#!/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/>.
#
# ---------------------------------------------------------------------------##
__all__ = []
# Imports
import math
# PySol imports
from pysollib.mygettext import _
from pysollib.gamedb import registerGame, GameInfo, GI
from pysollib.mfxutil import kwdefault
from pysollib.game import Game
from pysollib.layout import Layout
from pysollib.hint import AbstractHint, DefaultHint
from pysollib.pysoltk import MfxCanvasText
from pysollib.util import ANY_RANK, ANY_SUIT, NO_RANK, UNLIMITED_ACCEPTS, \
UNLIMITED_CARDS, UNLIMITED_MOVES
from pysollib.stack import \
AC_RowStack, \
AbstractFoundationStack, \
BasicRowStack, \
DealRowTalonStack, \
InitialDealTalonStack, \
RK_RowStack, \
ReserveStack, \
SS_FoundationStack, \
SS_RowStack, \
StackWrapper, \
WasteStack, \
WasteTalonStack, \
isSameSuitSequence, \
OpenStack
# ************************************************************************
# * Mughal Foundation Stacks
# ***********************************************************************/
class Mughal_FoundationStack(AbstractFoundationStack):
def __init__(self, x, y, game, suit, **cap):
kwdefault(cap, max_move=0)
SS_FoundationStack.__init__(self, x, y, game, suit, **cap)
def updateText(self):
AbstractFoundationStack.updateText(self)
self.game.updateText()
class Triumph_Foundation(AbstractFoundationStack):
def __init__(self, x, y, game, suit, **cap):
kwdefault(cap, mod=12, dir=0, base_rank=NO_RANK, max_move=0)
AbstractFoundationStack.__init__(self, x, y, game, suit, **cap)
def acceptsCards(self, from_stack, cards):
if not AbstractFoundationStack.acceptsCards(self, from_stack, cards):
return 0
if not self.cards:
return 1
stack_dir = self.game.getFoundationDir()
if stack_dir == 0:
card_dir = (cards[0].rank - self.cards[-1].rank) % self.cap.mod
return card_dir in (1, 11)
else:
return (self.cards[-1].rank + stack_dir) % self.cap.mod \
== cards[0].rank
# ************************************************************************
# * Mughal Row Stacks
# ***********************************************************************/
class Mughal_OpenStack(OpenStack):
def __init__(self, x, y, game, yoffset, **cap):
kwdefault(cap, max_move=UNLIMITED_MOVES, max_cards=UNLIMITED_CARDS,
max_accept=UNLIMITED_ACCEPTS, base_rank=0, dir=-1)
OpenStack.__init__(self, x, y, game, **cap)
self.CARD_YOFFSET = yoffset
def isRankSequence(self, cards, dir=None):
if not dir:
dir = self.cap.dir
c1 = cards[0]
for c2 in cards[1:]:
if not c1.rank + dir == c2.rank:
return 0
c1 = c2
return 1
def isAlternateColorSequence(self, cards, dir=None):
if not dir:
dir = self.cap.dir
c1 = cards[0]
for c2 in cards[1:]:
if not ((c1.suit + c2.suit) % 2
and c1.rank + dir == c2.rank):
return 0
c1 = c2
return 1
def isAlternateForceSequence(self, cards, dir=None):
if not dir:
dir = self.cap.dir
c1 = cards[0]
for c2 in cards[1:]:
if not ((c1.suit < 4 and c2.suit > 3
or c1.suit > 3 and c2.suit < 4)
and c1.rank + dir == c2.rank):
return 0
c1 = c2
return 1
def isSuitSequence(self, cards, dir=None):
if not dir:
dir = self.cap.dir
c1 = cards[0]
for c2 in cards[1:]:
if not (c1.suit == c2.suit
and c1.rank + dir == c2.rank):
return 0
c1 = c2
return 1
class Mughal_AC_RowStack(Mughal_OpenStack):
def acceptsCards(self, from_stack, cards):
if (not self.basicAcceptsCards(from_stack, cards)
or not self.isAlternateColorSequence(cards)):
return 0
stackcards = self.cards
if not len(stackcards):
return cards[0].rank == 11 or self.cap.base_rank == ANY_RANK
return self.isAlternateColorSequence([stackcards[-1], cards[0]])
class Mughal_AF_RowStack(Mughal_OpenStack):
def acceptsCards(self, from_stack, cards):
if (not self.basicAcceptsCards(from_stack, cards)
or not self.isAlternateForceSequence(cards)):
return 0
stackcards = self.cards
if not len(stackcards):
return cards[0].rank == 11 or self.cap.base_rank == ANY_RANK
return self.isAlternateForceSequence([stackcards[-1], cards[0]])
class Mughal_RK_RowStack(Mughal_OpenStack):
def acceptsCards(self, from_stack, cards):
if (not self.basicAcceptsCards(from_stack, cards)
or not self.isRankSequence(cards)):
return 0
stackcards = self.cards
if not len(stackcards):
return cards[0].rank == 11 or self.cap.base_rank == ANY_RANK
return self.isRankSequence([stackcards[-1], cards[0]])
class Mughal_SS_RowStack(Mughal_OpenStack):
def acceptsCards(self, from_stack, cards):
if (not self.basicAcceptsCards(from_stack, cards)
or not self.isSuitSequence(cards)):
return 0
stackcards = self.cards
if not len(stackcards):
return cards[0].rank == 11 or self.cap.base_rank == ANY_RANK
return self.isSuitSequence([stackcards[-1], cards[0]])
class Circles_RowStack(SS_RowStack):
def __init__(self, x, y, game, base_rank, yoffset):
SS_RowStack.__init__(
self, x, y, game, base_rank=base_rank,
max_accept=1, max_move=1)
self.CARD_YOFFSET = 1
class Triumph_BraidStack(OpenStack):
def __init__(self, x, y, game, xoffset, yoffset):
OpenStack.__init__(self, x, y, game)
self.CARD_YOFFSET = int(self.game.app.images.CARD_YOFFSET * yoffset)
# use a sine wave for the x offsets
self.CARD_XOFFSET = []
j = 1
for i in range(30):
self.CARD_XOFFSET.append(int(math.cos(j) * xoffset))
j = j + .9
class Triumph_StrongStack(ReserveStack):
def fillStack(self):
if not self.cards:
if self.game.s.braidstrong.cards:
self.game.moveMove(1, self.game.s.braidstrong, self)
elif self.game.s.braidweak.cards:
self.game.moveMove(1, self.game.s.braidweak, self)
def getBottomImage(self):
return self.game.app.images.getBraidBottom()
class Triumph_WeakStack(ReserveStack):
def fillStack(self):
if not self.cards:
if self.game.s.braidweak.cards:
self.game.moveMove(1, self.game.s.braidweak, self)
elif self.game.s.braidstrong.cards:
self.game.moveMove(1, self.game.s.braidstrong, self)
def getBottomImage(self):
return self.game.app.images.getBraidBottom()
class Triumph_ReserveStack(ReserveStack):
def acceptsCards(self, from_stack, cards):
if (from_stack is self.game.s.braidstrong or
from_stack is self.game.s.braidweak or
from_stack in self.game.s.rows):
return 0
return ReserveStack.acceptsCards(self, from_stack, cards)
def getBottomImage(self):
return self.game.app.images.getTalonBottom()
# ************************************************************************
# *
# ***********************************************************************/
class AbstractMughalGame(Game):
SUITS = (_("Crown"), _("Silver"), _("Saber"), _("Servant"),
_("Harp"), _("Gold"), _("Document"), _("Stores"))
RANKS = (_("Ace"), "2", "3", "4", "5", "6", "7", "8", "9", "10",
_("Pradhan"), _("Raja"))
COLORS = (_("Brown"), _("Black"), _("Red"), _("Yellow"),
_("Green"), _("Grey"), _("Orange"), _("Tan"))
FORCE = (_("Strong"), _("Weak"))
def updateText(self):
pass
def shallHighlightMatch(self, stack1, card1, stack2, card2):
return (card1.rank + 1 == card2.rank
or card2.rank + 1 == card1.rank)
class Triumph_Hint(DefaultHint):
# FIXME: demo is not too clever in this game
pass
# ************************************************************************
# * Mughal Circles
# ***********************************************************************/
class MughalCircles(AbstractMughalGame):
#
# Game layout
#
def createGame(self):
l, s = Layout(self), self.s
# Set window size
w, h = l.XM + l.XS * 9, l.YM + l.YS * 7
self.setSize(w, h)
# Create row stacks
x = w / 2 - l.CW / 2
y = h / 2 - l.YS / 2
x0 = (-1, -.8, 0, .8, 1, .8, 0, -.8,
-2, -1.9, -1.5, -.8, 0, .8, 1.5, 1.9, 2, 1.9, 1.5, .8,
0, -.8, -1.5, -1.9)
y0 = (0, -.8, -1, -.8, 0, .8, 1, .8,
0, -.8, -1.5, -1.9, -2, -1.9, -1.5, -.8,
0, .8, 1.5, 1.9, 2, 1.9, 1.5, .8)
for i in range(24):
# FIXME:
_x, _y = x+l.XS*x0[i]+l.XM*x0[i]*2, y+l.YS*y0[i]+l.YM*y0[i]*2
if _x < 0:
_x = 0
if _y < 0:
_y = 0
s.rows.append(
Circles_RowStack(_x, _y, self, base_rank=ANY_RANK, yoffset=0))
# Create reserve stacks
s.reserves.append(ReserveStack(l.XM, h - l.YS, self))
s.reserves.append(ReserveStack(w - l.XS, h - l.YS, self))
# Create foundations
x = l.XM
y = l.YM
for i in range(4):
s.foundations.append(
SS_FoundationStack(
x, y, self, i, mod=12,
max_move=0, max_cards=12))
y = y + l.YS
x = self.width - l.XS
y = l.YM
for i in range(4):
s.foundations.append(
SS_FoundationStack(
x, y, self, i + 4, mod=12,
max_move=0, max_cards=12))
y = y + l.YS
# FIXME:
_x1, _x2 = l.XM + l.XS, w - l.XS - l.XM
for i in s.rows:
if i.x < _x1:
i.x = _x1
elif i.x > _x2:
i.x = _x2
self.setRegion(s.rows, (_x1, 0, _x2, 999999))
# Create talon
s.talon = InitialDealTalonStack(l.XM + l.XS, l.YM, self)
# Define stack groups
l.defaultStackGroups()
#
# Game over rides
#
def startGame(self):
assert len(self.s.talon.cards) == 96
for i in range(3):
self.s.talon.dealRow(frames=0)
self.startDealSample()
self.s.talon.dealRow()
self.s.talon.dealCards()
def shallHighlightMatch(self, stack1, card1, stack2, card2):
return ((card1.suit == card2.suit)
and ((card1.rank + 1 == card2.rank)
or (card1.rank - 1 == card2.rank)))
# ************************************************************************
# * Eight Legions
# ***********************************************************************/
class EightLegions(AbstractMughalGame):
#
# Game layout
#
def createGame(self):
l, s = Layout(self), self.s
# Set window size
self.setSize(l.XM * 3 + l.XS * 9, l.YM + l.YS * 6)
# Create row stacks
x = l.XM
y = l.YM
for i in range(8):
s.rows.append(RK_RowStack(x, y, self, base_rank=11,
max_move=12, max_cards=99))
x = x + l.XS
# Create reserve stacks
x = self.width - l.XS
y = l.YM
for i in range(6):
s.reserves.append(ReserveStack(x, y, self))
y = y + l.YS
y = y - l.YS
for i in range(4):
x = x - l.XS
s.reserves.append(ReserveStack(x, y, self))
self.setRegion(s.rows, (0, 0, l.XM + l.XS * 8, l.YS * 5))
# Create talon
s.talon = DealRowTalonStack(l.XM, self.height - l.YS, self)
l.createText(s.talon, "n")
# Define stack groups
l.defaultStackGroups()
#
# Game over rides
#
def startGame(self):
assert len(self.s.talon.cards) == 96
for i in range(4):
self.s.talon.dealRow(frames=0)
self.startDealSample()
self.s.talon.dealCards()
def isGameWon(self):
if len(self.s.talon.cards):
return 0
for s in self.s.rows:
if len(s.cards) != 12 or not isSameSuitSequence(s.cards):
return 0
return 1
# ************************************************************************
# * Shamsher
# ***********************************************************************/
class Shamsher(AbstractMughalGame):
Layout_Method = staticmethod(Layout.ghulamLayout)
Talon_Class = InitialDealTalonStack
Foundation_Class = SS_FoundationStack
RowStack_Class = RK_RowStack
BASE_RANK = ANY_RANK
#
# Game layout
#
def createGame(self, **layout):
l, s = Layout(self), self.s
kwdefault(layout, rows=14, reserves=4, texts=0)
self.Layout_Method(l, **layout)
self.setSize(l.size[0], l.size[1])
# Create foundations
for r in l.s.foundations:
s.foundations.append(
self.Foundation_Class(
r.x, r.y, self,
r.suit, mod=12, max_cards=12))
# Create reserve stacks
for r in l.s.reserves:
s.reserves.append(ReserveStack(r.x, r.y, self, ))
# Create row stacks
for r in l.s.rows:
s.rows.append(
self.RowStack_Class(
r.x, r.y, self, max_cards=12,
suit=ANY_SUIT, base_rank=self.BASE_RANK))
# Create talon
s.talon = self.Talon_Class(l.s.talon.x, l.s.talon.y, self)
# Define stack groups
l.defaultAll()
#
# Game over rides
#
def startGame(self):
assert len(self.s.talon.cards) == 96
for i in range(6):
self.s.talon.dealRow(frames=0)
self.startDealSample()
self.s.talon.dealRow(rows=self.s.rows[:12])
self.s.talon.dealCards()
# ************************************************************************
# * Ashrafi
# ***********************************************************************/
class Ashrafi(Shamsher):
Layout_Method = staticmethod(Layout.ghulamLayout)
Talon_Class = InitialDealTalonStack
Foundation_Class = SS_FoundationStack
RowStack_Class = RK_RowStack
BASE_RANK = 11
#
# Game layout
#
def createGame(self, **layout):
Shamsher.createGame(self)
# ************************************************************************
# * Ghulam
# ***********************************************************************/
class Ghulam(Shamsher):
Layout_Method = staticmethod(Layout.ghulamLayout)
Talon_Class = InitialDealTalonStack
Foundation_Class = SS_FoundationStack
RowStack_Class = SS_RowStack
BASE_RANK = ANY_RANK
#
# Game layout
#
def createGame(self, **layout):
Shamsher.createGame(self)
def shallHighlightMatch(self, stack1, card1, stack2, card2):
return ((card1.suit == card2.suit)
and ((card1.rank + 1 == card2.rank)
or (card1.rank - 1 == card2.rank)))
# ************************************************************************
# * Tipati
# ***********************************************************************/
class Tipati(AbstractMughalGame):
Layout_Method = staticmethod(Layout.klondikeLayout)
Talon_Class = WasteTalonStack
Foundation_Class = SS_FoundationStack
RowStack_Class = RK_RowStack
BASE_RANK = 11
MAX_MOVE = 0
#
# Game layout
#
def createGame(self, max_rounds=1, num_deal=1, **layout):
l, s = Layout(self), self.s
kwdefault(layout, rows=8, waste=1)
self.Layout_Method(l, **layout)
self.setSize(l.size[0], l.size[1])
# Create talon
s.talon = self.Talon_Class(
l.s.talon.x, l.s.talon.y, self,
max_rounds=max_rounds, num_deal=num_deal)
s.waste = WasteStack(l.s.waste.x, l.s.waste.y, self)
# Create foundations
for r in l.s.foundations:
s.foundations.append(
self.Foundation_Class(
r.x, r.y, self,
r.suit, mod=12, max_cards=12, max_move=self.MAX_MOVE))
# Create row stacks
for r in l.s.rows:
s.rows.append(
self.RowStack_Class(
r.x, r.y, self,
suit=ANY_SUIT, base_rank=self.BASE_RANK))
# Define stack groups
l.defaultAll()
#
# Game over rides
#
def startGame(self):
assert len(self.s.talon.cards) == 96
for i in range(8):
self.s.talon.dealRow(rows=self.s.rows[i+1:], flip=0, frames=0)
self.startDealSample()
self.s.talon.dealRow()
self.s.talon.dealCards()
# ************************************************************************
# * Ashwapati
# ***********************************************************************/
class Ashwapati(Tipati):
RowStack_Class = SS_RowStack
BASE_RANK = ANY_RANK
MAX_MOVE = 1
#
# Game layout
#
def createGame(self, **layout):
Tipati.createGame(self, max_rounds=-1, num_deal=1)
def shallHighlightMatch(self, stack1, card1, stack2, card2):
return ((card1.suit == card2.suit)
and ((card1.rank + 1 == card2.rank)
or (card1.rank - 1 == card2.rank)))
# ************************************************************************
# * Gajapati
# ***********************************************************************/
class Gajapati(Tipati):
RowStack_Class = SS_RowStack
BASE_RANK = ANY_RANK
MAX_MOVE = 1
#
# Game layout
#
def createGame(self, **layout):
Tipati.createGame(self, max_rounds=-1, num_deal=3)
def shallHighlightMatch(self, stack1, card1, stack2, card2):
return ((card1.suit == card2.suit)
and ((card1.rank + 1 == card2.rank)
or (card1.rank - 1 == card2.rank)))
# ************************************************************************
# * Narpati
# ***********************************************************************/
class Narpati(Tipati):
RowStack_Class = AC_RowStack
MAX_MOVE = 1
#
# Game layout
#
def createGame(self, **layout):
Tipati.createGame(self, max_rounds=1, num_deal=1)
# ************************************************************************
# * Garhpati
# ***********************************************************************/
class Garhpati(Tipati):
RowStack_Class = AC_RowStack
#
# Game layout
#
def createGame(self, **layout):
Tipati.createGame(self, max_rounds=-1, num_deal=3)
# ************************************************************************
# * Dhanpati
# ***********************************************************************/
class Dhanpati(Tipati):
#
# Game layout
#
def createGame(self, **layout):
Tipati.createGame(self, max_rounds=2, num_deal=3)
# ************************************************************************
# * Akbar's Triumph
# ************************************************************************
class AkbarsTriumph(AbstractMughalGame):
Hint_Class = Triumph_Hint
BRAID_CARDS = 12
BRAID_OFFSET = 1.1
#
# game layout
#
def createGame(self):
# create layout
l, s = Layout(self), self.s
# set window
# (piles up to 20 cards are playable - needed for Braid_BraidStack)
decks = self.gameinfo.decks
h = max(5 * l.YS + 35, l.YS + (self.BRAID_CARDS - 1) * l.YOFFSET)
self.setSize(l.XM + l.XS * (7 + decks * 2), l.YM + h)
# extra settings
self.base_card = None
# Create foundations, rows, reserves
s.addattr(braidstrong=None) # register extra stack variable
s.addattr(braidweak=None) # register extra stack variable
x, y = l.XM, l.YM
for j in range(4):
for i in range(decks):
s.foundations.append(
Triumph_Foundation(
x + l.XS * i, y, self,
j, mod=12, max_cards=12))
s.rows.append(Triumph_StrongStack(x + l.XS * decks, y, self))
s.rows.append(Triumph_ReserveStack(
x + l.XS * (1 + decks), y, self))
y = y + l.YS
x, y = x + l.XS * (5 + decks), l.YM
for j in range(4):
s.rows.append(Triumph_ReserveStack(x, y, self))
s.rows.append(Triumph_WeakStack(x + l.XS, y, self))
for i in range(decks, 0, -1):
s.foundations.append(Triumph_Foundation(
x + l.XS * (1 + i), y, self,
j + 4, mod=12, max_cards=12))
y = y + l.YS
self.texts.info = MfxCanvasText(
self.canvas,
self.width / 2, h - l.YM / 2,
anchor="center",
font=self.app.getFont("canvas_default"))
# Create braids
x, y = l.XM + l.XS * 2.3 + l.XS * decks, l.YM
s.braidstrong = Triumph_BraidStack(
x, y, self, xoffset=12, yoffset=self.BRAID_OFFSET)
x += l.XS * 1.4
s.braidweak = Triumph_BraidStack(
x, y, self, xoffset=-12, yoffset=self.BRAID_OFFSET)
# Create talon
x, y = l.XM + l.XS * 2 + l.XS * decks, h - l.YS - l.YM
s.talon = WasteTalonStack(x, y, self, max_rounds=3)
l.createText(s.talon, "s")
s.talon.texts.rounds = MfxCanvasText(
self.canvas,
self.width / 2, h - l.YM * 2.5,
anchor="center",
font=self.app.getFont("canvas_default"))
x += l.XS * 2
s.waste = WasteStack(x, y, self)
l.createText(s.waste, "s")
# define stack-groups
self.sg.talonstacks = [s.talon] + [s.waste]
self.sg.openstacks = s.foundations + s.rows
self.sg.dropstacks = [s.braidstrong] + [s.braidweak] + s.rows \
+ [s.waste]
#
# game overrides
#
def startGame(self):
self.startDealSample()
self.base_card = None
self.updateText()
for i in range(self.BRAID_CARDS):
self.s.talon.dealRow(rows=[self.s.braidstrong])
for i in range(self.BRAID_CARDS):
self.s.talon.dealRow(rows=[self.s.braidweak])
self.s.talon.dealRow()
# deal base_card to foundations, update cap.base_rank
self.base_card = self.s.talon.getCard()
to_stack = self.s.foundations[
self.base_card.suit * self.gameinfo.decks]
self.flipMove(self.s.talon)
self.moveMove(1, self.s.talon, to_stack)
self.updateText()
for s in self.s.foundations:
s.cap.base_rank = self.base_card.rank
# deal first card to WasteStack
self.s.talon.dealCards()
def shallHighlightMatch(self, stack1, card1, stack2, card2):
return (card1.suit == card2.suit and
((card1.rank + 1) % 12 == card2.rank or
(card2.rank + 1) % 12 == card1.rank))
def getHighlightPilesStacks(self):
return ()
def _restoreGameHook(self, game):
self.base_card = self.cards[game.loadinfo.base_card_id]
for s in self.s.foundations:
s.cap.base_rank = self.base_card.rank
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)
#
# game extras
#
def updateText(self):
if self.preview > 1 or not self.texts.info:
return
if not self.base_card:
t = ""
else:
t = self.RANKS[self.base_card.rank]
dir = self.getFoundationDir() % 12
if dir == 1:
t = t + _(" Ascending")
elif dir == 11:
t = t + _(" Descending")
self.texts.info.config(text=t)
# ************************************************************************
# * Akbar's Conquest
# ************************************************************************
class AkbarsConquest(AkbarsTriumph):
BRAID_CARDS = 16
BRAID_OFFSET = .9
# ************************************************************************
# *
# ************************************************************************
class Vajra(AbstractMughalGame):
RowStack_Class = StackWrapper(Mughal_RK_RowStack, base_rank=NO_RANK)
#
# game layout
#
def createGame(self, rows=9, reserves=8):
# create layout
l, s = Layout(self), self.s
# set size
maxrows = max(rows, reserves)
self.setSize(l.XM + (maxrows + 2) * l.XS, l.YM + 6 * l.YS)
#
playcards = 4 * l.YS / l.YOFFSET
xoffset, yoffset = [], []
for i in range(playcards):
xoffset.append(0)
yoffset.append(l.YOFFSET)
for i in range(96 * self.gameinfo.decks - playcards):
xoffset.append(l.XOFFSET)
yoffset.append(0)
# create stacks
x, y = l.XM + (maxrows - reserves) * l.XS / 2, l.YM
for i in range(reserves):
s.reserves.append(ReserveStack(x, y, self))
x = x + l.XS
x, y = l.XM + (maxrows - rows) * l.XS / 2, l.YM + l.YS
self.setRegion(s.reserves, (-999, -999, 999999, y - l.YM / 2))
for i in range(rows):
stack = self.RowStack_Class(x, y, self, yoffset=l.YOFFSET)
stack.CARD_XOFFSET = xoffset
stack.CARD_YOFFSET = yoffset
s.rows.append(stack)
x = x + l.XS
x, y = l.XM + maxrows * l.XS, l.YM
for i in range(2):
for suit in range(4):
s.foundations.append(
SS_FoundationStack(x, y, self, suit=suit+(4 * i)))
y = y + l.YS
x, y = x + l.XS, l.YM
self.setRegion(self.s.foundations, (x - l.XS * 2, -999, 999999,
self.height - (l.YS + l.YM)), priority=1)
s.talon = InitialDealTalonStack(
self.width - 3 * l.XS / 2, self.height - l.YS, self)
# define stack-groups
l.defaultStackGroups()
#
# game overrides
#
def startGame(self):
self.startDealSample()
i = 0
while self.s.talon.cards:
if self.s.talon.cards[-1].rank == 11:
if self.s.rows[i].cards:
i = i + 1
self.s.talon.dealRow(rows=[self.s.rows[i]], frames=4)
# must look at cards
def _getClosestStack(self, cx, cy, stacks, dragstack):
closest, cdist = None, 999999999
for stack in stacks:
if stack.cards and stack is not dragstack:
dist = (stack.cards[-1].x - cx)**2 + \
(stack.cards[-1].y - cy)**2
else:
dist = (stack.x - cx)**2 + (stack.y - cy)**2
if dist < cdist:
closest, cdist = stack, dist
return closest
def shallHighlightMatch(self, stack1, card1, stack2, card2):
row = self.s.rows[0]
sequence = row.isRankSequence
return (sequence([card1, card2]) or sequence([card2, card1]))
# ************************************************************************
# *
# ************************************************************************
class Danda(Vajra):
RowStack_Class = StackWrapper(Mughal_AF_RowStack, base_rank=NO_RANK)
def shallHighlightMatch(self, stack1, card1, stack2, card2):
row = self.s.rows[0]
sequence = row.isAlternateForceSequence
return (sequence([card1, card2]) or sequence([card2, card1]))
# ************************************************************************
# *
# ************************************************************************
class Khadga(Vajra):
RowStack_Class = StackWrapper(Mughal_AC_RowStack, base_rank=NO_RANK)
def shallHighlightMatch(self, stack1, card1, stack2, card2):
row = self.s.rows[0]
sequence = row.isAlternateColorSequence
return (sequence([card1, card2]) or sequence([card2, card1]))
# ************************************************************************
# *
# ************************************************************************
class Makara(Vajra):
RowStack_Class = StackWrapper(Mughal_SS_RowStack, base_rank=NO_RANK)
def shallHighlightMatch(self, stack1, card1, stack2, card2):
row = self.s.rows[0]
sequence = row.isSuitSequence
return (sequence([card1, card2]) or sequence([card2, card1]))
# ************************************************************************
# * Ashta Dikapala Game Stacks
# ************************************************************************
class Dikapala_TableauStack(Mughal_OpenStack):
def __init__(self, x, y, game, base_rank, yoffset, **cap):
kwdefault(cap, dir=3, max_move=99, max_cards=4, max_accept=1,
base_rank=base_rank)
OpenStack.__init__(self, x, y, game, **cap)
self.CARD_YOFFSET = yoffset
def acceptsCards(self, from_stack, cards):
if not self.basicAcceptsCards(from_stack, cards):
return 0
# check that the base card is correct
if self.cards and self.cards[0].rank != self.cap.base_rank:
return 0
if not self.cards:
return cards[0].rank == self.cap.base_rank
return (self.cards[-1].suit == cards[0].suit and
self.cards[-1].rank + self.cap.dir == cards[0].rank)
def getBottomImage(self):
return self.game.app.images.getLetter(self.cap.base_rank)
class Dikapala_ReserveStack(ReserveStack):
def __init__(self, x, y, game, **cap):
kwdefault(cap, max_cards=1, max_accept=1, base_rank=ANY_RANK)
OpenStack.__init__(self, x, y, game, **cap)
def acceptsCards(self, from_stack, cards):
return (ReserveStack.acceptsCards(self, from_stack, cards)
and self.game.s.talon.cards)
class Dikapala_RowStack(BasicRowStack):
def acceptsCards(self, from_stack, cards):
if not BasicRowStack.acceptsCards(self, from_stack, cards):
return 0
# check
return not (self.cards or self.game.s.talon.cards)
def canMoveCards(self, cards):
return 1
def getBottomImage(self):
return self.game.app.images.getTalonBottom()
# ************************************************************************
# * Dikapala Hint
# ************************************************************************
class Dikapala_Hint(AbstractHint):
def computeHints(self):
game = self.game
# 2)See if we can move a card to the tableaux
if not self.hints:
for r in game.sg.dropstacks:
pile = r.getPile()
if not pile or len(pile) != 1:
continue
if r in game.s.tableaux:
rr = self.ClonedStack(r, stackcards=r.cards[:-1])
if rr.acceptsCards(None, pile):
# do not move a card that is already in correct place
continue
base_score = 80000 + (4 - r.cap.base_suit)
else:
base_score = 80000
# find a stack that would accept this card
for t in game.s.tableaux:
if t is not r and t.acceptsCards(r, pile):
score = base_score + 100 * (self.K - pile[0].rank)
self.addHint(score, 1, r, t)
break
# 3)See if we can move a card from the tableaux
# to a row stack. This can only happen if there are
# no more cards to deal.
if not self.hints:
for r in game.s.tableaux:
pile = r.getPile()
if not pile or len(pile) != 1:
continue
rr = self.ClonedStack(r, stackcards=r.cards[:-1])
if rr.acceptsCards(None, pile):
# do not move a card that is already in correct place
continue
# find a stack that would accept this card
for t in game.s.rows:
if t is not r and t.acceptsCards(r, pile):
score = 70000 + 100 * (self.K - pile[0].rank)
self.addHint(score, 1, r, t)
break
# 4)See if we can move a card within the row stacks
if not self.hints:
for r in game.s.rows:
pile = r.getPile()
if not pile or len(pile) != 1 or len(pile) == len(r.cards):
continue
base_score = 60000
# find a stack that would accept this card
for t in game.s.rows:
if t is not r and t.acceptsCards(r, pile):
score = base_score + 100 * (self.K - pile[0].rank)
self.addHint(score, 1, r, t)
break
# 5)See if we can deal cards
if self.level >= 2:
if game.canDealCards():
self.addHint(self.SCORE_DEAL, 0, game.s.talon, None)
# ************************************************************************
# * Ashta Dikapala
# ************************************************************************
class AshtaDikapala(Game):
Hint_Class = Dikapala_Hint
#
# game layout
#
def createGame(self):
# create layout
l, s = Layout(self), self.s
TABLEAU_YOFFSET = min(9, max(3, l.YOFFSET / 3))
# set window
th = l.YS + 3 * TABLEAU_YOFFSET
# (set piles so that at least 2/3 of a card is visible with 10 cards)
h = 8 * l.YOFFSET + l.CH * 2/3
self.setSize(9 * l.XS + l.XM * 2, l.YM + 3 * th + l.YM + h)
# create stacks
s.addattr(tableaux=[]) # register extra stack variable
x = l.XM + 8 * l.XS + l.XS / 2
y = l.YM
for i in range(3, 0, -1):
x = l.XM
for j in range(8):
s.tableaux.append(
Dikapala_TableauStack(
x, y, self, i - 1, TABLEAU_YOFFSET))
x = x + l.XS
x = x + l.XM
s.reserves.append(Dikapala_ReserveStack(x, y, self))
y = y + th
x, y = l.XM, y + l.YM
for i in range(8):
s.rows.append(Dikapala_RowStack(x, y, self, max_accept=1))
x = x + l.XS
x = self.width - l.XS
y = self.height - l.YS
s.talon = DealRowTalonStack(x, y, self)
l.createText(s.talon, "sw")
# define stack-groups
self.sg.openstacks = s.tableaux + s.rows + s.reserves
self.sg.talonstacks = [s.talon]
self.sg.dropstacks = s.tableaux + s.rows
#
# game overrides
#
def startGame(self):
self.s.talon.dealRow(rows=self.s.tableaux, frames=0)
self.startDealSample()
self.s.talon.dealRow()
def isGameWon(self):
for stack in self.s.tableaux:
if len(stack.cards) != 4:
return 0
return 1
def fillStack(self, stack):
if self.s.talon.cards:
if stack in self.s.rows and len(stack.cards) == 0:
self.s.talon.dealRow(rows=[stack])
def shallHighlightMatch(self, stack1, card1, stack2, card2):
return (card1.suit == card2.suit and
(card1.rank + 3 == card2.rank or card2.rank + 3 == card1.rank))
def getHighlightPilesStacks(self):
return ()
# ************************************************************************
# *
# ************************************************************************
def r(id, gameclass, name, game_type, decks, redeals, skill_level):
game_type = game_type | GI.GT_MUGHAL_GANJIFA
gi = GameInfo(id, gameclass, name, game_type, decks, redeals, skill_level,
suits=list(range(8)), ranks=list(range(12)))
registerGame(gi)
return gi
r(14401, MughalCircles, 'Mughal Circles', GI.GT_MUGHAL_GANJIFA, 1, 0,
GI.SL_MOSTLY_SKILL)
r(14402, Ghulam, 'Ghulam', GI.GT_MUGHAL_GANJIFA, 1, 0, GI.SL_MOSTLY_SKILL)
r(14403, Shamsher, 'Shamsher', GI.GT_MUGHAL_GANJIFA, 1, 0, GI.SL_MOSTLY_SKILL)
r(14404, EightLegions, 'Eight Legions', GI.GT_MUGHAL_GANJIFA, 1, 0,
GI.SL_MOSTLY_SKILL)
r(14405, Ashrafi, 'Ashrafi', GI.GT_MUGHAL_GANJIFA, 1, 0, GI.SL_MOSTLY_SKILL)
r(14406, Tipati, 'Tipati', GI.GT_MUGHAL_GANJIFA, 1, 0, GI.SL_BALANCED)
r(14407, Ashwapati, 'Ashwapati', GI.GT_MUGHAL_GANJIFA, 1, -1, GI.SL_BALANCED)
r(14408, Gajapati, 'Gajapati', GI.GT_MUGHAL_GANJIFA, 1, -1, GI.SL_BALANCED)
r(14409, Narpati, 'Narpati', GI.GT_MUGHAL_GANJIFA, 1, 0, GI.SL_BALANCED)
r(14410, Garhpati, 'Garhpati', GI.GT_MUGHAL_GANJIFA, 1, -1, GI.SL_BALANCED)
r(14411, Dhanpati, 'Dhanpati', GI.GT_MUGHAL_GANJIFA, 1, 1, GI.SL_BALANCED)
r(14412, AkbarsTriumph, 'Akbar\'s Triumph', GI.GT_MUGHAL_GANJIFA, 1, 2,
GI.SL_BALANCED)
r(14413, AkbarsConquest, 'Akbar\'s Conquest', GI.GT_MUGHAL_GANJIFA, 2, 2,
GI.SL_BALANCED)
r(16000, Vajra, 'Vajra', GI.GT_MUGHAL_GANJIFA, 1, 0, GI.SL_MOSTLY_SKILL)
r(16001, Danda, 'Danda', GI.GT_MUGHAL_GANJIFA, 1, 0, GI.SL_MOSTLY_SKILL)
r(16002, Khadga, 'Khadga', GI.GT_MUGHAL_GANJIFA, 1, 0, GI.SL_MOSTLY_SKILL)
r(16003, Makara, 'Makara', GI.GT_MUGHAL_GANJIFA, 1, 0, GI.SL_MOSTLY_SKILL)
r(16004, AshtaDikapala, 'Ashta Dikapala', GI.GT_MUGHAL_GANJIFA, 1, 0,
GI.SL_BALANCED)
del r