fpdb/pyfpdb/PokerStarsToFpdb.py

382 lines
19 KiB
Python
Executable File

#!/usr/bin/env python
# -*- coding: utf-8 -*-
#
# Copyright 2008, Carl Gherardi
#
# 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
########################################################################
# TODO: straighten out discards for draw games
import sys
from HandHistoryConverter import *
# PokerStars HH Format
class PokerStars(HandHistoryConverter):
# Class Variables
sitename = "PokerStars"
filetype = "text"
codepage = "cp1252"
siteId = 2 # Needs to match id entry in Sites database
mixes = { 'HORSE': 'horse', '8-Game': '8game', 'HOSE': 'hose'} # Legal mixed games
sym = {'USD': "\$", 'CAD': "\$", 'T$': "", "EUR": "\x80", "GBP": "\xa3"} # ADD Euro, Sterling, etc HERE
substitutions = {
'LEGAL_ISO' : "USD|EUR|GBP|CAD|FPP", # legal ISO currency codes
'LS' : "\$|\x80|\xa3" # legal currency symbols ADD Euro, Sterling, etc HERE
}
# Static regexes
re_GameInfo = re.compile("""
PokerStars\sGame\s\#(?P<HID>[0-9]+):\s+
(Tournament\s\# # open paren of tournament info
(?P<TOURNO>\d+),\s
(?P<BUYIN>[%(LS)s\+\d\.]+ # here's how I plan to use LS
\s?(?P<TOUR_ISO>%(LEGAL_ISO)s)?
)\s)? # close paren of tournament info
(?P<MIXED>HORSE|8\-Game|HOSE)?\s?\(?
(?P<GAME>Hold\'em|Razz|7\sCard\sStud|7\sCard\sStud\sHi/Lo|Omaha|Omaha\sHi/Lo|Badugi|Triple\sDraw\s2\-7\sLowball)\s
(?P<LIMIT>No\sLimit|Limit|Pot\sLimit)\)?,?\s
(-\sLevel\s(?P<LEVEL>[IVXLC]+)\s)?
\(? # open paren of the stakes
(?P<CURRENCY>%(LS)s|)?
(?P<SB>[.0-9]+)/(%(LS)s)?
(?P<BB>[.0-9]+)
\s?(?P<ISO>%(LEGAL_ISO)s)?
\)\s-\s # close paren of the stakes
(?P<DATETIME>.*$)""" % substitutions,
re.MULTILINE|re.VERBOSE)
re_PlayerInfo = re.compile("""
^Seat\s(?P<SEAT>[0-9]+):\s
(?P<PNAME>.*)\s
\((%(LS)s)?(?P<CASH>[.0-9]+)\sin\schips\)""" % substitutions,
re.MULTILINE|re.VERBOSE)
re_HandInfo = re.compile("""
^Table\s\'(?P<TABLE>[-\ a-zA-Z\d]+)\'\s
((?P<MAX>\d+)-max\s)?
(?P<PLAY>\(Play\sMoney\)\s)?
(Seat\s\#(?P<BUTTON>\d+)\sis\sthe\sbutton)?""",
re.MULTILINE|re.VERBOSE)
re_SplitHands = re.compile('\n\n+')
re_TailSplitHands = re.compile('(\n\n\n+)')
re_Button = re.compile('Seat #(?P<BUTTON>\d+) is the button', 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]+)')
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.
# TODO: should probably rename re_HeroCards and corresponding method,
# since they are used to find all cards on lines starting with "Dealt to:"
# They still identify the hero.
self.compiledPlayers = players
player_re = "(?P<PNAME>" + "|".join(map(re.escape, players)) + ")"
subst = {'PLYR': player_re, 'CUR': self.sym[hand.gametype['currency']]}
logging.debug("player_re: " + player_re)
self.re_PostSB = re.compile(r"^%(PLYR)s: posts small blind %(CUR)s(?P<SB>[.0-9]+)" % subst, re.MULTILINE)
self.re_PostBB = re.compile(r"^%(PLYR)s: posts big blind %(CUR)s(?P<BB>[.0-9]+)" % subst, re.MULTILINE)
self.re_Antes = re.compile(r"^%(PLYR)s: posts the ante %(CUR)s(?P<ANTE>[.0-9]+)" % subst, re.MULTILINE)
self.re_BringIn = re.compile(r"^%(PLYR)s: brings[- ]in( low|) for %(CUR)s(?P<BRINGIN>[.0-9]+)" % subst, re.MULTILINE)
self.re_PostBoth = re.compile(r"^%(PLYR)s: posts small \& big blinds \[%(CUR)s (?P<SBBB>[.0-9]+)" % subst, re.MULTILINE)
self.re_HeroCards = re.compile(r"^Dealt to %(PLYR)s(?: \[(?P<OLDCARDS>.+?)\])?( \[(?P<NEWCARDS>.+?)\])" % subst, re.MULTILINE)
self.re_Action = re.compile(r"""
^%(PLYR)s:(?P<ATYPE>\sbets|\schecks|\sraises|\scalls|\sfolds|\sdiscards|\sstands\spat)
(\s%(CUR)s(?P<BET>[.\d]+))?(\sto\s%(CUR)s(?P<BETTO>[.\d]+))? # the number discarded goes in <BET>
(\scards?(\s\[(?P<DISCARDED>.+?)\])?)?"""
% subst, re.MULTILINE|re.VERBOSE)
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]+): %(PLYR)s (\(button\) |\(small blind\) |\(big blind\) )?(collected|showed \[.*\] and won) \(%(CUR)s(?P<POT>[.\d]+)\)(, mucked| with.*|)" % subst, 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 (\(.*\) )?(?P<SHOWED>showed|mucked) \[(?P<CARDS>.*)\].*" % player_re, re.MULTILINE)
def readSupportedGames(self):
return [["ring", "hold", "nl"],
["ring", "hold", "pl"],
["ring", "hold", "fl"],
["ring", "stud", "fl"],
["ring", "draw", "fl"],
["tour", "hold", "nl"],
["tour", "hold", "pl"],
["tour", "hold", "fl"],
["tour", "stud", "fl"],
]
def determineGameType(self, handText):
# inspect the handText and return the gametype dict
# gametype dict is:
# {'limitType': xxx, 'base': xxx, 'category': xxx}
info = {}
m = self.re_GameInfo.search(handText)
if not m:
return None
mg = m.groupdict()
# translations from captured groups to fpdb 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'),
'7 Card Stud Hi/Lo' : ('stud','studhilo'),
'Badugi' : ('draw','badugi'),
'Triple Draw 2-7 Lowball' : ('draw','27_3draw'),
}
currencies = { u'':'EUR', '$':'USD', '':'T$' }
# I don't think this is doing what we think. mg will always have all
# the expected keys, but the ones that didn't match in the regex will
# have a value of None. It is OK if it throws an exception when it
# runs across an unknown game or limit or whatever.
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']]
if 'TOURNO' in mg and mg['TOURNO'] is None:
info['type'] = 'ring'
else:
info['type'] = 'tour'
# 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())
# hand.maxseats = int(m2.group(1))
else:
pass # throw an exception here, eh?
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])
datetimestr = "%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 = datetime.datetime.strptime(datetimestr, "%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]
if key == 'MAX':
hand.maxseats = int(info[key])
if key == 'MIXED':
hand.mixed = self.mixes[info[key]] if info[key] is not None else None
if key == 'TOURNO':
hand.tourNo = info[key]
if key == 'BUYIN':
hand.buyin = info[key]
if key == 'LEVEL':
hand.level = info[key]
if key == 'PLAY' and info['PLAY'] is not None:
# hand.currency = 'play' # overrides previously set value
hand.gametype['currency'] = 'play'
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'), 'both', a.group('SBBB'))
def readHeroCards(self, hand):
# streets PREFLOP, PREDRAW, and THIRD are special cases beacause
# we need to grab hero's cards
for street in ('PREFLOP', 'DEAL'):
if street in hand.streets.keys():
m = self.re_HeroCards.finditer(hand.streets[street])
for found in m:
# if m == None:
# hand.involved = False
# else:
hand.hero = found.group('PNAME')
newcards = found.group('NEWCARDS').split(' ')
hand.addHoleCards(street, hand.hero, closed=newcards, shown=False, mucked=False, dealt=True)
for street, text in hand.streets.iteritems():
if not text or street in ('PREFLOP', 'DEAL'): continue # already done these
m = self.re_HeroCards.finditer(hand.streets[street])
for found in m:
player = found.group('PNAME')
if found.group('NEWCARDS') is None:
newcards = []
else:
newcards = found.group('NEWCARDS').split(' ')
if found.group('OLDCARDS') is None:
oldcards = []
else:
oldcards = found.group('OLDCARDS').split(' ')
if street == 'THIRD' and len(newcards) == 3: # hero in stud game
hand.hero = player
hand.dealt.add(player) # need this for stud??
hand.addHoleCards(street, player, closed=newcards[0:2], open=[newcards[2]], shown=False, mucked=False, dealt=False)
else:
hand.addHoleCards(street, player, open=newcards, closed=oldcards, shown=False, mucked=False, dealt=False)
def readAction(self, hand, street):
m = self.re_Action.finditer(hand.streets[street])
for action in m:
acts = action.groupdict()
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('BET'), 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):
# TODO: pick up mucks also??
for shows in self.re_ShowdownAction.finditer(hand.handText):
cards = shows.group('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 = cards.split(' ') # needs to be a list, not a set--stud needs the order
(shown, mucked) = (False, False)
if m.group('SHOWED') == "showed": shown = True
elif m.group('SHOWED') == "mucked": mucked = True
hand.addShownCards(cards=cards, player=m.group('PNAME'), shown=shown, mucked=mucked)
if __name__ == "__main__":
parser = OptionParser()
parser.add_option("-i", "--input", dest="ipath", help="parse input hand history", default="regression-test-files/stars/horse/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()
e = PokerStars(in_path = options.ipath, out_path = options.opath, follow = options.follow)