. first cards to be dealt)
return self._shuffleHookMoveToTop(
cards,
lambda c, rank=cards[-1].rank: (c.rank == rank, 0))
def _updateStacks(self):
for s in self.s.foundations:
s.cap.base_rank = self.base_card.rank
def startGame(self):
self.base_card = self.s.talon.cards[-4]
self._updateStacks()
# deal base cards to Foundations
for i in range(4):
c = self.s.talon.getCard()
assert c.rank == self.base_card.rank
to_stack = self.s.foundations[c.suit * self.gameinfo.decks]
self.flipMove(self.s.talon)
self.moveMove(1, self.s.talon, to_stack, frames=0)
self._startDealNumRows(4)
self.s.talon.dealRow()
r = self.s.rows
self.s.talon.dealRow(rows=r[:4])
self.s.talon.dealRow(rows=self.s.reserves)
def _restoreGameHook(self, game):
self.base_card = self.cards[game.loadinfo.base_card_id]
self._updateStacks()
def _loadGameHook(self, p):
self.loadinfo.addattr(base_card_id=None) # register extra load var.
self.loadinfo.base_card_id = p.load()
def _saveGameHook(self, p):
p.dump(self.base_card.id)
# ************************************************************************
# * Challenge FreeCell
# * Super Challenge FreeCell
# ************************************************************************
class ChallengeFreeCell(FreeCell):
def _shuffleHook(self, cards):
# move Aces and Twos to top of the Talon
return self._shuffleHookMoveToTop(
cards, lambda c: (c.rank in (ACE, 1), (-c.rank, c.suit)))
class SuperChallengeFreeCell(ChallengeFreeCell):
RowStack_Class = StackWrapper(FreeCell_AC_RowStack, base_rank=KING)
Solver_Class = FreeCellSolverWrapper(esf='kings')
# ************************************************************************
# * Stalactites
# ************************************************************************
class Stalactites(FreeCell):
Foundation_Class = StackWrapper(
RK_FoundationStack, suit=ANY_SUIT, mod=13, min_cards=1)
RowStack_Class = StackWrapper(BasicRowStack, max_move=1, max_accept=0)
Solver_Class = None
def createGame(self):
FreeCell.createGame(self, reserves=2)
def startGame(self):
self._startDealNumRows(5)
self.s.talon.dealRow()
self.s.talon.dealRow(rows=self.s.foundations)
self._restoreGameHook(None)
def _restoreGameHook(self, game):
for s in self.s.foundations:
s.cap.base_rank = s.cards[0].rank
# ************************************************************************
# * Double Freecell
# ************************************************************************
class DoubleFreecell(FreeCell):
Solver_Class = None
#
# game layout
#
def createGame(self):
# create layout
l, s = Layout(self), self.s
# set window
w, h = 3*l.XM+10*l.XS, 2*l.YM+2*l.YS+16*l.YOFFSET
self.setSize(w, h)
# create stacks
s.talon = self.Talon_Class(l.XM, h-l.YS, self)
x, y = 3*l.XM + 6*l.XS, l.YM
for i in range(4):
s.foundations.append(
self.Foundation_Class(
x, y, self, suit=i, mod=13, max_cards=26))
x += l.XS
x, y = 2*l.XM, l.YM + l.YS + l.YM
for i in range(10):
s.rows.append(self.RowStack_Class(x, y, self))
x += l.XS
x, y = l.XM, l.YM
for i in range(6):
s.reserves.append(ReserveStack(x, y, self))
x += l.XS
# default
l.defaultAll()
#
# game overrides
#
def _shuffleHook(self, cards):
# move 4 Aces to bottom of the Talon (i.e. last cards to be dealt)
return self._shuffleHookMoveToBottom(
cards, lambda c: (c.rank == ACE and c.deck == 0, c.suit))
def startGame(self):
self._startDealNumRows(9)
self.s.talon.dealRow()
self.s.talon.dealRow(rows=self.s.foundations)
# ************************************************************************
# * Triple Freecell
# ************************************************************************
class TripleFreecell(FreeCell):
Solver_Class = None
#
# game layout
#
def createGame(self, rows=13, reserves=10, playcards=20):
# create layout
l, s = Layout(self), self.s
# set window
decks = self.gameinfo.decks
max_rows = max(decks*4, rows, reserves)
w, h = l.XM+max_rows*l.XS, l.YM+3*l.YS+playcards*l.YOFFSET
self.setSize(w, h)
# create stacks
s.talon = self.Talon_Class(l.XM, h-l.YS, self)
x, y = l.XM+(max_rows-decks*4)*l.XS//2, l.YM
for j in range(4):
for i in range(decks):
s.foundations.append(self.Foundation_Class(x, y, self, suit=j))
x += l.XS
x, y = l.XM+(max_rows-reserves)*l.XS//2, l.YM+l.YS
for i in range(reserves):
s.reserves.append(ReserveStack(x, y, self))
x += l.XS
x, y = l.XM+(max_rows-rows)*l.XS//2, l.YM+2*l.YS
for i in range(rows):
s.rows.append(self.RowStack_Class(x, y, self))
x += l.XS
# default
l.defaultAll()
#
# game overrides
#
def startGame(self):
self._startDealNumRowsAndDealSingleRow(11)
class DoubleFreecellTd(TripleFreecell):
def createGame(self):
TripleFreecell.createGame(self, reserves=8, rows=10, playcards=20)
def startGame(self):
self._startDealNumRows(9)
self.s.talon.dealRow()
r = self.s.rows
self.s.talon.dealRow(rows=r[:4])
class Cell11(TripleFreecell):
def createGame(self):
TripleFreecell.createGame(self, rows=12, reserves=11)
def startGame(self):
self._startDealNumRows(12)
self.s.talon.dealRow(rows=self.s.rows[1:-1])
self.s.talon.dealRow(rows=[self.s.reserves[0], self.s.reserves[-1]])
class BigCell(TripleFreecell):
RowStack_Class = AC_RowStack
def createGame(self):
TripleFreecell.createGame(self, rows=13, reserves=4)
def startGame(self):
self._startDealNumRowsAndDealSingleRow(11)
# ************************************************************************
# * Spidercells
# ************************************************************************
class Spidercells_RowStack(SuperMoveAC_RowStack):
def canMoveCards(self, cards):
if len(cards) == 13 and isAlternateColorSequence(cards):
return True
return SuperMoveAC_RowStack.canMoveCards(self, cards)
def canDropCards(self, stacks):
if len(self.cards) < 13:
return (None, 0)
cards = self.cards[-13:]
for s in stacks:
if s is not self and s.acceptsCards(self, cards):
return (s, 13)
return (None, 0)
class Spidercells(FreeCell):
Solver_Class = None
Foundation_Class = Spider_AC_Foundation
RowStack_Class = Spidercells_RowStack
def createGame(self, **layout):
# create layout
l, s = Layout(self), self.s
kwdefault(layout, rows=8, reserves=4, texts=0)
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=ANY_SUIT))
for r in l.s.rows:
s.rows.append(self.RowStack_Class(r.x, r.y, self))
for r in l.s.reserves:
s.reserves.append(ReserveStack(r.x, r.y, self))
# default
l.defaultAll()
# ************************************************************************
# * Seven by Four
# * Seven by Five
# * Bath
# ************************************************************************
class SevenByFour(FreeCell):
def createGame(self):
FreeCell.createGame(self, rows=7)
def startGame(self):
self._startDealNumRows(6)
self.s.talon.dealRow()
self.s.talon.dealRow(rows=self.s.rows[:3])
class SevenByFive(SevenByFour):
def createGame(self):
FreeCell.createGame(self, rows=7, reserves=5)
class Bath(FreeCell):
Solver_Class = FreeCellSolverWrapper(esf='kings')
RowStack_Class = StackWrapper(SuperMoveAC_RowStack, base_rank=KING)
def createGame(self):
FreeCell.createGame(self, rows=10, reserves=2)
def startGame(self):
for i in range(6):
self.s.talon.dealRow(rows=self.s.rows[i:], frames=0)
self.startDealSample()
self.s.talon.dealRow(rows=self.s.rows[6:])
self.s.talon.dealRow(rows=self.s.rows[7:])
# ************************************************************************
# * Clink
# ************************************************************************
class Clink(FreeCell):
Solver_Class = None
def createGame(self):
# create layout
l, s = Layout(self), self.s
self.setSize(l.XM+8*l.XS, l.YM+2*l.YS+12*l.YOFFSET)
# create stacks
x, y = l.XM, self.height-l.YS
s.talon = InitialDealTalonStack(x, y, self)
x, y = l.XM+l.XS, l.YM
for i in range(2):
s.reserves.append(ReserveStack(x, y, self))
x += l.XS
x += 2*l.XS
for i in range(2):
s.foundations.append(AC_FoundationStack(x, y, self, suit=ANY_SUIT,
max_cards=26, mod=13, max_move=0))
x += l.XS
x, y = l.XM, l.YM+l.YS
for i in range(8):
s.rows.append(AC_RowStack(x, y, self))
x += l.XS
# default
l.defaultAll()
def startGame(self):
self._startDealNumRows(4)
self.s.talon.dealRow()
self.s.talon.dealRow()
self.s.talon.dealRow(rows=self.s.reserves)
self.s.talon.dealRow(rows=self.s.foundations)
def _shuffleHook(self, cards):
# move two Aces to bottom of the Talon (i.e. last cards to be dealt)
return self._shuffleHookMoveToBottom(
cards,
lambda c: (c.rank == ACE and c.suit in (0, 2), (c.suit)))
# ************************************************************************
# * Repair
# ************************************************************************
class Repair(FreeCell):
Solver_Class = FreeCellSolverWrapper(sm='unlimited')
RowStack_Class = AC_RowStack
def createGame(self):
FreeCell.createGame(self, rows=10, reserves=4, playcards=26)
def startGame(self):
self._startDealNumRows(9)
self.s.talon.dealRow()
self.s.talon.dealRow(rows=self.s.reserves)
# ************************************************************************
# * Four Colours
# * German FreeCell
# ************************************************************************
class FourColours_RowStack(AC_RowStack):
getBottomImage = Stack._getReserveBottomImage
class FourColours(FreeCell):
Solver_Class = None
RowStack_Class = AC_RowStack
def createGame(self):
# create layout
l, s = Layout(self), self.s
self.setSize(l.XM+9*l.XS, l.YM+2*l.YS+12*l.YOFFSET)
# create stacks
x, y = self.width-l.XS, self.height-l.YS
s.talon = InitialDealTalonStack(x, y, self)
x, y = l.XM, l.YM
for i in range(4):
s.reserves.append(ReserveStack(x, y, self, base_suit=i))
x += l.XS
x += l.XS
for i in range(4):
s.foundations.append(SS_FoundationStack(x, y, self, suit=i))
x += l.XS
x, y = l.XM, l.YM+l.YS
for i in range(7):
s.rows.append(FourColours_RowStack(x, y, self))
x += l.XS
# default
l.defaultAll()
def dealOne(self, frames):
suit = self.s.talon.cards[-1].suit
self.s.talon.dealRow(rows=[self.s.rows[suit]], frames=frames)
def startGame(self):
for i in range(40):
self.dealOne(frames=0)
self.startDealSample()
while self.s.talon.cards:
self.dealOne(frames=-1)
class GermanFreeCell_Reserve(ReserveStack):
getBottomImage = Stack._getSuitBottomImage
class GermanFreeCell(SevenByFour):
Solver_Class = None
RowStack_Class = AC_RowStack
ReserveStack_Class = GermanFreeCell_Reserve
def createGame(self):
FreeCell.createGame(self, rows=7)
suit = 0
for r in self.s.reserves:
r.cap.base_suit = suit
suit += 1
# ************************************************************************
# * Ocean Towers
# ************************************************************************
class OceanTowers(TripleFreecell):
Solver_Class = FreeCellSolverWrapper(esf='kings', sbb='suit')
RowStack_Class = StackWrapper(FreeCell_SS_RowStack, base_rank=KING)
def createGame(self):
TripleFreecell.createGame(self, rows=14, reserves=8, playcards=20)
def startGame(self):
self._startDealNumRows(6)
self.s.talon.dealRow()
self.s.talon.dealRow(rows=self.s.reserves[1:-1])
shallHighlightMatch = Game._shallHighlightMatch_SS
# ************************************************************************
# * KingCell
# ************************************************************************
class KingCell(FreeCell):
Solver_Class = FreeCellSolverWrapper(sbb='rank', esf='kings')
RowStack_Class = StackWrapper(SuperMoveRK_RowStack, base_rank=KING)
shallHighlightMatch = Game._shallHighlightMatch_RK
# ************************************************************************
# * Headquarters
# ************************************************************************
class Headquarters_Reserve(ReserveStack):
def acceptsCards(self, from_stack, cards):
if not ReserveStack.acceptsCards(self, from_stack, cards):
return False
return len(self.cards) == 0
class Headquarters(Game):
def createGame(self, rows=8, reserves=6):
l, s = Layout(self), self.s
w, h = l.XM+(rows+reserves+1)*l.XS, l.YM+3*l.YS+16*l.YOFFSET
self.setSize(w, h)
x, y = l.XM+(rows+reserves+1-8)*l.XS//2, l.YM
for i in range(8):
s.foundations.append(SS_FoundationStack(x, y, self, suit=i % 4))
x += l.XS
x, y = l.XM, l.YM+l.YS
for i in range(reserves):
stack = Headquarters_Reserve(x, y, self,
max_cards=UNLIMITED_CARDS,
max_accept=UNLIMITED_CARDS,
max_move=UNLIMITED_CARDS)
s.reserves.append(stack)
stack.CARD_YOFFSET = l.YOFFSET
x += l.XS
x, y = l.XM+(reserves+1)*l.XS, l.YM+l.YS
for j in range(rows):
s.rows.append(AC_RowStack(x, y, self, base_rank=NO_RANK))
x += l.XS
x, y = w-l.XS, h-l.YS
s.talon = InitialDealTalonStack(x, y, self)
l.defaultStackGroups()
def startGame(self):
self._startDealNumRowsAndDealSingleRow(12)
shallHighlightMatch = Game._shallHighlightMatch_AC
# ************************************************************************
# * Can Can
# ************************************************************************
class CanCan(FreeCell):
Hint_Class = DefaultHint
Solver_Class = None
RowStack_Class = KingAC_RowStack
ReserveStack_Class = StackWrapper(OpenStack, max_accept=0)
def createGame(self):
FreeCell.createGame(self, rows=13, reserves=3)
def startGame(self):
self._startDealNumRows(3)
self.s.talon.dealRow(rows=self.s.reserves)
self.s.talon.dealRowAvail()
# ************************************************************************
# * Limpopo
# ************************************************************************
class Limpopo(Game):
def createGame(self):
# create layout
l, s = Layout(self), self.s
# set window
self.setSize(l.XM+10.5*l.XS, l.YM+2*l.YS+20*l.YOFFSET)
# create stacks
x, y = l.XM, l.YM+l.YS//2
for i in (0, 1):
stack = ReserveStack(x, y, self, max_cards=4)
s.reserves.append(stack)
stack.CARD_YOFFSET = l.YOFFSET
l.createText(stack, 'n')
x += l.XS
x, y = l.XM+2.5*l.XS, l.YM
for i in range(8):
s.foundations.append(SS_FoundationStack(x, y, self, suit=i//2))
x += l.XS
x, y = l.XM+2.5*l.XS, l.YM+l.YS
for i in range(8):
s.rows.append(AC_RowStack(x, y, self))
x += l.XS
x, y = l.XM, self.height-l.YS
s.talon = InitialDealTalonStack(x, y, self)
# define stack-groups
l.defaultStackGroups()
def startGame(self):
self._startDealNumRowsAndDealSingleRow(12)
shallHighlightMatch = Game._shallHighlightMatch_AC
class PairFcFreeCell(FreeCell):
def createGame(self):
FreeCell.createGame(self, reserves=2)
class ZeroFcFreeCell(FreeCell):
def createGame(self):
FreeCell.createGame(self, reserves=0)
# register the game
registerGame(GameInfo(5, RelaxedFreeCell, "Relaxed FreeCell",
GI.GT_FREECELL | GI.GT_RELAXED | GI.GT_OPEN, 1, 0,
GI.SL_SKILL))
registerGame(GameInfo(8, FreeCell, "FreeCell",
GI.GT_FREECELL | GI.GT_OPEN, 1, 0, GI.SL_SKILL,
altnames=("Four Free")))
registerGame(GameInfo(1901, ZeroFcFreeCell, "FreeCell (No Reserve)",
GI.GT_FREECELL | GI.GT_OPEN, 1, 0, GI.SL_SKILL))
registerGame(GameInfo(1900, PairFcFreeCell, "FreeCell (2 Reserves)",
GI.GT_FREECELL | GI.GT_OPEN, 1, 0, GI.SL_SKILL))
registerGame(GameInfo(46, ForeCell, "ForeCell",
GI.GT_FREECELL | GI.GT_OPEN, 1, 0, GI.SL_MOSTLY_SKILL))
registerGame(GameInfo(77, Stalactites, "Stalactites",
GI.GT_FREECELL | GI.GT_OPEN, 1, 0, GI.SL_MOSTLY_SKILL,
altnames=("Grampus", "Old Mole")))
registerGame(GameInfo(264, DoubleFreecell, "Double FreeCell",
GI.GT_FREECELL | GI.GT_OPEN, 2, 0, GI.SL_MOSTLY_SKILL))
registerGame(GameInfo(265, TripleFreecell, "Triple FreeCell",
GI.GT_FREECELL | GI.GT_OPEN, 3, 0, GI.SL_MOSTLY_SKILL))
registerGame(GameInfo(336, ChallengeFreeCell, "Challenge FreeCell",
GI.GT_FREECELL | GI.GT_OPEN, 1, 0, GI.SL_SKILL))
registerGame(GameInfo(337, SuperChallengeFreeCell, "Super Challenge FreeCell",
GI.GT_FREECELL | GI.GT_OPEN, 1, 0, GI.SL_SKILL))
registerGame(GameInfo(363, Spidercells, "Spidercells",
GI.GT_SPIDER | GI.GT_OPEN, 1, 0, GI.SL_MOSTLY_SKILL))
registerGame(GameInfo(364, SevenByFour, "Seven by Four",
GI.GT_FREECELL | GI.GT_OPEN, 1, 0, GI.SL_SKILL))
registerGame(GameInfo(365, SevenByFive, "Seven by Five",
GI.GT_FREECELL | GI.GT_OPEN, 1, 0, GI.SL_SKILL))
registerGame(GameInfo(383, Bath, "Bath",
GI.GT_FREECELL | GI.GT_OPEN, 1, 0, GI.SL_SKILL))
registerGame(GameInfo(394, Clink, "Clink",
GI.GT_FREECELL | GI.GT_OPEN | GI.GT_ORIGINAL, 1, 0,
GI.SL_MOSTLY_SKILL))
registerGame(GameInfo(448, Repair, "Repair",
GI.GT_FREECELL | GI.GT_OPEN, 2, 0, GI.SL_MOSTLY_SKILL))
registerGame(GameInfo(451, Cell11, "Cell 11",
GI.GT_FREECELL | GI.GT_OPEN, 3, 0, GI.SL_MOSTLY_SKILL))
registerGame(GameInfo(464, FourColours, "Four Colours",
GI.GT_FREECELL | GI.GT_OPEN, 1, 0, GI.SL_MOSTLY_SKILL))
registerGame(GameInfo(509, BigCell, "Big Cell",
GI.GT_FREECELL | GI.GT_OPEN | GI.GT_ORIGINAL, 3, 0,
GI.SL_MOSTLY_SKILL))
registerGame(GameInfo(513, OceanTowers, "Double Seahaven Towers",
GI.GT_FREECELL | GI.GT_OPEN, 2, 0, GI.SL_MOSTLY_SKILL,
altnames=("Ocean Towers")))
registerGame(GameInfo(520, GermanFreeCell, "German FreeCell",
GI.GT_FREECELL | GI.GT_OPEN, 1, 0, GI.SL_SKILL))
registerGame(GameInfo(542, KingCell, "KingCell",
GI.GT_FREECELL | GI.GT_OPEN, 1, 0, GI.SL_MOSTLY_SKILL))
registerGame(GameInfo(648, Headquarters, "Headquarters",
GI.GT_FREECELL | GI.GT_OPEN | GI.GT_ORIGINAL, 2, 0,
GI.SL_MOSTLY_SKILL))
registerGame(GameInfo(698, CanCan, "Can Can",
GI.GT_RAGLAN | GI.GT_OPEN, 1, 0, GI.SL_MOSTLY_SKILL))
registerGame(GameInfo(746, Limpopo, "Limpopo",
GI.GT_FREECELL | GI.GT_OPEN | GI.GT_ORIGINAL, 2, 0,
GI.SL_MOSTLY_SKILL))
registerGame(GameInfo(813, DoubleFreecellTd, "Double FreeCell (Traditional)",
GI.GT_FREECELL | GI.GT_OPEN, 2, 0, GI.SL_MOSTLY_SKILL))
registerGame(GameInfo(953, Petal, "Petal",
GI.GT_FREECELL | GI.GT_OPEN, 1, 0, GI.SL_MOSTLY_SKILL))
registerGame(GameInfo(960, Obstruction, "Obstruction",
GI.GT_FREECELL | GI.GT_OPEN | GI.GT_ORIGINAL, 1, 0,
GI.SL_MOSTLY_SKILL,
subcategory=GI.GS_JOKER_DECK, trumps=list(range(2))))