#!/usr/bin/env python
# -*- mode: python; coding: iso8859-1; -*-
## 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.stack import *
from pysollib.game import Game
from pysollib.layout import Layout
from pysollib.hint import AbstractHint, DefaultHint, CautiousDefaultHint
# /***********************************************************************
# //
# ************************************************************************/
class SiebenBisAs_Hint(CautiousDefaultHint):
def computeHints(self):
game = self.game
freerows = filter(lambda s: not s.cards, game.s.rows)
# for each stack
for r in game.sg.dropstacks:
if not r.cards:
continue
assert len(r.cards) == 1 and r.cards[-1].face_up
c, pile, rpile = r.cards[0], r.cards, []
# try if we can drop the card
t, ncards = r.canDropCards(self.game.s.foundations)
if t:
score, color = 0, None
score, color = self._getDropCardScore(score, color, r, t, ncards)
self.addHint(score, ncards, r, t, color)
# try if we can move the card
for t in freerows:
if self.shallMovePile(r, t, pile, rpile):
# FIXME: this scoring
score = 50000
self.addHint(score, 1, r, t)
# /***********************************************************************
# // Sieben bis As (Seven to Ace)
# ************************************************************************/
class SiebenBisAs_Foundation(SS_FoundationStack):
def acceptsCards(self, from_stack, cards):
if not SS_FoundationStack.acceptsCards(self, from_stack, cards):
return 0
# this stack accepts only a card from a rowstack with an empty
# left neighbour
if not from_stack in self.game.s.rows:
return 0
if from_stack.id % 10 == 0:
return 0
return len(self.game.s.rows[from_stack.id - 1].cards) == 0
class SiebenBisAs_RowStack(BasicRowStack):
def acceptsCards(self, from_stack, cards):
if not BasicRowStack.acceptsCards(self, from_stack, cards):
return 0
if self.id % 10 != 0:
# left neighbour
s = self.game.s.rows[self.id - 1]
if s.cards and s.cards[-1].suit == cards[0].suit and (s.cards[-1].rank + 1) % 13 == cards[0].rank:
return 1
if self.id % 10 != 10 - 1:
# right neighbour
s = self.game.s.rows[self.id + 1]
if s.cards and s.cards[-1].suit == cards[0].suit and (s.cards[-1].rank - 1) % 13 == cards[0].rank:
return 1
return 0
# bottom to get events for an empty stack
###prepareBottom = Stack.prepareInvisibleBottom
def getBottomImage(self):
return self.game.app.images.getReserveBottom()
class SiebenBisAs(Game):
Hint_Class = SiebenBisAs_Hint
#
# game layout
#
def createGame(self):
# create layout
l, s = Layout(self), self.s
# set window
self.setSize(l.XM + 10*l.XS, l.YM + 5*l.YS)
# create stacks
for i in range(3):
for j in range(10):
x, y, = l.XM + j*l.XS, l.YM + (i+1)*l.YS
s.rows.append(SiebenBisAs_RowStack(x, y, self, max_accept=1, max_cards=1))
for i in range(2):
x, y, = l.XM + (i+4)*l.XS, l.YM
s.reserves.append(ReserveStack(x, y, self, max_accept=0))
for i in range(4):
x, y, = l.XM + (i+3)*l.XS, l.YM + 4*l.YS
s.foundations.append(SiebenBisAs_Foundation(x, y, self, i, base_rank=6, mod=13, max_move=0, max_cards=8))
s.talon = InitialDealTalonStack(l.XM, self.height-l.YS, self)
# define stack-groups
l.defaultStackGroups()
#
# game overrides
#
def startGame(self):
self.startDealSample()
self.s.talon.dealRow()
self.s.talon.dealRow(rows=self.s.reserves)
stacks = filter(lambda r: r.cards[-1].rank == 6, self.s.rows)
for r in stacks:
self.moveMove(1, r, self.s.foundations[r.cards[-1].suit])
shallHighlightMatch = Game._shallHighlightMatch_SSW
# /***********************************************************************
# // Maze
# ************************************************************************/
class Maze_RowStack(BasicRowStack):
def acceptsCards(self, from_stack, cards):
if not BasicRowStack.acceptsCards(self, from_stack, cards):
return 0
# left neighbour
s = self.game.s.rows[(self.id - 1) % 54]
if s.cards:
if s.cards[-1].suit == cards[0].suit and s.cards[-1].rank + 1 == cards[0].rank:
return 1
if s.cards[-1].rank == QUEEN and cards[0].rank == ACE:
return 1
# right neighbour
s = self.game.s.rows[(self.id + 1) % 54]
if s.cards:
if s.cards[-1].suit == cards[0].suit and s.cards[-1].rank - 1 == cards[0].rank:
return 1
return 0
# bottom to get events for an empty stack
prepareBottom = Stack.prepareInvisibleBottom
def getBottomImage(self):
return self.game.app.images.getReserveBottom()
class Maze(Game):
GAME_VERSION = 2
Hint_Class = SiebenBisAs_Hint
#
# game layout
#
def createGame(self):
# create layout
l, s = Layout(self, card_x_space=4, card_y_space=4), self.s
# set window
self.setSize(l.XM + 9*l.XS, l.YM + 6*l.YS)
# create stacks
for i in range(6):
for j in range(9):
x, y, = l.XM + j*l.XS, l.YM + i*l.YS
s.rows.append(Maze_RowStack(x, y, self, max_accept=1, max_cards=1))
##s.talon = InitialDealTalonStack(-2*l.XS, l.YM+5*l.YS/2, self)
s.talon = InitialDealTalonStack(self.width-l.XS+1, self.height-l.YS, self)
# create an invisble stack to hold the four Kings
s.internals.append(InvisibleStack(self))
# define stack-groups
l.defaultStackGroups()
#
# game overrides
#
def startGame(self):
frames = 0
for i in range(54):
## if i == 8 or i == 17: # these stay empty
if i >= 52: # these stay empty
continue
c = self.s.talon.cards[-1]
if c.rank == KING:
self.s.talon.dealRow(rows=self.s.internals, frames=0)
else:
if frames == 0 and i >= 36:
self.startDealSample()
frames = -1
self.s.talon.dealRow(rows=(self.s.rows[i],), frames=frames)
def isGameWon(self):
rows = filter(lambda s: s.cards, self.s.rows)
if len(rows) != 48:
return 0 # no cards dealt yet
i = 0
if 1:
# allow wrap around: search first Ace
while rows[i].cards[-1].rank != ACE:
i = i + 1
rows = rows + rows
# now check for 4 sequences
for j in (i+0, i+12, i+24, i+36):
r1 = rows[j]
r2 = rows[j+11]
if (r2.id - r1.id) % 54 != 11:
# found a space within the sequence
return 0
if r1.cards[-1].rank != ACE or r2.cards[-1].rank != QUEEN:
return 0
pile = getPileFromStacks(rows[j:j+12])
if not pile or not isSameSuitSequence(pile, dir=1):
return 0
return 1
# register the game
registerGame(GameInfo(118, SiebenBisAs, "Sieben bis As",
GI.GT_MONTANA | GI.GT_OPEN, 1, 0, GI.SL_MOSTLY_SKILL,
ranks=(0, 6, 7, 8, 9, 10, 11, 12)))
registerGame(GameInfo(144, Maze, "Maze",
GI.GT_MONTANA | GI.GT_OPEN, 1, 0, GI.SL_MOSTLY_SKILL,
si={"ncards": 48}))