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#!/usr/bin/env python2
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# -*- coding: utf-8 -*-
#
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# Copyright 2008-2010 Carl Gherardi
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#
# 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; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
########################################################################
import sys
from HandHistoryConverter import *
class UltimateBet ( HandHistoryConverter ) :
# Static regexes
re_GameInfo = re . compile ( " Stage #(?P<HID>[0-9]+): \ s+ \ (?(?P<GAME>Hold \' em|Razz|Seven Card|Omaha|Omaha Hi/Lo|Badugi) (?P<LIMIT>No Limit|Normal|Pot Limit),? \ (?(?P<CURRENCY> \ $|)?(?P<SB>[.0-9]+)/ \ $?(?P<BB>[.0-9]+) \ ) - (?P<DATETIME>.*$) " , re . MULTILINE )
re_SplitHands = re . compile ( ' ( \n \n \n +) ' )
re_HandInfo = re . compile ( " ^Table \' (?P<TABLE>[- a-zA-Z]+) \' (?P<TABLEATTRIBUTES>.+?$)? " , re . MULTILINE )
re_Button = re . compile ( ' Seat #(?P<BUTTON> \ d+) is the button ' , re . MULTILINE )
re_PlayerInfo = re . compile ( ' ^Seat (?P<SEAT>[0-9]+) - (?P<PNAME>.*) \ ( \ $?(?P<CASH>[.0-9]+) in chips \ ) ' , re . MULTILINE )
re_Board = re . compile ( r " \ [(?P<CARDS>.+) \ ] " )
# self.re_setHandInfoRegex('.*#(?P<HID>[0-9]+): Table (?P<TABLE>[ a-zA-Z]+) - \$?(?P<SB>[.0-9]+)/\$?(?P<BB>[.0-9]+) - (?P<GAMETYPE>.*) - (?P<HR>[0-9]+):(?P<MIN>[0-9]+) ET - (?P<YEAR>[0-9]+)/(?P<MON>[0-9]+)/(?P<DAY>[0-9]+)Table (?P<TABLE>[ a-zA-Z]+)\nSeat (?P<BUTTON>[0-9]+)')
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def __init__ ( self , in_path = ' - ' , out_path = ' - ' , follow = False , autostart = True , index = 0 ) :
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""" \
in_path ( default ' - ' = sys . stdin )
out_path ( default ' - ' = sys . stdout )
follow : whether to tail - f the input """
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HandHistoryConverter . __init__ ( self , in_path , out_path , sitename = " UltimateBet " , follow = follow , index = index )
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logging . info ( " Initialising UltimateBetconverter class " )
self . filetype = " text "
self . codepage = " cp1252 "
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self . siteId = 6 # Needs to match id entry in Sites database
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if autostart :
self . start ( )
def compilePlayerRegexs ( self , hand ) :
players = set ( [ player [ 1 ] for player in hand . players ] )
if not players < = self . compiledPlayers : # x <= y means 'x is subset of y'
# we need to recompile the player regexs.
self . compiledPlayers = players
player_re = " (?P<PNAME> " + " | " . join ( map ( re . escape , players ) ) + " ) "
logging . debug ( " player_re: " + player_re )
self . re_PostSB = re . compile ( r " ^ %s : posts small blind \ $?(?P<SB>[.0-9]+) " % player_re , re . MULTILINE )
self . re_PostBB = re . compile ( r " ^ %s : posts big blind \ $?(?P<BB>[.0-9]+) " % player_re , re . MULTILINE )
self . re_Antes = re . compile ( r " ^ %s - Ante \ $?(?P<ANTE>[.0-9]+) " % player_re , re . MULTILINE )
self . re_BringIn = re . compile ( r " ^ %s - Bring-In \ $?(?P<BRINGIN>[.0-9]+) " % player_re , re . MULTILINE )
self . re_PostBoth = re . compile ( r " ^ %s : posts small \ & big blinds \ [ \ $? (?P<SBBB>[.0-9]+) " % player_re , re . MULTILINE )
self . re_HeroCards = re . compile ( r " ^Dealt to %s - Pocket ( \ [(?P<OLDCARDS>.+?) \ ])?( \ [(?P<NEWCARDS>.+?) \ ]) " % player_re , re . MULTILINE )
self . re_Action = re . compile ( r " ^ %s -(?P<ATYPE> Bets| Checks| raises| Calls| Folds)( \ $(?P<BET>[. \ d]+))?( to \ $(?P<BETTO>[. \ d]+))?( (?P<NODISCARDED> \ d) cards?( \ [(?P<DISCARDED>.+?) \ ])?)? " % player_re , re . MULTILINE )
self . re_ShowdownAction = re . compile ( r " ^ %s - Shows \ [(?P<CARDS>.*) \ ] " % player_re , re . MULTILINE )
self . re_CollectPot = re . compile ( r " Seat (?P<SEAT>[0-9]+): %s ( \ (button \ ) | \ (small blind \ ) | \ (big blind \ ) )?(collected|showed \ [.* \ ] and won) \ ( \ $(?P<POT>[. \ d]+) \ )(, mucked| with.*|) " % player_re , re . MULTILINE )
self . re_sitsOut = re . compile ( " ^ %s sits out " % player_re , re . MULTILINE )
self . re_ShownCards = re . compile ( " ^Seat (?P<SEAT>[0-9]+): %s \ (.* \ ) showed \ [(?P<CARDS>.*) \ ].* " % player_re , re . MULTILINE )
def readSupportedGames ( self ) :
return [ [ " ring " , " stud " , " fl " ]
]
def determineGameType ( self , handText ) :
info = { ' type ' : ' ring ' }
m = self . re_GameInfo . search ( handText )
if not m :
return None
mg = m . groupdict ( )
# translations from captured groups to our info strings
limits = { ' No Limit ' : ' nl ' , ' Pot Limit ' : ' pl ' , ' Limit ' : ' fl ' }
games = { # base, category
" Hold ' em " : ( ' hold ' , ' holdem ' ) ,
' Omaha ' : ( ' hold ' , ' omahahi ' ) ,
' Omaha Hi/Lo ' : ( ' hold ' , ' omahahilo ' ) ,
' Razz ' : ( ' stud ' , ' razz ' ) ,
' 7 Card Stud ' : ( ' stud ' , ' studhi ' ) ,
' Badugi ' : ( ' draw ' , ' badugi ' )
}
currencies = { u ' € ' : ' EUR ' , ' $ ' : ' USD ' , ' ' : ' T$ ' }
if ' LIMIT ' in mg :
info [ ' limitType ' ] = limits [ mg [ ' LIMIT ' ] ]
if ' GAME ' in mg :
( info [ ' base ' ] , info [ ' category ' ] ) = games [ mg [ ' GAME ' ] ]
if ' SB ' in mg :
info [ ' sb ' ] = mg [ ' SB ' ]
if ' BB ' in mg :
info [ ' bb ' ] = mg [ ' BB ' ]
if ' CURRENCY ' in mg :
info [ ' currency ' ] = currencies [ mg [ ' CURRENCY ' ] ]
# NB: SB, BB must be interpreted as blinds or bets depending on limit type.
return info
def readHandInfo ( self , hand ) :
info = { }
m = self . re_HandInfo . search ( hand . handText , re . DOTALL )
if m :
info . update ( m . groupdict ( ) )
# TODO: Be less lazy and parse maxseats from the HandInfo regex
if m . group ( ' TABLEATTRIBUTES ' ) :
m2 = re . search ( " \ s*( \ d+)-max " , m . group ( ' TABLEATTRIBUTES ' ) )
hand . maxseats = int ( m2 . group ( 1 ) )
m = self . re_GameInfo . search ( hand . handText )
if m : info . update ( m . groupdict ( ) )
m = self . re_Button . search ( hand . handText )
if m : info . update ( m . groupdict ( ) )
# TODO : I rather like the idea of just having this dict as hand.info
logging . debug ( " readHandInfo: %s " % info )
for key in info :
if key == ' DATETIME ' :
#2008/11/12 10:00:48 CET [2008/11/12 4:00:48 ET]
#2008/08/17 - 01:14:43 (ET)
#2008/09/07 06:23:14 ET
m2 = re . search ( " (?P<Y>[0-9] {4} ) \ /(?P<M>[0-9] {2} ) \ /(?P<D>[0-9] {2} )[ \ - ]+(?P<H>[0-9]+):(?P<MIN>[0-9]+):(?P<S>[0-9]+) " , info [ key ] )
datetime = " %s / %s / %s %s : %s : %s " % ( m2 . group ( ' Y ' ) , m2 . group ( ' M ' ) , m2 . group ( ' D ' ) , m2 . group ( ' H ' ) , m2 . group ( ' MIN ' ) , m2 . group ( ' S ' ) )
hand . starttime = time . strptime ( datetime , " % Y/ % m/ %d % H: % M: % S " )
if key == ' HID ' :
hand . handid = info [ key ]
if key == ' TABLE ' :
hand . tablename = info [ key ]
if key == ' BUTTON ' :
hand . buttonpos = info [ key ]
def readButton ( self , hand ) :
m = self . re_Button . search ( hand . handText )
if m :
hand . buttonpos = int ( m . group ( ' BUTTON ' ) )
else :
logging . info ( ' readButton: not found ' )
def readPlayerStacks ( self , hand ) :
logging . debug ( " readPlayerStacks " )
m = self . re_PlayerInfo . finditer ( hand . handText )
players = [ ]
for a in m :
hand . addPlayer ( int ( a . group ( ' SEAT ' ) ) , a . group ( ' PNAME ' ) , a . group ( ' CASH ' ) )
def markStreets ( self , hand ) :
# PREFLOP = ** Dealing down cards **
# This re fails if, say, river is missing; then we don't get the ** that starts the river.
if hand . gametype [ ' base ' ] in ( " hold " ) :
m = re . search ( r " \ * \ * \ * HOLE CARDS \ * \ * \ *(?P<PREFLOP>.+(?= \ * \ * \ * FLOP \ * \ * \ *)|.+) "
r " ( \ * \ * \ * FLOP \ * \ * \ *(?P<FLOP> \ [ \ S \ S \ S \ S \ S \ S \ ].+(?= \ * \ * \ * TURN \ * \ * \ *)|.+))? "
r " ( \ * \ * \ * TURN \ * \ * \ * \ [ \ S \ S \ S \ S \ S \ S] (?P<TURN> \ [ \ S \ S \ ].+(?= \ * \ * \ * RIVER \ * \ * \ *)|.+))? "
r " ( \ * \ * \ * RIVER \ * \ * \ * \ [ \ S \ S \ S \ S \ S \ S \ S \ S] (?P<RIVER> \ [ \ S \ S \ ].+))? " , hand . handText , re . DOTALL )
elif hand . gametype [ ' base ' ] in ( " stud " ) :
m = re . search ( r " (?P<ANTES>.+(?= \ * \ * \ * 3rd STREET \ * \ * \ *)|.+) "
r " ( \ * \ * \ * 3rd STREET \ * \ * \ *(?P<THIRD>.+(?= \ * \ * \ * 4th STREET \ * \ * \ *)|.+))? "
r " ( \ * \ * \ * 4th STREET \ * \ * \ *(?P<FOURTH>.+(?= \ * \ * \ * 5th STREET \ * \ * \ *)|.+))? "
r " ( \ * \ * \ * 5th STREET \ * \ * \ *(?P<FIFTH>.+(?= \ * \ * \ * 6th STREET \ * \ * \ *)|.+))? "
r " ( \ * \ * \ * 6th STREET \ * \ * \ *(?P<SIXTH>.+(?= \ * \ * \ * RIVER \ * \ * \ *)|.+))? "
r " ( \ * \ * \ * RIVER \ * \ * \ *(?P<SEVENTH>.+))? " , hand . handText , re . DOTALL )
elif hand . gametype [ ' base ' ] in ( " draw " ) :
m = re . search ( r " (?P<PREDEAL>.+(?= \ * \ * \ * DEALING HANDS \ * \ * \ *)|.+) "
r " ( \ * \ * \ * DEALING HANDS \ * \ * \ *(?P<DEAL>.+(?= \ * \ * \ * FIRST DRAW \ * \ * \ *)|.+))? "
r " ( \ * \ * \ * FIRST DRAW \ * \ * \ *(?P<DRAWONE>.+(?= \ * \ * \ * SECOND DRAW \ * \ * \ *)|.+))? "
r " ( \ * \ * \ * SECOND DRAW \ * \ * \ *(?P<DRAWTWO>.+(?= \ * \ * \ * THIRD DRAW \ * \ * \ *)|.+))? "
r " ( \ * \ * \ * THIRD DRAW \ * \ * \ *(?P<DRAWTHREE>.+))? " , hand . handText , re . DOTALL )
hand . addStreets ( m )
def readCommunityCards ( self , hand , street ) : # street has been matched by markStreets, so exists in this hand
if street in ( ' FLOP ' , ' TURN ' , ' RIVER ' ) : # a list of streets which get dealt community cards (i.e. all but PREFLOP)
#print "DEBUG readCommunityCards:", street, hand.streets.group(street)
m = self . re_Board . search ( hand . streets [ street ] )
hand . setCommunityCards ( street , m . group ( ' CARDS ' ) . split ( ' ' ) )
def readAntes ( self , hand ) :
logging . debug ( " reading antes " )
m = self . re_Antes . finditer ( hand . handText )
for player in m :
#~ logging.debug("hand.addAnte(%s,%s)" %(player.group('PNAME'), player.group('ANTE')))
hand . addAnte ( player . group ( ' PNAME ' ) , player . group ( ' ANTE ' ) )
def readBringIn ( self , hand ) :
m = self . re_BringIn . search ( hand . handText , re . DOTALL )
if m :
#~ logging.debug("readBringIn: %s for %s" %(m.group('PNAME'), m.group('BRINGIN')))
hand . addBringIn ( m . group ( ' PNAME ' ) , m . group ( ' BRINGIN ' ) )
def readBlinds ( self , hand ) :
try :
m = self . re_PostSB . search ( hand . handText )
hand . addBlind ( m . group ( ' PNAME ' ) , ' small blind ' , m . group ( ' SB ' ) )
except : # no small blind
hand . addBlind ( None , None , None )
for a in self . re_PostBB . finditer ( hand . handText ) :
hand . addBlind ( a . group ( ' PNAME ' ) , ' big blind ' , a . group ( ' BB ' ) )
for a in self . re_PostBoth . finditer ( hand . handText ) :
hand . addBlind ( a . group ( ' PNAME ' ) , ' small & big blinds ' , a . group ( ' SBBB ' ) )
def readHeroCards ( self , hand ) :
m = self . re_HeroCards . search ( hand . handText )
if ( m == None ) :
#Not involved in hand
hand . involved = False
else :
hand . hero = m . group ( ' PNAME ' )
# "2c, qh" -> set(["2c","qc"])
# Also works with Omaha hands.
cards = m . group ( ' NEWCARDS ' )
cards = set ( cards . split ( ' ' ) )
hand . addHoleCards ( cards , m . group ( ' PNAME ' ) )
def readDrawCards ( self , hand , street ) :
logging . debug ( " readDrawCards " )
m = self . re_HeroCards . finditer ( hand . streets [ street ] )
if m == None :
hand . involved = False
else :
for player in m :
hand . hero = player . group ( ' PNAME ' ) # Only really need to do this once
newcards = player . group ( ' NEWCARDS ' )
oldcards = player . group ( ' OLDCARDS ' )
if newcards == None :
newcards = set ( )
else :
newcards = set ( newcards . split ( ' ' ) )
if oldcards == None :
oldcards = set ( )
else :
oldcards = set ( oldcards . split ( ' ' ) )
hand . addDrawHoleCards ( newcards , oldcards , player . group ( ' PNAME ' ) , street )
def readStudPlayerCards ( self , hand , street ) :
# See comments of reference implementation in FullTiltToFpdb.py
logging . debug ( " readStudPlayerCards " )
m = self . re_HeroCards . finditer ( hand . streets [ street ] )
for player in m :
#~ logging.debug(player.groupdict())
( pname , oldcards , newcards ) = ( player . group ( ' PNAME ' ) , player . group ( ' OLDCARDS ' ) , player . group ( ' NEWCARDS ' ) )
if oldcards :
oldcards = [ c . strip ( ) for c in oldcards . split ( ' ' ) ]
if newcards :
newcards = [ c . strip ( ) for c in newcards . split ( ' ' ) ]
if street == ' ANTES ' :
return
elif street == ' THIRD ' :
# we'll have observed hero holecards in CARDS and thirdstreet open cards in 'NEWCARDS'
# hero: [xx][o]
# others: [o]
hand . addPlayerCards ( player = player . group ( ' PNAME ' ) , street = street , closed = oldcards , open = newcards )
elif street in ( ' FOURTH ' , ' FIFTH ' , ' SIXTH ' ) :
# 4th:
# hero: [xxo] [o]
# others: [o] [o]
# 5th:
# hero: [xxoo] [o]
# others: [oo] [o]
# 6th:
# hero: [xxooo] [o]
# others: [ooo] [o]
hand . addPlayerCards ( player = player . group ( ' PNAME ' ) , street = street , open = newcards )
# we may additionally want to check the earlier streets tally with what we have but lets trust it for now.
elif street == ' SEVENTH ' and newcards :
# hero: [xxoooo] [x]
# others: not reported.
hand . addPlayerCards ( player = player . group ( ' PNAME ' ) , street = street , closed = newcards )
def readAction ( self , hand , street ) :
m = self . re_Action . finditer ( hand . streets [ street ] )
for action in m :
if action . group ( ' ATYPE ' ) == ' Raises ' :
hand . addRaiseBy ( street , action . group ( ' PNAME ' ) , action . group ( ' BET ' ) )
elif action . group ( ' ATYPE ' ) == ' Calls ' :
hand . addCall ( street , action . group ( ' PNAME ' ) , action . group ( ' BET ' ) )
elif action . group ( ' ATYPE ' ) == ' Bets ' :
hand . addBet ( street , action . group ( ' PNAME ' ) , action . group ( ' BET ' ) )
elif action . group ( ' ATYPE ' ) == ' Folds ' :
hand . addFold ( street , action . group ( ' PNAME ' ) )
elif action . group ( ' ATYPE ' ) == ' Checks ' :
hand . addCheck ( street , action . group ( ' PNAME ' ) )
#elif action.group('ATYPE') == ' discards':
# hand.addDiscard(street, action.group('PNAME'), action.group('NODISCARDED'), action.group('DISCARDED'))
#elif action.group('ATYPE') == ' stands pat':
# hand.addStandsPat( street, action.group('PNAME'))
else :
print " DEBUG: unimplemented readAction: ' %s ' ' %s ' " % ( action . group ( ' PNAME ' ) , action . group ( ' ATYPE ' ) , )
def readShowdownActions ( self , hand ) :
for shows in self . re_ShowdownAction . finditer ( hand . handText ) :
cards = shows . group ( ' CARDS ' )
cards = set ( cards . split ( ' ' ) )
hand . addShownCards ( cards , shows . group ( ' PNAME ' ) )
def readCollectPot ( self , hand ) :
for m in self . re_CollectPot . finditer ( hand . handText ) :
hand . addCollectPot ( player = m . group ( ' PNAME ' ) , pot = m . group ( ' POT ' ) )
def readShownCards ( self , hand ) :
for m in self . re_ShownCards . finditer ( hand . handText ) :
if m . group ( ' CARDS ' ) is not None :
cards = m . group ( ' CARDS ' )
cards = set ( cards . split ( ' ' ) )
hand . addShownCards ( cards = cards , player = m . group ( ' PNAME ' ) )
if __name__ == " __main__ " :
parser = OptionParser ( )
parser . add_option ( " -i " , " --input " , dest = " ipath " , help = " parse input hand history " , default = " regression-test-files/pokerstars/HH20090226 Natalie V - $0.10-$0.20 - HORSE.txt " )
parser . add_option ( " -o " , " --output " , dest = " opath " , help = " output translation to " , default = " - " )
parser . add_option ( " -f " , " --follow " , dest = " follow " , help = " follow (tail -f) the input " , action = " store_true " , default = False )
parser . add_option ( " -q " , " --quiet " ,
action = " store_const " , const = logging . CRITICAL , dest = " verbosity " , default = logging . INFO )
parser . add_option ( " -v " , " --verbose " ,
action = " store_const " , const = logging . INFO , dest = " verbosity " )
parser . add_option ( " --vv " ,
action = " store_const " , const = logging . DEBUG , dest = " verbosity " )
( options , args ) = parser . parse_args ( )
LOG_FILENAME = ' ./logging.out '
logging . basicConfig ( filename = LOG_FILENAME , level = options . verbosity )
e = UltimateBet ( in_path = options . ipath , out_path = options . opath , follow = options . follow )