#!/usr/bin/python #Copyright 2008 Carl Gherardi #This program is free software: you can redistribute it and/or modify #it under the terms of the GNU Affero General Public License as published by #the Free Software Foundation, version 3 of the License. # #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 Affero General Public License #along with this program. If not, see . #In the "official" distribution you can find the license in #agpl-3.0.txt in the docs folder of the package. def twoStartCards(value1, suit1, value2, suit2): """ Function to convert 2 value,suit pairs into a Holdem style starting hand e.g. AQo Hand is stored as an int 13 * x + y where (x+2) represents rank of 1st card and (y+2) represents rank of second card (2=2 .. 14=Ace) If x > y then pair is suited, if x < y then unsuited""" if value1 < 2 or value2 < 2: ret = 0 if value1 == value2: # pairs ret = (13 * (value2-2) + (value2-1) ) elif suit1 == suit2: if value1 > value2: ret = 13 * (value1-2) + (value2-1) else: ret = 13 * (value2-2) + (value1-1) else: if value1 > value2: ret = 13 * (value2-2) + (value2-1) else: ret = 13 * (value1-2) + (value2-1) # print "twoStartCards(", value1, suit1, value2, suit2, ")=", ret return ret def twoStartCardString(card): """ Function to convert an int representing 2 holdem hole cards (as created by twoStartCards) into a string like AQo """ ret = 'xx' if card > 0: card -= 1 s = ('2', '3', '4', '5', '6', '7', '8', '9', 'T', 'J', 'Q', 'K', 'A') x = card / 13 y = card - 13 * x if x == y: ret = s[x] + s[y] elif x > y: ret = s[x] + s[y] + 's' else: ret = s[y] + s[x] + 'o' # print "twoStartCardString(", card ,") = " + ret return ret def fourStartCards(value1, suit1, value2, suit2, value3, suit3, value4, suit4): """ Function to convert 4 value,suit pairs into a Omaha style starting hand, haven't decided how to encode this yet """ # This doesn't actually do anything yet - CG # What combinations do we need to store? just cards: AA23? some suits as well e.g. when # double suited ATcKTd? Lots more possible combos than holdem :-( 270K vs 1326? not sure # Probably need to use this field as a key into some other table - sc #AAKKds #AAKKs #AAKKr # Is probably what we are looking for # mct: # my maths says there are 4 classes of suitedness # SSSS SSSx SSxy SSHH # encode them as follows: # SSSS (K, J, 6, 3) # - 13C4 = 715 possibilities # SSSx (K, J, 6),(3) # - 13C3 * 13 = 3718 possibilities # SSxy (K, J),(6),(3) # - 13C2 * 13*13 = 13182 possibilities # SSHH (K, J),(6, 3) # - 13C2 * 13C2 = 6084 possibilities # Needless to say they won't fit on a 13x13 grid. # The actual number of hands in each class is far greater return(0) def cardFromValueSuit(value, suit): """ 0=none, 1-13=2-Ah 14-26=2-Ad 27-39=2-Ac 40-52=2-As """ if suit == 'h': return(value-1) elif suit == 'd': return(value+12) elif suit == 'c': return(value+25) elif suit == 's': return(value+38) else: return(0) def valueSuitFromCard(card): """ Function to convert a card stored in the database (int 0-52) into value and suit like 9s, 4c etc """ if card < 0 or card > 52 or not card: return('') else: return( ['', '2h', '3h', '4h', '5h', '6h', '7h', '8h', '9h', 'Th', 'Jh', 'Qh', 'Kh', 'Ah' , '2d', '3d', '4d', '5d', '6d', '7d', '8d', '9d', 'Td', 'Jd', 'Qd', 'Kd', 'Ad' , '2c', '3c', '4c', '5c', '6c', '7c', '8c', '9c', 'Tc', 'Jc', 'Qc', 'Kc', 'Ac' , '2s', '3s', '4s', '5s', '6s', '7s', '8s', '9s', 'Ts', 'Js', 'Qs', 'Ks', 'As' ][card] ) if __name__ == '__main__': for i in xrange(1, 14): print "card %2d = %s card %2d = %s card %2d = %s card %2d = %s" % \ (i, valueSuitFromCard(i), i+13, valueSuitFromCard(i+13), i+26, valueSuitFromCard(i+26), i+39, valueSuitFromCard(i+39))